CN101584328A - The application of macrolide in control of insect - Google Patents

The application of macrolide in control of insect Download PDF

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Publication number
CN101584328A
CN101584328A CNA2009101513795A CN200910151379A CN101584328A CN 101584328 A CN101584328 A CN 101584328A CN A2009101513795 A CNA2009101513795 A CN A2009101513795A CN 200910151379 A CN200910151379 A CN 200910151379A CN 101584328 A CN101584328 A CN 101584328A
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bacterium
fungal pathogens
cryla
belongs
nematode
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D·霍弗
M·苏特
F·布兰德尔
B·李
R·G·霍尔
M·安格斯特
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Syngenta Participations AG
Syngenta Crop Protection LLC
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Abstract

The invention discloses a kind of method with Macrocyclic lactone compounds control pest; More specifically say so: (A) a kind of with Macrocyclic lactone compounds control in the genetically modified crops of useful plants or on the method for insect, it is characterized in that to pest or its environment, particularly use a kind of composition pesticide to crop self, said composition comprises the Macrocyclic lactone compounds of acceptable salt form on free form or the agrochemistry as active ingredient and at least a auxiliary agent, and the genetically modified crops of useful plants wherein are for example corn, cereal class, soybean, tomato, cotton, potato, rice and mustard; (B) plant organ of protective plant propagating materials and later stage formation is not subjected to the method for pest infringement, it is characterized in that near the plantation or the place of seed propagation material or a kind of agricultural chemicals is used in this place, this agricultural chemicals comprises that at least a Macrocyclic lactone compounds with acceptable salt form on free form or the agrochemistry is as active ingredient and at least a auxiliary agent; (C) with Macrocyclic lactone compounds control timber pest and molluscan method, wherein use the agricultural chemicals of the harmful effective dose of going out to pest or its environment, this agricultural chemicals comprises that the macrolide of acceptable salt form at least a free form or the agrochemistry goes out harmful reactive compound as active ingredient and at least a auxiliary agent; The corresponding uses of these compounds, active ingredient are selected from the corresponding agricultural chemicals of these compounds, the preparation of these compounds and using method and the protected by this way plant propagation material that is not subjected to the pest infringement.

Description

The application of macrolide in control of insect
The application is dividing an application of Chinese invention patent application 98813311.3, and its denomination of invention is " application of macrolide in control of insect ", and the applying date is on December 21st, 1998, and priority date is on December 23rd, 1997.
The present invention relates to a kind of method with the Macrocyclic lactone compounds pest control; More specifically say so
(A) a kind of with Macrocyclic lactone compounds control in the genetically modified crops of useful plants or on the new method of insect;
(B) protect the plant propagation material of later stage formation and the method that plant organ is not subjected to the insect infringement with this Macrocyclic lactone compounds; And
(C) a kind of with Macrocyclic lactone compounds control wood borers and molluscan method.
Some insect pest control methods have been proposed in the literature.Yet these methods can not make us fully satisfied in field of pest control, therefore need provide better method to come pest control, the insect of insect and Acarina particularly, or come protective plant, particularly crop.Can realize this purpose according to method provided by the invention.
(A) therefore first aspect of the present invention relates to a kind of method of preventing and treating the genetically modified crops such as the insect in corn, cereal, soybean, Kidney bean, tomato, cotton, potato, rice and the leaf mustard of useful plants, it is characterized in that to contain the Macrocyclic lactone compounds of the form of salt useful on free form or the agrochemistry, Avermectin (abamectin) particularly, be applied to insect or its environment with the Pesticidal combination of at least a auxiliary agent, particularly be applied to crop self; The propagating materials of the genetically modified plants that also relate to the purposes of described composition and handled with said composition.
Surprisingly have now found that, containing for example one or more expression desinsections, particularly killing the gene of insect, tick mite killing, nematicide or mycocidal active component or weed killer herbicide being had on the transgenosis useful plants of tolerance has synergistic effect with the Macrocyclic lactone compounds pest control.More surprisingly, can expect that in principle the effect that Macrocyclic lactone compounds is combined with genetically modified plants on the insect that is used for the desire control surpasses additive effect, therefore enlarged the sphere of action of the active ingredient that Macrocyclic lactone compounds and genetically modified plants express, particularly aspect following two:
Specifically now shockingly find in the scope of the present invention (A), compare with the insecticidal effect that Macrocyclic lactone compounds and genetically modified plants are used separately, the insecticidal activity of Macrocyclic lactone compounds combines with the effect that the transgenosis useful plants is expressed not only the additive effect of common expection, and has synergistic effect.Yet term in this manual " is worked in coordination with " never to should be understood to and is only limited to insecticidal activity, and this term also refers to use separately respectively with Macrocyclic lactone compounds and transgenosis useful plants compares the favourable character of other of the inventive method.The example of this favourable character that can mention is: to the expansion of the insecticidal spectrum of other insects such as resistant strain effect; Even the minimizing of Macrocyclic lactone compounds amount of application is perhaps when Macrocyclic lactone compounds and transgenosis useful plants use separately under the invalid fully amount of application, by the effective control of composition of the present invention to insect; Increased the safety of crop; Improved product quality, as the content of any residue of the content of the toxic products of the shelf life of higher nutrient or oil content, fiber quality, prolongation preferably, reduction such as mycotoxin, reduction or unfavorable composition or better digestibility; The tolerance that improves to salt content in unfavorable temperature, arid or the water; Assimilability that improves such as nutrient uptake, moisture picked-up and photosynthesis; Favourable crop character, as the saprophyte that nourishes and grows, increases output, favourable shape of the seed/seed thickness or germination characteristic, change of the leaf area that changes, reduction or cluster that epiphyte causes, the aging phytoalexin output that delays, improves, promote hasting of maturity, increase a seat flower rate (flower set increase), reduce cotton boll dropping and cracked, better attract that beneficial organism (beneficials) and predator, increase are pollinated, reduction is to the attraction of bird; Or the benefit known to other those skilled in the art.
According to the present invention part (A), (B) and (C) Macrocyclic lactone compounds of use be known to those skilled in the art.They are for example to be disclosed as a close class material than mycin class (milbemycins) and avermectin class (avermectins) among US-P-4310519, US-P-5077298, German prospectus (German Offenlegungsschrift) 2717040 or the US-P-4427663.According to the present invention, these Macrocyclic lactone compounds also can be regarded as the derivative of this class material, that is, for example close than mycin oxime, moxidectin, ivermectin (ivermectin), Avermectin, emamectin and doramectin, and the spinosyns of following general formula
R wherein 1, R 2, R 3, R 4, R 5And R 6Be hydrogen or replacement or unsubstituted alkyl, thiazolinyl, alkynyl, cycloalkyl, aryl or heterocyclic radical independently of one another, substructure A and B represent independently of one another, two carbon atoms that these substructure keys connect are by singly-bound, connect by two keys or by singly-bound and epoxy bridging, described Macrocyclic lactone compounds is a free form, if but perhaps suitable be its agricultural salt form.
In the scope of the present invention (A), Avermectin is preferred.Avermectin is avermectin B 1aWith avermectin B 1bMixture, for example be disclosed in " agricultural chemicals handbook (The PesticideManual), the 10th edition (1994), the Britain crop protection committee (The British CropProtection Council), London, the 3rd page.
In the scope of the present invention (A), emamectin equally preferably, this material is from US-P-4, in 874,749 known 4 "-deoxidation-4 "-Biao-N-methylamino avermectin B 1b/ B 1aWith organic chemistry magazine (Journal of Organic Chemistry), the 59th volume (1994), the described MK-244 of 7704-7708 page or leaf.Useful especially emamectin salt is at US-P-5 on the agrochemistry, states in 288,710.
In the scope of the present invention (A), equally preferably comprise a compounds of spinosyns and its derivative; A compounds that comprises natural spinosyns; Or comprise a compounds of the derivative of natural spinosyns.In the scope of theme of the present invention (A), active ingredient preferably can comprise spinosyn A; Spinosyn D; Or the mixture of spinosyn A and spinosynD; Particularly preferably be spinosad.Spinosad be described in " agricultural chemicals handbook the 11st edition (1997), the Britain crop protection committee, London, Britain is in the 1272-1273 page or leaf.
The salt that described Macrocyclic lactone compounds is fit on agrochemistry is, for example inorganic acid and organic acid acid-addition salts, especially hydrochloric acid, hydrobromic acid, sulfuric acid, nitric acid, perchloric acid, phosphoric acid, formic acid, acetate, trifluoroacetic acid, oxalic acid, malonic acid, toluenesulfonic acid or benzoic acid.Preferably a kind of within the scope of the present invention known composition itself, said composition comprise that the Avermectin of free form or spinosad and emamectin benzoate are as active ingredient.
The genetically modified plants that (A) uses according to the present invention are plant or its propagating materials, transform with recombinant DNA technology, can selectivity synthesize the effect toxin by such mode genetically modified plants, for example known the deriving from of effect toxin produced malicious invertebrate, particularly Arthropoda can obtain from bacillus thuringiensis (Bacillus thringiensis) bacterial strain; Or knownly derive from plant, as agglutinin; Perhaps in addition, can express weed killer herbicide or fungicide tolerance.The example that these toxin maybe can synthesize the genetically modified plants of these toxin is disclosed in, and for example EP-A-0374753, WO 93/07278, WO 95/34656, EP-A-0427529 and EP-A-451878 quote as a reference in this application.
The method that produces this genetically modified plants is known by those skilled in the art, is for example stating in the above-mentioned publication.
Can be comprised toxin for example, as have insecticidal properties and, for example bacillus cereus albumen or Japanese beetle bacillus (Bacillus popliae) albumen by the toxin that this genetically modified plants are expressed by the genetically modified plants expressed protein; Or bacillus thuringiensis endotoxin (B.t.), as CryIA (a), CryIA (b), CryIA (c), CryIIA, CryIIIA, CryIIIB2 or CytA; VIP1; VIP2; VIP3 or settle down the bacterium of nematode such as the kind of polished rod shape Pseudomonas (Photorhabdus) or Xenorhabdus belong to the kind of (Xenorhabdus) such as the insect-killing protein of luminous smooth rod bacterium (Photorhabdus luminescenes), Xenorhabdus nematophilus (Xenorhabdusnematophilus) etc.; Protease inhibitors is as trypsin inhibitor, serpin, patatin, cystatin, antipain; Ribosome inactivating protein (RIP) is as ricin, corn RIP, abrin, luffin, saporin or bryodin; Phytolectin such as pisum sativum agglutinin, barley lectin element or Galanthus Nivalis Agglutinin (GNA); Or agglutinin (agglutinin); The toxin that animal produces is as scorpion toxin, spider venom, wasp venom and the distinctive neurotoxin of other insects; The steroid metabolism enzyme, as 3-hydroxy steroid oxidase, ecdysteroid UDP-glycosyl transferase, cholesterol oxidase, moulting hormone inhibiting factor, HMG-COA reductase, ion channel blocking agent such as sodium and calcium, juvenile hormone esterase, diuretic hormone acceptor, 1,2-talan synthase, bibenzyl synthase, chitinase and dextranase.
Comprise one or more coded insect-killing agent tolerances and express the example of known genetically modified plants of gene of one or more toxin as follows:
Figure A20091015137900071
(corn), (corn);
Figure A20091015137900073
(cotton),
Figure A20091015137900074
(cotton),
Figure A20091015137900075
(potato),
Figure A20091015137900076
With
Figure A20091015137900077
Following table has comprised the target of genetically modified crops, the composition of expression and more examples of crop phenotype, these genetically modified crops mainly are insect, acarid, nematode, virus, bacterium and disease performance tolerance to insect, perhaps tolerate specific weed killer herbicide or weed killer herbicide kind.
Table A 1: crop: corn
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine oxy-benzoic acid ester, 2-benzo [c] furanone (Phtalides)
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) IMP and AMP synthetic inhibitor
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid shikimic acid synthase (EPSPS) Glyphosate or sulphosate
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoles, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 for example Xenobiotic and weed killer herbicide such as sulfonylurea
SU1
Dimboa biosynthesis (Bx1 gene) Helminthosporium turcicum corn leaf aphids, Piplodia maydis, corn borer, lepidopterous kind
CMIII (little alkaline corn kind peptide) Phytopathogen is Fusarium for example, Alternaria, Sclerotinia
Corn-SAFP (zeamatin) Phytopathogen is Fusarium for example, Alternaria, Sclerotinia, Rhizoctonia, Chaetomium, phycomyces
The Hm1 gene Cochliobolus belongs to (Cochliobulus)
Chitinase Phytopathogen
Dextranase Phytopathogen
Coat protein Virus is as maize dwarf mosaic virus, maize chlorotic dwarf virus
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Lepidoptera, coleoptera, diptera, nematode is European corn borer for example, the real noctuid of paddy, mythimna separata is fall army worm for example, corn root snout moth's larva, moth stem Noctua, black cutworm, Asiatic corn borer, curculionid
3-hydroxy steroid oxidase Lepidoptera, coleoptera, diptera, nematode is European corn borer for example, the real noctuid of paddy, mythimna separata is fall army worm for example, corn root snout moth's larva, moth stem Noctua, black cutworm, Asiatic corn borer, curculionid
Peroxidase Lepidoptera, coleoptera, diptera, nematode is European corn borer for example, the real noctuid of paddy, mythimna separata is fall army worm for example, corn root snout moth's larva, moth stem Noctua, black cutworm, Asiatic corn borer, curculionid
Amastatin is leucine amino peptidase inhibitor (LAPI) for example Lepidoptera, coleoptera, diptera, nematode is European corn borer for example, the real noctuid of paddy, mythimna separata is fall army worm for example, corn root snout moth's larva, the kind of moth stem Noctua, black cutworm, Asiatic corn borer, curculionid
The citrene synthase The corn root snout moth's larva
Agglutinin Lepidoptera, coleoptera, diptera, nematode is European corn borer for example, the real noctuid of paddy, mythimna separata is fall army worm for example, corn root snout moth's larva, the kind of moth stem Noctua, black cutworm, Asiatic corn borer, curculionid
Protease inhibitors, for example cystatin, patatin, virgiferin, CPTI Curculionid, the corn root snout moth's larva
Ribosome inactivating protein Lepidoptera, coleoptera, diptera, nematode is European corn borer for example, the real noctuid of paddy, mythimna separata is fall army worm for example, corn root snout moth's larva, the kind of moth stem Noctua, black cutworm, Asiatic corn borer, curculionid
Corn 5C9 polypeptide Lepidoptera, coleoptera, diptera, nematode is European corn borer for example, the real noctuid of paddy, mythimna separata is fall army worm for example, corn root snout moth's larva, the kind of moth stem Noctua, black cutworm, Asiatic corn borer, curculionid
The HMG-CoA reductase Lepidoptera, coleoptera, diptera, nematode is European corn borer for example, the real noctuid of paddy, mythimna separata is fall army worm for example, corn root snout moth's larva, the kind of moth stem Noctua, black cutworm, Asiatic corn borer, curculionid
Table A 2: crop: wheat
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine oxy-benzoic acid ester, 2-benzo [c] furanone
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) The inhibitor that IMP and AMP are synthetic
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid shikimic acid synthase (EPSPS) Glyphosate or sulphosate
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoles, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 for example Xenobiotic and weed killer herbicide such as sulfonylurea
Anti-fungus polypeptide AlyAFP Phytopathogen such as Septoria and Fusarium
Glucose oxidase Phytopathogen is Fusarium for example, Septoria
The pyrrolnitrin synthetic gene Phytopathogen is Fusarium for example, Septoria
Serine/threonine kinase Phytopathogen is Fusarium for example, Septoria and other diseases
Cause anaphylactoid polypeptide Phytopathogen is Fusarium for example, Septoria and other diseases
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Chitinase Phytopathogen
Dextranase Phytopathogen
The double stranded RNA enzyme Virus is as BYDV and MSMV
Coat protein Virus is as BYDV and MSMV
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Lepidoptera, coleoptera, diptera, nematode
3-hydroxy steroid oxidase Lepidoptera, coleoptera, diptera, nematode
Peroxidase Lepidoptera, coleoptera, diptera, nematode
Amastatin is the leucine amino peptidase inhibitor for example Lepidoptera, coleoptera, diptera, nematode
Agglutinin Lepidoptera, coleoptera, diptera, nematode, aphid
Protease inhibitors, for example cystatin, patatin, virgiferin, CPTI Lepidoptera, coleoptera, diptera, nematode, aphid
Ribosome inactivating protein Lepidoptera, coleoptera, diptera, nematode, aphid
The HMG-CoA reductase Lepidoptera, coleoptera, diptera, nematode is European corn borer for example, the real noctuid of paddy, mythimna separata is fall army worm for example, corn root snout moth's larva, the kind of moth stem Noctua, black cutworm, Asiatic corn borer, curculionid
Table A 3: crop: barley
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine radicals hydroxy benzoate, 2-benzo [c] Furanones
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) The inhibitor that IMP and AMP are synthetic
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid shikimic acid synthase (EPSPS) Glyphosate or sulphosate
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoles, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 for example Xenobiotic and weed killer herbicide such as sulfonylurea
Anti-fungus polypeptide AlyAFP Phytopathogen such as Septoria and Fusarium
Glucose oxidase Phytopathogen is Fusarium, Septoria for example
The pyrrolnitrin synthetic gene Phytopathogen is Fusarium, Septoria for example
Serine/threonine kinase Phytopathogen is Fusarium, Septoria and other diseases for example
Cause anaphylactoid polypeptide Phytopathogen is Fusarium, Septoria and other diseases for example
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Chitinase Phytopathogen
Dextranase Phytopathogen
The double stranded RNA enzyme Virus is as BYDV and MSMV
Coat protein Virus is as BYDV and MSMV
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Lepidoptera, coleoptera, diptera, nematode
3-hydroxy steroid oxidase Lepidoptera, coleoptera, diptera, nematode
Peroxidase Lepidoptera, coleoptera, diptera, nematode
Amastatin is the leucine amino peptidase inhibitor for example Lepidoptera, coleoptera, diptera, nematode
Agglutinin Lepidoptera, coleoptera, diptera, nematode, aphid
Protease inhibitors, for example cystatin, patatin, virgiferin, CPTI Lepidoptera, coleoptera, diptera, nematode, aphid
Ribosome inactivating protein Lepidoptera, coleoptera, diptera, nematode, aphid
The HMG-CoA reductase Lepidoptera, coleoptera, diptera, nematode, aphid
Table A 4: crop: paddy rice
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine radicals hydroxy benzoate, 2-benzo [c] furanone
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) The inhibitor that IMP and AMP are synthetic
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid thick grass Glyphosate or sulphosate
Acid synthase (EPSPS)
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoles, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 for example Xenobiotic and weed killer herbicide such as sulfonylurea
Anti-fungus polypeptide AlyAFP Phytopathogen
Glucose oxidase Phytopathogen
The pyrrolnitrin synthetic gene Phytopathogen
Serine/threonine kinase Phytopathogen
Phenylalanine ammonia is separated enzyme (PAL) For example derivable bacillary bacterial leaf-blight of phytopathogen and rice blast
Phytoalexin For example bacillary bacterial leaf-blight of phytopathogen and rice blast
Antisense B-1, the 3-dextranase For example bacillary bacterial leaf-blight of phytopathogen and rice blast
Receptor kinase For example bacillary bacterial leaf-blight of phytopathogen and rice blast
Cause anaphylactoid polypeptide Phytopathogen
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Chitinase For example bacillary bacterial leaf-blight of phytopathogen and rice blast
Dextranase Phytopathogen
The double stranded RNA enzyme Virus is as BYDV and MSMV
Coat protein Virus is as BYDV and MSMV
The bacillus thuringiensis toxin, VIP3, the bacillus cereus toxin, Lepidoptera is the paddy stem borer worm for example, and coleoptera for example rice water resembles, diptera, rice fulgorid (rice
Light rod bacterium and Xenorhabdus toxin Hoppers) as brown planthopper (brown rice hopper)
3-hydroxy steroid oxidase Lepidoptera is the paddy stem borer worm for example, and coleoptera for example rice water resembles, diptera, rice fulgorid such as brown planthopper
Peroxidase Lepidoptera is the paddy stem borer worm for example, and coleoptera for example rice water resembles, diptera, rice fulgorid such as brown planthopper
Amastatin is the leucine amino peptidase inhibitor for example Lepidoptera is the paddy stem borer worm for example, and coleoptera for example rice water resembles, diptera, rice fulgorid such as brown planthopper
Agglutinin Lepidoptera is the paddy stem borer worm for example, and coleoptera for example rice water resembles, diptera, rice fulgorid such as brown planthopper
Protease inhibitors Lepidoptera is the paddy stem borer worm for example, and coleoptera for example rice water resembles, diptera, rice fulgorid such as brown planthopper
Ribosome inactivating protein Lepidoptera is the paddy stem borer worm for example, and coleoptera for example rice water resembles, diptera, rice fulgorid such as brown planthopper
The HMG-CoA reductase Lepidoptera is the paddy stem borer worm for example, and coleoptera for example rice water resembles, diptera, rice fulgorid such as brown planthopper
Table A 5: crop: soya bean
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine oxy-benzoic acid ester, 2-benzo [c] furanone
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) The inhibitor that IMP and AMP are synthetic
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid shikimic acid synthase (EPSPS) Glyphosate or sulphosate
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoles, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 or selection for example Xenobiotic and weed killer herbicide such as sulfonylurea
Anti-fungus polypeptide AlyAFP Bacterium and fungal pathogens such as Fusarium, Sclerotinia, stalk break
Oxalate oxidase Bacterium and fungal pathogens such as Fusarium, Sclerotinia, stalk break
Glucose oxidase Bacterium and fungal pathogens such as Fusarium, Sclerotinia, stalk break
The pyrrolnitrin synthetic gene Bacterium and fungal pathogens such as Fusarium, Sclerotinia, stalk break
Serine/threonine kinase Bacterium and fungal pathogens such as Fusarium, Sclerotinia, stalk break
Phenylalanine ammonia is separated enzyme (PAL) Bacterium and fungal pathogens such as Fusarium, Sclerotinia, stalk break
Phytoalexin For example bacillary bacterial leaf-blight of phytopathogen and rice blast
Antisense B-1, the 3-dextranase For example bacillary bacterial leaf-blight of phytopathogen and rice blast
Receptor kinase Bacterium and fungal pathogens such as Fusarium, Sclerotinia, stalk break
Cause anaphylactoid polypeptide Phytopathogen
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Chitinase Bacterium and fungal pathogens such as Fusarium, Sclerotinia, stalk break
Dextranase Bacterium and fungal pathogens such as Fusarium, Sclerotinia, stalk break
The double stranded RNA enzyme Virus is as BPMV and SbMV
Coat protein Virus is as BYDV and MSMV
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Lepidoptera, coleoptera, aphid
3-hydroxy steroid oxidase Lepidoptera, coleoptera, aphid
Peroxidase Lepidoptera, coleoptera, aphid
Amastatin is the leucine amino peptidase inhibitor for example Lepidoptera, coleoptera, aphid
Agglutinin Lepidoptera, coleoptera, aphid
Protease inhibitors is virgiferin for example Lepidoptera, coleoptera, aphid
Ribosome inactivating protein Lepidoptera, coleoptera, aphid
The HMG-CoA reductase Lepidoptera, coleoptera, aphid
Barnase Nematode is root-knot nematode and Cyst nematode for example
Cyst nematode hatching stimulus Cyst nematode
The food refusal composition Nematode is root-knot nematode and Cyst nematode for example
Table A 6: crop: potato
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine oxy-benzoic acid ester, 2-benzo [c] furanone
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) The inhibitor that IMP and AMP are synthetic
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid thick grass Glyphosate or sulphosate
Acid synthase (EPSPS)
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoles, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 or selection for example Xenobiotic and weed killer herbicide such as sulfonylurea
Polyphenol oxidase or antisense polyphenol oxidase The black spot scar
Metallothionein Bacterium and fungal pathogens such as Phytophthora
Ribalgilase Phytophthora, Verticillium, Rhizoctonia
Anti-fungus polypeptide AlyAFP Bacterium and fungal pathogens such as Phytophthora
Oxalate oxidase Bacterium and fungal pathogens such as Phytophthora, Verticillium, Rhizoctonia
Glucose oxidase Bacterium and fungal pathogens such as Phytophthora, Verticillium, Rhizoctonia
The pyrrolnitrin synthetic gene Bacterium and fungal pathogens such as Phytophthora, Verticillium, Rhizoctonia
Serine/threonine kinase Bacterium and fungal pathogens such as Phytophthora, Verticillium, Rhizoctonia
Cecropin B Bacterium is as the excellent bacillus of rotting, carrot soft rot Erwinia
Phenylalanine ammonia is separated enzyme (PAL) Bacterium and fungal pathogens such as Phytophthora, Verticillium, Rhizoctonia
Phytoalexin Bacterium and fungal pathogens such as Phytophthora, Verticillium, Rhizoctonia
Antisense B-1, the 3-dextranase Bacterium and fungal pathogens such as Phytophthora, Verticillium, Rhizoctonia
Receptor kinase Bacterium and fungal pathogens such as Phytophthora, Verticillium, Rhizoctonia
Cause anaphylactoid polypeptide Bacterium and fungal pathogens such as Phytophthora, Verticillium, Rhizoctonia
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Chitinase Bacterium and fungal pathogens such as Phytophthora, Verticillium, Rhizoctonia
Barnase Bacterium and fungal pathogens such as Phytophthora, Verticillium, Rhizoctonia
Disease resistance response gene 49 Bacterium and fungal pathogens such as Phytophthora, Verticillium, Rhizoctonia
The antisense transaldolase Black spot
Dextranase Bacterium and fungal pathogens such as Phytophthora, Verticillium, Rhizoctonia
The double stranded RNA enzyme Virus is as PLRV, PVY and TRV
Coat protein Virus is as PLRV, PVY and TRV
17KDa or 60KDa protein Virus is as PLRV, PVY and TRV
Intranuclear inclusion albumen is a or b for example Virus is as PLRV, PVY and TRV
False ubiquitin (Pseudoubiquitin) Virus is as PLRV, PVY and TRV
Replicase Virus is as PLRV, PVY and TRV
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Coleoptera is colorado potato beetles for example, aphid
3-hydroxy steroid oxidase Coleoptera is colorado potato beetles for example, aphid
Peroxidase Coleoptera is colorado potato beetles for example, aphid
Amastatin is the leucine amino peptidase inhibitor for example Coleoptera is colorado potato beetles for example, aphid
1,2-talan synthase Coleoptera is colorado potato beetles for example, aphid
Agglutinin Coleoptera is colorado potato beetles for example, aphid
Protease inhibitors is cystatin, patatin for example Coleoptera is colorado potato beetles for example, aphid
Ribosome inactivating protein Coleoptera is colorado potato beetles for example, aphid
The HMG-CoA reductase Coleoptera is colorado potato beetles for example, aphid
Cyst nematode hatching stimulus Cyst nematode
Barnase Nematode is root-knot nematode and Cyst nematode for example
The food refusal composition Nematode is root-knot nematode and Cyst nematode for example
Table A 7: crop: tomato
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine oxy-benzoic acid ester, 2-benzo [c] furanone
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) The inhibitor that IMP and AMP are synthetic
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal
And ioxynil
5-enol pyruvoyl-3-phosphoric acid shikimic acid synthase (EPSPS) Glyphosate or sulphosate
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoles, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 or selection for example Xenobiotic and weed killer herbicide such as sulfonylurea
Polyphenol oxidase or antisense polyphenol oxidase The black spot scar
Metallothionein Bacterium and fungal pathogens such as Phytophthora
Ribalgilase Phytophthora, Verticillium, Rhizoctonia
Anti-fungus polypeptide AlyAFP Bacterium and fungal pathogens such as bacterial leaf spot, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
Oxalate oxidase Bacterium and fungal pathogens such as bacterial leaf spot, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
Glucose oxidase Bacterium and fungal pathogens such as bacterial leaf spot, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
The pyrrolnitrin synthetic gene Bacterium and fungal pathogens such as bacterial leaf spot, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
Serine/threonine kinase Bacterium and fungal pathogens such as bacterial leaf spot, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
Cecropin B Bacterium and fungal pathogens such as bacterium tikka
Disease, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
Phenylalanine ammonia is separated enzyme (PAL) Bacterium and fungal pathogens such as bacterial leaf spot, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
The Cf gene is Cf9, Cf5, Cf4, Cf2 for example Leaf mold
Infiltration albumen Target chain lattice spore
α-Hordothionin Bacterium
Systemin Bacterium and fungal pathogens such as bacterial leaf spot, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
The polygalacturonase inhibitor Bacterium and fungal pathogens such as bacterial leaf spot, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
The Prf regulatory gene Bacterium and fungal pathogens such as bacterial leaf spot, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
I2 Fusarium resistance site Fusarium
Phytoalexin Bacterium and fungal pathogens such as bacterial leaf spot, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
Antisense B-1, the 3-dextranase Bacterium and fungal pathogens such as bacterial leaf spot, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
Receptor kinase Bacterium and fungal pathogens such as bacterial leaf spot, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
Cause anaphylactoid polypeptide Bacterium and fungal pathogens such as bacterium tikka
Disease, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Chitinase Bacterium and fungal pathogens such as bacterial leaf spot, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
Barnase Bacterium and fungal pathogens such as bacterial leaf spot, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
Dextranase Bacterium and fungal pathogens such as bacterial leaf spot, Fusarium, soft rot, powdery mildew, neck rot, leaf mold etc.
The double stranded RNA enzyme Virus is as PLRV, PVY and ToMoV
Coat protein Virus is as PLRV, PVY and ToMoV
17KDa or 60KDa albumen Virus is as PLRV, PVY and ToMoV
Intranuclear inclusion albumen is a or b or nucleoprotein for example Virus is as PLRV, PVY and ToMoV, TRV
False ubiquitin Virus is as PLRV, PVY and ToMoV
Replicase Virus is as PLRV, PVY and ToMoV
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Lepidoptera is Heliothis for example, aleyrodid, aphid
3-hydroxy steroid oxidase Lepidoptera is Heliothis for example, aleyrodid, aphid
Peroxidase Lepidoptera is Heliothis for example, aleyrodid, aphid
Amastatin is the leucine amino peptidase inhibitor for example Lepidoptera is Heliothis for example, aleyrodid, aphid
Agglutinin Lepidoptera is Heliothis for example, aleyrodid, aphid
Protease inhibitors is cystatin for example, patatin Lepidoptera is Heliothis for example, aleyrodid, aphid
Ribosome inactivating protein Lepidoptera is Heliothis for example, aleyrodid, aphid
1,2-talan synthase Lepidoptera is Heliothis for example, aleyrodid, aphid
The HMG-CoA reductase Lepidoptera is Heliothis for example, aleyrodid, aphid
Cyst nematode hatching stimulus Cyst nematode
Barnase Nematode is root-knot nematode and Cyst nematode for example
The food refusal composition Nematode is root-knot nematode and Cyst nematode for example
Table A 8: crop: pepper
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine radicals hydroxy benzoate, 2-benzo [c] furanone
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase The inhibitor that IMP and AMP are synthetic
(ADSL)
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid shikimic acid synthase (EPSPS) Glyphosate or sulphosate
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoles, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 or selection for example Xenobiotic and weed killer herbicide such as sulfonylurea
Polyphenol oxidase or antisense polyphenol oxidase Bacterium and fungal pathogens
Metallothionein Bacterium and fungal pathogens
Ribalgilase Bacterium and fungal pathogens
Anti-fungus polypeptide AlyAFP Bacterium and fungal pathogens
Oxalate oxidase Bacterium and fungal pathogens
Glucose oxidase Bacterium and fungal pathogens
The pyrrolnitrin synthetic gene Bacterium and fungal pathogens
Serine/threonine kinase Bacterium and fungal pathogens
Cecropin B Bacterium and fungal pathogens rot, leaf mold etc.
Phenylalanine ammonia is separated enzyme (PAL) Bacterium and fungal pathogens
The Cf gene is Cf9, Cf5, Cf4, Cf2 for example Bacterium and fungal pathogens
Infiltration albumen Bacterium and fungal pathogens
α-Hordothionin Bacterium and fungal pathogens
Systemin Bacterium and fungal pathogens
The polygalacturonase inhibitor Bacterium and fungal pathogens
The Prf regulatory gene Bacterium and fungal pathogens
I2 Fusarium resistance site Fusarium
Phytoalexin Bacterium and fungal pathogens
Antisense B-1, the 3-dextranase Bacterium and fungal pathogens
Receptor kinase Bacterium and fungal pathogens
Cause anaphylactoid polypeptide Bacterium and fungal pathogens
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Chitinase Bacterium and fungal pathogens
Barnase Bacterium and fungal pathogens
Dextranase Bacterium and fungal pathogens
The double stranded RNA enzyme Virus is as CMV, TEV
Coat protein Virus is as CMV, TEV
17KDa or 60KDa protein Virus is as CMV, TEV
Intranuclear inclusion albumen is a or b or nucleoprotein for example Virus is as CMV, TEV
False ubiquitin Virus is as CMV, TEV
Replicase Virus is as CMV, TEV
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Lepidoptera, aleyrodid, aphid
3-hydroxy steroid oxidase Lepidoptera, aleyrodid, aphid
Peroxidase Lepidoptera, aleyrodid, aphid
Amastatin is the leucine amino peptidase inhibitor for example Lepidoptera, aleyrodid, aphid
Agglutinin Lepidoptera, aleyrodid, aphid
Protease inhibitors is cystatin for example, patatin Lepidoptera, aleyrodid, aphid
Ribosome inactivating protein Lepidoptera, aleyrodid, aphid
1,2-talan synthase Lepidoptera, aleyrodid, aphid
The HMG-CoA reductase Lepidoptera, aleyrodid, aphid
Cyst nematode hatching stimulus Cyst nematode
Barnase Nematode is root-knot nematode and Cyst nematode for example
The food refusal composition Nematode is root-knot nematode and Cyst nematode for example
Table A 9: crop: grape
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine oxy-benzoic acid ester, 2-benzo [c] furanone
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) The inhibitor that IMP and AMP are synthetic
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid shikimic acid synthase (EPSPS) Glyphosate or sulphosate
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoles, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 or selection for example Xenobiotic and weed killer herbicide such as sulfonylurea
Polyphenol oxidase or antisense polyphenol oxidase Bacterium and fungal pathogens such as Botrytis and powdery mildew
Metallothionein Bacterium and fungal pathogens such as Botrytis and powdery mildew
Ribalgilase Bacterium and fungal pathogens such as Botrytis and powdery mildew
Anti-fungus polypeptide AlyAFP Bacterium and fungal pathogens such as Botrytis and powdery mildew
Oxalate oxidase Bacterium and fungal pathogens such as Botrytis and powdery mildew
Glucose oxidase Bacterium and fungal pathogens such as Botrytis and powdery mildew
The pyrrolnitrin synthetic gene Bacterium and fungal pathogens such as Botrytis and powdery mildew
Serine/threonine kinase Bacterium and fungal pathogens such as Botrytis and powdery mildew
Cecropin B Bacterium and fungal pathogens such as Botrytis and powdery mildew
Phenylalanine ammonia is separated enzyme (PAL) Bacterium and fungal pathogens such as Botrytis and powdery mildew
The Cf gene is Cf9, Cf5, Cf4, Cf2 for example Bacterium and fungal pathogens such as Botrytis and powdery mildew
Infiltration albumen Bacterium and fungal pathogens such as Botrytis and powdery mildew
α-Hordothionin Bacterium and fungal pathogens such as Botrytis and powdery mildew
Systemin Bacterium and fungal pathogens such as Botrytis and powdery mildew
The polygalacturonase inhibitor Bacterium and fungal pathogens such as Botrytis and powdery mildew
The Prf regulatory gene Bacterium and fungal pathogens such as Botrytis and powdery mildew
Phytoalexin Bacterium and fungal pathogens such as Botrytis and powdery mildew
Antisense B-1, the 3-dextranase Bacterium and fungal pathogens such as Botrytis and powdery mildew
Receptor kinase Bacterium and fungal pathogens such as Botrytis and powdery mildew
Cause anaphylactoid polypeptide Bacterium and fungal pathogens such as Botrytis and powdery mildew
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Chitinase Bacterium and fungal pathogens such as Botrytis and powdery mildew
Barnase Bacterium and fungal pathogens such as Botrytis and powdery mildew
Dextranase Bacterium and fungal pathogens such as Botrytis and powdery mildew
The double stranded RNA enzyme Virus
Coat protein Virus
17KDa or 60KDa protein Virus
Intranuclear inclusion albumen is a or b or nucleoprotein for example Virus
False ubiquitin Virus
Replicase Virus
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Lepidoptera, aphid
3-hydroxy steroid oxidase Lepidoptera, aphid
Peroxidase Lepidoptera, aphid
Amastatin is the leucine amino peptidase inhibitor for example Lepidoptera, aphid
Agglutinin Lepidoptera, aphid
Protease inhibitors is cystatin for example, patatin Lepidoptera, aphid
Ribosome inactivating protein Lepidoptera, aphid
1,2-talan synthase Lepidoptera, aphid, disease
The HMG-CoA reductase Lepidoptera, aphid
Cyst nematode hatching stimulus Cyst nematode
Barnase Nematode is root-knot nematode and Cyst nematode or comprehensive (general) disease for example
CBI Root-knot nematode
The food refusal composition Nematode is root-knot nematode and Cyst nematode for example
Table A 10: crop: rape seed
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazol
Miazines, pyrimidine oxy-benzoic acid ester, 2-benzo [c] Furanones
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) The inhibitor that IMP and AMP are synthetic
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid shikimic acid synthase (EPSPS) Glyphosate or sulphosate
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoles, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 or selection for example Xenobiotic and weed killer herbicide such as sulfonylurea
Polyphenol oxidase or antisense polyphenol oxidase Bacterium and fungal pathogens such as column disk spore belong to (Cyclindrosporium), Phoma (Phoma), Sclerotinia
Metallothionein Bacterium and fungal pathogens such as column disk spore genus,
Phoma, Sclerotinia
Ribalgilase Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
Anti-fungus polypeptide AlyAFP Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
Oxalate oxidase Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
Glucose oxidase Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
The pyrrolnitrin synthetic gene Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
Serine/threonine kinase Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
Cecropin B Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
Phenylalanine ammonia is separated enzyme (PAL) Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
The Cf gene is Cf9, Cf5, Cf4, Cf2 for example Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
Infiltration albumen Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
α-Hordothionin Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
Systemin Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
The polygalacturonase inhibitor Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
The Prf regulatory gene Bacterium and fungal pathogens such as column disk spore genus,
Phoma, Sclerotinia
Phytoalexin Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
Antisense B-1, the 3-dextranase Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
Receptor kinase Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
Cause anaphylactoid polypeptide Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Chitinase Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
Barnase Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia, nematode
Dextranase Bacterium and fungal pathogens such as column disk spore genus, Phoma, Sclerotinia
The double stranded RNA enzyme Virus
Coat protein Virus
17KDa or 60KDa albumen Virus
Intranuclear inclusion albumen is a or b or nucleoprotein for example Virus
False ubiquitin Virus
Replicase Virus
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Lepidoptera, aphid
3-hydroxy steroid oxidase Lepidoptera, aphid
Peroxidase Lepidoptera, aphid
Amastatin is the leucine amino peptidase inhibitor for example Lepidoptera, aphid
Agglutinin Lepidoptera, aphid
Protease inhibitors is cystatin for example, patatin, CPTI Lepidoptera, aphid
Ribosome inactivating protein Lepidoptera, aphid
1,2-talan synthase Lepidoptera, aphid, disease
The HMG-CoA reductase Lepidoptera, aphid
Cyst nematode hatching stimulus Cyst nematode
Barnase Nematode is root-knot nematode and Cyst nematode for example
CBI Root-knot nematode
The food refusal composition of ingesting and a little inducing nematode Nematode is root-knot nematode and Cyst nematode for example
Table A 11: crop: brassica vegetable (wild cabbage, brussels sprouts (Brussel sprouts), sprouting broccoli etc.)
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine oxy-benzoic acid ester, 2-benzo [c] furanone
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) The inhibitor that IMP and AMP are synthetic
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid shikimic acid synthase (EPSPS) Glyphosate or sulphosate
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoles, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 or selection for example Xenobiotic and weed killer herbicide such as sulfonylurea
Polyphenol oxidase or antisense polyphenol oxidase Bacterium and fungal pathogens
Metallothionein Bacterium and fungal pathogens
Ribalgilase Bacterium and fungal pathogens
Anti-fungus polypeptide AlyAFP Bacterium and fungal pathogens
Oxalate oxidase Bacterium and fungal pathogens
Glucose oxidase Bacterium and fungal pathogens
The pyrrolnitrin synthetic gene Bacterium and fungal pathogens
Serine/threonine kinase Bacterium and fungal pathogens
Cecropin B Bacterium and fungal pathogens
Phenylalanine ammonia is separated enzyme (PAL) Bacterium and fungal pathogens
The Cf gene is Cf9, Cf5, Cf4, Cf2 for example Bacterium and fungal pathogens
Infiltration albumen Bacterium and fungal pathogens
α-Hordothionin Bacterium and fungal pathogens
Systemin Bacterium and fungal pathogens
The polygalacturonase inhibitor Bacterium and fungal pathogens
The Prf regulatory gene Bacterium and fungal pathogens
Phytoalexin Bacterium and fungal pathogens
Antisense B-1, the 3-dextranase Bacterium and fungal pathogens
Receptor kinase Bacterium and fungal pathogens
Cause anaphylactoid polypeptide Bacterium and fungal pathogens
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Chitinase Bacterium and fungal pathogens
Barnase Bacterium and fungal pathogens
Dextranase Bacterium and fungal pathogens
The double stranded RNA enzyme Virus
Coat protein Virus
17KDa or 60KDa protein Virus
Intranuclear inclusion albumen is a or b or nucleoprotein for example Virus
False ubiquitin Virus
Replicase Virus
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Lepidoptera, aphid
3-hydroxy steroid oxidase Lepidoptera, aphid
Peroxidase Lepidoptera, aphid
Amastatin is the leucine amino peptidase inhibitor for example Lepidoptera, aphid
Agglutinin Lepidoptera, aphid
Protease inhibitors is cystatin for example, patatin, CPTI Lepidoptera, aphid
Ribosome inactivating protein Lepidoptera, aphid
1,2-talan synthase Lepidoptera, aphid, disease
The HMG-CoA reductase Lepidoptera, aphid
Cyst nematode hatching stimulus Cyst nematode
Barnase Nematode is root-knot nematode and Cyst nematode for example
CBI Root-knot nematode
The food refusal composition of ingesting and a little inducing nematode Nematode is root-knot nematode and Cyst nematode for example
Table A 12: crop: pomaceous fruits, for example apple, pears
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine oxy-benzoic acid ester, 2-benzo [c] furanone
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) The inhibitor that IMP and AMP are synthetic
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid shikimic acid synthase (EPSPS) Glyphosate or sulphosate
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoles, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 or selection for example Xenobiotic and weed killer herbicide such as sulfonylurea
Polyphenol oxidase or antisense polyphenol oxidase Bacterium and fungal pathogens such as apple scab or fire blight
Metallothionein Bacterium and fungal pathogens such as apple scab or fire blight
Ribalgilase Bacterium and fungal pathogens such as apple scab or fire blight
Anti-fungus polypeptide AlyAFP Bacterium and fungal pathogens such as apple scab or fire blight
Oxalate oxidase Bacterium and fungal pathogens such as apple scab or fire blight
Glucose oxidase Bacterium and fungal pathogens such as apple scab or fire blight
The pyrrolnitrin synthetic gene Bacterium and fungal pathogens such as apple scab or fire blight
Serine/threonine kinase Bacterium and fungal pathogens such as apple scab or fire blight
Cecropin B Bacterium and fungal pathogens such as apple scab
Or fire blight
Phenylalanine ammonia is separated enzyme (PAL) Bacterium and fungal pathogens such as apple scab or fire blight
The Cf gene is Cf9, Cf5, Cf4, Cf2 for example Bacterium and fungal pathogens such as apple scab or fire blight
Infiltration albumen Bacterium and fungal pathogens such as apple scab or fire blight
α-Hordothionin Bacterium and fungal pathogens such as apple scab or fire blight
Systemin Bacterium and fungal pathogens such as apple scab or fire blight
The polygalacturonase inhibitor Bacterium and fungal pathogens such as apple scab or fire blight
The Prf regulatory gene Bacterium and fungal pathogens such as apple scab or fire blight
Phytoalexin Bacterium and fungal pathogens such as apple scab or fire blight
Antisense B-1, the 3-dextranase Bacterium and fungal pathogens such as apple scab or fire blight
Receptor kinase Bacterium and fungal pathogens such as apple scab or fire blight
Cause anaphylactoid polypeptide Bacterium and fungal pathogens such as apple scab or fire blight
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Crack protein Bacterium and fungal pathogens such as apple scab or fire blight
Lysozyme Bacterium and fungal pathogens such as apple scab or fire blight
Chitinase Bacterium and fungal pathogens such as apple scab or fire blight
Barnase Bacterium and fungal pathogens such as apple scab or fire blight
Dextranase Bacterium and fungal pathogens such as apple scab or fire blight
The double stranded RNA enzyme Virus
Coat protein Virus
17KDa or 60KDa protein Virus
Intranuclear inclusion albumen is a or b or nucleoprotein for example Virus
False ubiquitin Virus
Replicase Virus
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Lepidoptera, aphid, mite
3-hydroxy steroid oxidase Lepidoptera, aphid, mite
Peroxidase Lepidoptera, aphid, mite
Amastatin is the leucine amino peptidase inhibitor for example Lepidoptera, aphid, mite
Agglutinin Lepidoptera, aphid, mite
Protease inhibitors is cystatin for example, patatin, CPTI Lepidoptera, aphid, mite
Ribosome inactivating protein Lepidoptera, aphid, mite
1,2-talan synthase Lepidoptera, aphid, disease, mite
The HMG-CoA reductase Lepidoptera, aphid
Cyst nematode hatching stimulus Cyst nematode
Barnase Nematode is root-knot nematode and Cyst nematode for example
CBI Root-knot nematode
The food refusal composition of ingesting and a little inducing nematode Nematode is root-knot nematode and Cyst nematode for example
Table A 13: crop: muskmelon
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine oxy-benzoic acid ester, 2-benzo [c] furanone
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) The inhibitor that IMP and AMP are synthetic
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid shikimic acid synthase (EPSPS) Glyphosate or sulphosate
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoline
Azole, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 or selection for example Xenobiotic and weed killer herbicide such as sulfonylurea
Polyphenol oxidase or antisense polyphenol oxidase Bacterium or fungal pathogens such as Phytophthora
Metallothionein Bacterium or fungal pathogens such as Phytophthora
Ribalgilase Bacterium or fungal pathogens such as Phytophthora
Anti-fungus polypeptide AlyAFP Bacterium or fungal pathogens such as Phytophthora
Oxalate oxidase Bacterium or fungal pathogens such as Phytophthora
Glucose oxidase Bacterium or fungal pathogens such as Phytophthora
The pyrrolnitrin synthetic gene Bacterium or fungal pathogens such as Phytophthora
Serine/threonine kinase Bacterium or fungal pathogens such as Phytophthora
Cecropin B Bacterium or fungal pathogens such as Phytophthora
Phenylalanine ammonia is separated enzyme (PAL) Bacterium or fungal pathogens such as Phytophthora
The Cf gene is Cf9, Cf5, Cf4, Cf2 for example Bacterium or fungal pathogens such as Phytophthora
Infiltration albumen Bacterium or fungal pathogens such as Phytophthora
α-Hordothionin Bacterium or fungal pathogens such as Phytophthora
Systemin Bacterium or fungal pathogens such as Phytophthora
The polygalacturonase inhibitor Bacterium or fungal pathogens such as Phytophthora
The Prf regulatory gene Bacterium or fungal pathogens such as Phytophthora
Phytoalexin Bacterium or fungal pathogens such as Phytophthora
Antisense B-1, the 3-dextranase Bacterium or fungal pathogens such as Phytophthora
Receptor kinase Bacterium or fungal pathogens such as Phytophthora
Cause anaphylactoid polypeptide Bacterium or fungal pathogens such as Phytophthora
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Crack protein Bacterium or fungal pathogens such as Phytophthora
Lysozyme Bacterium or fungal pathogens such as Phytophthora
Chitinase Bacterium or fungal pathogens such as Phytophthora
Barnase Bacterium or fungal pathogens such as Phytophthora
Dextranase Bacterium or fungal pathogens such as Phytophthora
The double stranded RNA enzyme Virus is as CMV, PRSV, WMV2, SMV, ZYMV
Coat protein Virus is as CMV, PRSV, WMV2, SMV, ZYMV
17KDa or 60KDa protein Virus is as CMV, PRSV, WMV2, SMV, ZYMV
Intranuclear inclusion albumen is a or b or nucleoprotein for example Virus is as CMV, PRSV, WMV2, SMV, ZYMV
False ubiquitin Virus is as CMV, PRSV, WMV2, SMV, ZYMV
Replicase Virus is as CMV, PRSV, WMV2, SMV, ZYMV
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Lepidoptera, aphid, mite
3-hydroxy steroid oxidase Lepidoptera, aphid, mite, aleyrodid
Peroxidase Lepidoptera, aphid, mite, aleyrodid
Amastatin is the leucine amino peptidase inhibitor for example Lepidoptera, aphid, mite, aleyrodid
Agglutinin Lepidoptera, aphid, mite, aleyrodid
Protease inhibitors, for example cystatin, patatin, CPTI, virgiferin Lepidoptera, aphid, mite, aleyrodid
Ribosome inactivating protein Lepidoptera, aphid, mite, aleyrodid
1,2-talan synthase Lepidoptera, aphid, mite, aleyrodid
The HMG-CoA reductase Lepidoptera, aphid, mite, aleyrodid
Cyst nematode hatching stimulus Cyst nematode
Barnase Nematode is root-knot nematode and Cyst nematode for example
CBI Root-knot nematode
The food refusal composition of ingesting and a little inducing nematode Nematode is root-knot nematode and Cyst nematode for example
Table A 14: crop: banana
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine oxy-benzoic acid ester, 2-benzo [c] furanone
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) The inhibitor that IMP and AMP are synthetic
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid thick grass Glyphosate or sulphosate
Acid synthase (EPSPS)
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoles, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 or selection for example Xenobiotic and weed killer herbicide such as sulfonylurea
Polyphenol oxidase or antisense polyphenol oxidase Bacterium or fungal pathogens
Metallothionein Bacterium or fungal pathogens
Ribalgilase Bacterium or fungal pathogens
Anti-fungus polypeptide AlyAFP Bacterium or fungal pathogens
Oxalate oxidase Bacterium or fungal pathogens
Glucose oxidase Bacterium or fungal pathogens
The pyrrolnitrin synthetic gene Bacterium or fungal pathogens
Serine/threonine kinase Bacterium or fungal pathogens
Cecropin B Bacterium or fungal pathogens
Phenylalanine ammonia is separated enzyme (PAL) Bacterium or fungal pathogens
The Cf gene is Cf9, Cf5, Cf4, Cf2 for example Bacterium or fungal pathogens
Infiltration albumen Bacterium or fungal pathogens
α-Hordothionin Bacterium or fungal pathogens
Systemin Bacterium or fungal pathogens
The polygalacturonase inhibitor Bacterium or fungal pathogens
The Prf regulatory gene Bacterium or fungal pathogens
Phytoalexin Bacterium or fungal pathogens
Antisense B-1, the 3-dextranase Bacterium or fungal pathogens
Receptor kinase Bacterium or fungal pathogens
Cause anaphylactoid polypeptide Bacterium or fungal pathogens
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Crack protein Bacterium or fungal pathogens
Lysozyme Bacterium or fungal pathogens
Chitinase Bacterium or fungal pathogens
Barnase Bacterium or fungal pathogens
Dextranase Bacterium or fungal pathogens
The double stranded RNA enzyme Virus is as abaca bunchy top virus (BBTV)
Coat protein Virus is as abaca bunchy top virus (BBTV)
17KDa or 60KDa protein Virus is as abaca bunchy top virus (BBTV)
Intranuclear inclusion albumen is a or b or nucleoprotein for example Virus is as abaca bunchy top virus (BBTV)
False ubiquitin Virus is as abaca bunchy top virus (BBTV)
Replicase Virus is as abaca bunchy top virus (BBTV)
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Lepidoptera, aphid, mite, nematode
3-hydroxy steroid oxidase Lepidoptera, aphid, mite, nematode
Peroxidase Lepidoptera, aphid, mite, nematode
Amastatin is the leucine amino peptidase inhibitor for example Lepidoptera, aphid, mite, nematode
Agglutinin Lepidoptera, aphid, mite, nematode
Protease inhibitors, for example cystatin, patatin, CPTI, virgiferin Lepidoptera, aphid, mite, nematode
Ribosome inactivating protein Lepidoptera, aphid, mite, nematode
1,2-talan synthase Lepidoptera, aphid, mite, nematode
The HMG-CoA reductase Lepidoptera, aphid, mite, nematode
Cyst nematode hatching stimulus Cyst nematode
Barnase Nematode is root-knot nematode and Cyst nematode for example
CBI Root-knot nematode
The food refusal composition of ingesting and a little inducing nematode Nematode is root-knot nematode and Cyst nematode for example
Table A 15: crop: cotton
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine oxy-benzoic acid ester, 2-benzo [c] furanone
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) The inhibitor that IMP and AMP are synthetic
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid shikimic acid synthase (EPSPS) Glyphosate or sulphosate
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoles, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 or selection for example Xenobiotic and weed killer herbicide such as sulfonylurea
Polyphenol oxidase or antisense polyphenol oxidase Bacterium or fungal pathogens
Metallothionein Bacterium or fungal pathogens
Ribalgilase Bacterium or fungal pathogens
Anti-fungus polypeptide AlyAFP Bacterium or fungal pathogens
Oxalate oxidase Bacterium or fungal pathogens
Glucose oxidase Bacterium or fungal pathogens
The pyrrolnitrin synthetic gene Bacterium or fungal pathogens
Serine/threonine kinase Bacterium or fungal pathogens
Cecropin B Bacterium or fungal pathogens
Phenylalanine ammonia is separated enzyme (PAL) Bacterium or fungal pathogens
The Cf gene is Cf9, Cf5, Cf4, Cf2 for example Bacterium or fungal pathogens
Infiltration albumen Bacterium or fungal pathogens
α-Hordothionin Bacterium or fungal pathogens
Systemin Bacterium or fungal pathogens
The polygalacturonase inhibitor Bacterium or fungal pathogens
The Prf regulatory gene Bacterium or fungal pathogens
Phytoalexin Bacterium or fungal pathogens
Antisense B-1, the 3-dextranase Bacterium or fungal pathogens
Receptor kinase Bacterium or fungal pathogens
Cause anaphylactoid polypeptide Bacterium or fungal pathogens
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Crack protein Bacterium or fungal pathogens
Lysozyme Bacterium or fungal pathogens
Chitinase Bacterium or fungal pathogens
Barnase Bacterium or fungal pathogens
Dextranase Bacterium or fungal pathogens
The double stranded RNA enzyme Virus is as wound tumor virus (WTV)
Coat protein Virus is as wound tumor virus (WTV)
17KDa or 60KDa protein Virus is as wound tumor virus (WTV)
Intranuclear inclusion albumen is a or b or nucleoprotein for example Virus is as wound tumor virus (WTV)
False ubiquitin Virus is as wound tumor virus (WTV)
Replicase Virus is as wound tumor virus (WTV)
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Lepidoptera, aphid, mite, nematode, aleyrodid
3-hydroxy steroid oxidase Lepidoptera, aphid, mite, nematode, aleyrodid
Peroxidase Lepidoptera, aphid, mite, nematode, aleyrodid
Amastatin is the leucine amino peptidase inhibitor for example Lepidoptera, aphid, mite, nematode, aleyrodid
Agglutinin Lepidoptera, aphid, mite, nematode, aleyrodid
Protease inhibitors, for example cystatin, patatin, CPTI, virgiferin Lepidoptera, aphid, mite, nematode, aleyrodid
Ribosome inactivating protein Lepidoptera, aphid, mite, nematode, aleyrodid
1,2-talan synthase Lepidoptera, aphid, mite, nematode, aleyrodid
The HMG-CoA reductase Lepidoptera, aphid, mite, nematode, aleyrodid
Cyst nematode hatching stimulus Cyst nematode
Barnase Nematode is root-knot nematode and Cyst nematode for example
CBI Root-knot nematode
The food refusal composition of ingesting and a little inducing nematode Nematode is root-knot nematode and Cyst nematode for example
Table A 16: crop: sugarcane
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine oxy-benzoic acid ester, 2-benzo [c] furanone
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) The inhibitor that IMP and AMP are synthetic
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid shikimic acid synthase (EPSPS) Glyphosate or sulphosate
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, the cyclic imide class, phenyl pyrazoles, pyridine derivate,
Phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 or selection for example Xenobiotic and weed killer herbicide such as sulfonylurea
Polyphenol oxidase or antisense polyphenol oxidase Bacterium or fungal pathogens
Metallothionein Bacterium or fungal pathogens
Ribalgilase Bacterium or fungal pathogens
Anti-fungus polypeptide A1yAFP Bacterium or fungal pathogens
Oxalate oxidase Bacterium or fungal pathogens
Glucose oxidase Bacterium or fungal pathogens
The pyrrolnitrin synthetic gene Bacterium or fungal pathogens
Serine/threonine kinase Bacterium or fungal pathogens
Cecropin B Bacterium or fungal pathogens
Phenylalanine ammonia is separated enzyme (PAL) Bacterium or fungal pathogens
The Cf gene is Cf9, Cf5, Cf4, Cf2 for example Bacterium or fungal pathogens
Infiltration albumen Bacterium or fungal pathogens
α-Hordothionin Bacterium or fungal pathogens
Systemin Bacterium or fungal pathogens
The polygalacturonase inhibitor Bacterium or fungal pathogens
The Prf regulatory gene Bacterium or fungal pathogens
Phytoalexin Bacterium or fungal pathogens
Antisense B-1, the 3-dextranase Bacterium or fungal pathogens
Receptor kinase Bacterium or fungal pathogens
Cause anaphylactoid polypeptide Bacterium or fungal pathogens
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Crack protein Bacterium or fungal pathogens
Lysozyme Bacterium or fungal pathogens be rod shape bacillus for example
Belong to
Chitinase Bacterium or fungal pathogens
Barnase Bacterium or fungal pathogens
Dextranase Bacterium or fungal pathogens
The double stranded RNA enzyme Virus is as SCMV, SrMV
Coat protein Virus is as SCMV, SrMV
17KDa or 60KDa protein Virus is as SCMV, SrMV
Intranuclear inclusion albumen is a or b or nucleoprotein for example Virus is as SCMV, SrMV
False ubiquitin Virus is as SCMV, SrMV
Replicase Virus is as SCMV, SrMV
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Lepidoptera, aphid, mite, nematode, aleyrodid, beetle such as Mexico rice borer
3-hydroxy steroid oxidase Lepidoptera, aphid, mite, nematode, aleyrodid, beetle such as Mexico rice borer
Peroxidase Lepidoptera, aphid, mite, nematode, aleyrodid, beetle such as Mexico rice borer
Amastatin is the leucine amino peptidase inhibitor for example Lepidoptera, aphid, mite, nematode, aleyrodid, beetle such as Mexico rice borer
Agglutinin Lepidoptera, aphid, mite, nematode, aleyrodid, beetle such as Mexico rice borer
Protease inhibitors, for example cystatin, patatin, CPTI, virgiferin Lepidoptera, aphid, mite, nematode, aleyrodid, beetle such as Mexico rice borer
Ribosome inactivating protein Lepidoptera, aphid, mite, nematode, aleyrodid, beetle such as Mexico rice borer
1,2-talan synthase Lepidoptera, aphid, mite, nematode, aleyrodid,
Beetle such as Mexico rice borer
The HMG-CoA reductase Lepidoptera, aphid, mite, nematode, aleyrodid, beetle such as Mexico rice borer
Cyst nematode hatching stimulus Cyst nematode
Barnase Nematode is root-knot nematode and Cyst nematode for example
CBI Root-knot nematode
The food refusal composition of ingesting and a little inducing nematode Nematode is root-knot nematode and Cyst nematode for example
Table A 17: crop: sunflower
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine oxy-benzoic acid ester, 2-benzo [c] furanone
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) The inhibitor that IMP and AMP are synthetic
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid shikimic acid synthase (EPSPS) Glyphosate or sulphosate
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoles, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 or selection for example Xenobiotic and weed killer herbicide such as sulfonylurea
Polyphenol oxidase or antisense polyphenol oxidase Bacterium or fungal pathogens
Metallothionein Bacterium or fungal pathogens
Ribalgilase Bacterium or fungal pathogens
Anti-fungus polypeptide AlyAFP Bacterium or fungal pathogens
Oxalate oxidase Bacterium or fungal pathogens such as Sclerotinia
Glucose oxidase Bacterium or fungal pathogens
The pyrrolnitrin synthetic gene Bacterium or fungal pathogens
Serine/threonine kinase Bacterium or fungal pathogens
Cecropin B Bacterium or fungal pathogens
Phenylalanine ammonia is separated enzyme (PAL) Bacterium or fungal pathogens
The Cf gene is Cf9, Cf5, Cf4, Cf2 for example Bacterium or fungal pathogens
Infiltration albumen Bacterium or fungal pathogens
α-Hordothionin Bacterium or fungal pathogens
Systemin Bacterium or fungal pathogens
The polygalacturonase inhibitor Bacterium or fungal pathogens
The Prf regulatory gene Bacterium or fungal pathogens
Phytoalexin Bacterium or fungal pathogens
Antisense B-1, the 3-dextranase Bacterium or fungal pathogens
Receptor kinase Bacterium or fungal pathogens
Cause anaphylactoid polypeptide Bacterium or fungal pathogens
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Crack protein Bacterium or fungal pathogens
Lysozyme Bacterium or fungal pathogens
Chitinase Bacterium or fungal pathogens
Barnase Bacterium or fungal pathogens
Dextranase Bacterium or fungal pathogens
The double stranded RNA enzyme Virus is as CMV, TMV
Coat protein Virus is as CMV, TMV
17KDa or 60KDa protein Virus is as CMV, TMV
Intranuclear inclusion albumen is a or b or nucleoprotein for example Virus is as CMV, TMV
False ubiquitin Virus is as CMV, TMV
Replicase Virus is as CMV, TMV
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Lepidoptera, aphid, mite, nematode, aleyrodid, beetle
3-hydroxy steroid oxidase Lepidoptera, aphid, mite, nematode, aleyrodid, beetle
Peroxidase Lepidoptera, aphid, mite, nematode, aleyrodid, beetle
Amastatin is the leucine amino peptidase inhibitor for example Lepidoptera, aphid, mite, nematode, aleyrodid, beetle
Agglutinin Lepidoptera, aphid, mite, nematode, aleyrodid, beetle
Protease inhibitors, for example cystatin, Lepidoptera, aphid, mite, nematode, aleyrodid, beetle
patatin、CPTI、virgiferin
Ribosome inactivating protein Lepidoptera, aphid, mite, nematode, aleyrodid, beetle
1,2-talan synthase Lepidoptera, aphid, mite, nematode, aleyrodid, beetle
The HMG-CoA reductase Lepidoptera, aphid, mite, nematode, aleyrodid, beetle
Cyst nematode hatching stimulus Cyst nematode
Barnase Nematode is root-knot nematode and Cyst nematode for example
CBI Root-knot nematode
The food refusal composition of ingesting and a little inducing nematode Nematode is root-knot nematode and Cyst nematode for example
Table A 18: crop: beet, beet root
The composition of action target or expression Crop phenotype/tolerance
Acetolactate synthase (ALS) Sulfonylurea, imidazolone type, triazolo pyrimidine class, pyrimidine oxy-benzoic acid ester, 2-benzo [c] furanone
Acetyl-CoA carboxylase (ACCase) Aryloxy group phenoxy group alkanoic acid, cyclohexanedione
Hydroxyphenyl pyruvic acid dioxygenase (HPPD) Isoxazole such as Yi Evil fluorine grass or Isoxachlortol, three ketones such as mesotrione or sulphur humulone
Phosphinothricin acetyl transferase Phosphinothricin
The O-methyltransferase The levels of lignin that changes
Glutamine synthelase Grass ammonium phosphine, bialaphos
Adenylosuccinate lyase (ADSL) The inhibitor that IMP and AMP are synthetic
The adenylosuccinic acid synthase The inhibitor that adenylosuccinic acid is synthetic
The o-amino benzoyl acid synthase Synthetic and the katabolism inhibitor of tryptophan
Nitrilase 3,5-dihalo--4-hydroxyl-benzonitrile such as Brominal and ioxynil
5-enol pyruvoyl-3-phosphoric acid shikimic acid synthase (EPSPS) Glyphosate or sulphosate
Glyphosate oxidoreductase Glyphosate or sulphosate
Proporphyrinogen oxidase (PROTOX) Diphenyl ether, cyclic imide class, phenyl pyrazoles, pyridine derivate, phenopylate , oxadiazole etc.
Cytochrome P450 is P450 SU1 or selection for example Xenobiotic and weed killer herbicide such as sulfonylurea
Polyphenol oxidase or antisense polyphenol oxidase Bacterium or fungal pathogens
Metallothionein Bacterium or fungal pathogens
Ribalgilase Bacterium or fungal pathogens
Anti-fungus polypeptide AlyAFP Bacterium or fungal pathogens
Oxalate oxidase Bacterium or fungal pathogens such as Sclerotinia
Glucose oxidase Bacterium or fungal pathogens
The pyrrolnitrin synthetic gene Bacterium or fungal pathogens
Serine/threonine kinase Bacterium or fungal pathogens
Cecropin B Bacterium or fungal pathogens
Phenylalanine ammonia is separated enzyme (PAL) Bacterium or fungal pathogens
The Cf gene is Cf9, Cf5, Cf4, Cf2 for example Bacterium or fungal pathogens
Infiltration albumen Bacterium or fungal pathogens
α-Hordothionin Bacterium or fungal pathogens
Systemin Bacterium or fungal pathogens
The polygalacturonase inhibitor Bacterium or fungal pathogens
The Prf regulatory gene Bacterium or fungal pathogens
Phytoalexin Bacterium or fungal pathogens
Antisense B-1, the 3-dextranase Bacterium or fungal pathogens
AX+WIN albumen Bacterium or fungal pathogens such as beet tail spore
Receptor kinase Bacterium or fungal pathogens
Cause anaphylactoid polypeptide Bacterium or fungal pathogens
System obtains resistance (SAR) gene Virus, bacterium, fungi, nematodosis substance
Crack protein Bacterium or fungal pathogens
Lysozyme Bacterium or fungal pathogens
Chitinase Bacterium or fungal pathogens
Barnase Bacterium or fungal pathogens
Dextranase Bacterium or fungal pathogens
The double stranded RNA enzyme Virus is as BNYVV
Coat protein Virus is as BNYVV
17KDa or 60KDa protein Virus is as BNYVV
Intranuclear inclusion albumen is a or b or nucleoprotein for example Virus is as BNYVV
False ubiquitin Virus is as BNYVV
Replicase Virus is as BNYVV
The bacillus thuringiensis toxin, VIP3, bacillus cereus toxin, light rod bacterium and Xenorhabdus toxin Lepidoptera, aphid, mite, nematode, aleyrodid, beetle, rootflies
3-hydroxy steroid oxidase Lepidoptera, aphid, mite, nematode, aleyrodid, beetle, rootflies
Peroxidase Lepidoptera, aphid, mite, nematode, aleyrodid, beetle, rootflies
Amastatin is leucine for example Lepidoptera, aphid, mite, nematode, aleyrodid,
Amastatin Beetle, rootflies
Agglutinin Lepidoptera, aphid, mite, nematode, aleyrodid, beetle, rootflies
Protease inhibitors, for example cystatin, patatin, CPTI, virgiferin Lepidoptera, aphid, mite, nematode, aleyrodid, beetle, rootflies
Ribosome inactivating protein Lepidoptera, aphid, mite, nematode, aleyrodid, beetle, rootflies
1,2-talan synthase Lepidoptera, aphid, mite, nematode, aleyrodid, beetle, rootflies
The HMG-CoA reductase Lepidoptera, aphid, mite, nematode, aleyrodid, beetle, rootflies
Cyst nematode hatching stimulus Cyst nematode
Barnase Nematode is root-knot nematode and Cyst nematode for example
Beet Cyst nematode resistance site Cyst nematode
CBI Root-knot nematode
The food refusal composition of ingesting and a little inducing nematode Nematode is root-knot nematode and Cyst nematode for example
The above-mentioned animal class pest of available the present invention's (A) method control comprises that for example representative biology of insect, Acarina and Nematoda is representative biological; Particularly
Lepidoptera: Acleris spp belongs to the kind of (Acleris), the kind, particularly adoxophyes moth (Adoxophyes reticulana) that Adoxophyes spp belongs to (Adoxophyes); Clearwing moth belong to (Aegeria) kind, tiger belong to the kind of (Agrotis), particularly little sword ground noctuid (Agrotisspinifera); Cotton leaf noctuid (Alabama argillaceae), the kind of Amylois, soybean noctuid (Anticarsia gemmatalis), the kind of Archips spp (Archips), Argyrotaenia spp belongs to the kind of (Argyrotaenia), gamma belongs to the kind of (Autographa), the dried noctuid of corn (Busseola fusca), Cadra cautella (Cadra cautella), peach fruit moth (Carposinanipponensis), the kind of straw borer spp (Chilo), Choristoneura spp belongs to the kind of (Choristoneura), grape codling moth (Clysia ambiguella) (Clysia ambiguella), Cnaphalocrocis spp belongs to the kind of (Cnaphalocrocis), cloud volume moth belongs to the kind of (Cnephasia), Cochylisspp belongs to the kind of (Cochylis), the kind of casebearer moth (Coleophora), general non-fine hair snout moth's larva (Crocidolomia binotalis), the special-shaped steinernema (Cryptophlebia leucotreta) of peach, steinernema belongs to the kind, particularly codling moth (Cydia pomonella) of (Cydia); Kind, the Sudan cotton bollworm (Diparopsis castanea), Jin Gang that crambid belongs to (Diatraea) bore the kind that belongs to (Earias), the kind, particularly Anagasta kuehniella (E.Khuniella) that meal moth belongs to (Ephestia); The real noctuid (Heliothiszea) of the kind, particularly tobacco budworm (Heliothis virescens) of the kind of the kind of flower steinernema genus (Eucosma), ligustrum fine tortricidae (Eupoecilia ambiguella), the kind of Euproctis (Euproctis), the kind of cutting Noctua (Euxoa), Grapholita spp genus (Grapholita), green wide wing steinernema (Hedya nubiferana), Heliothis (Heliothis) and paddy; Hellula undalis (Hellula undalis), fall webworm (Hyphantria cunea), tomato stem gelechiid (Keiferia lycopersicella), pear leaf blister moth (Leucopterascitella), thin moth belongs to the kind of (Lithocollethis), the little moth of flower wing belongs to the kind of (Lobesia), the kind of Euproctis (Lymantria), lyonetid belongs to the kind of (Lyonetia), the kind of Malacosoma (Malacosoma), tomato moth (Mamestra brassicae), maduca sexta (Manduca sexta), the kind of autumn geometrid moth genus (Operophtera), European corn borer (Ostrinianubilalis), super steinernema belongs to the kind of (Pammene), the kind of brown epiblema (Pandemis), small noctuid (Panolis flammea), Pectinophora gossypiella belongs to the kind of (Pectinophora), tobacco split worm (Phthorimaea operculella), imported cabbageworm (Pieris rapae), the kind of Pier (Pieris), diamond-back moth (Plutella xylostella), the kind of Yponomeuta (Prays), white standing grain snout moth's larva belongs to the kind of (Scirpophaga), the kind of moth stem Noctua (Sesamia), the long kind that must roll up moth genus (Sparganothis), Spodoptera littoralis (Spodoptera littoralis), emerging clearwing moth belongs to the kind of (Synanthedon), the kind of Thaumetopoea (Thaumetopoea), the volume moth belongs to the kind of (Tortrix), the kind of amyloid plaque noctuid (Trichoplusia ni) and Yponomeuta (Yponomeuta);
Coleoptera, for example kind of Agriotes spp (Agriotes), flower resembles the kind of genus (Anthonomus), Atomaria linearis (Atomaria linearis), beet shin flea beetle (Chaetocnematibialis), collar resembles the kind of genus (Cosmopolites), the kind of Curculio (Curculio), khapra beetle belongs to the kind of (Dermestes), the asterophyllite first belongs to the kind of (Diabrotica), the kind of epilachna genus (Epilachna), the kind of Eremnus, colorado potato beetles (Leptinotarsadecemlineata), rice water resembles the kind of genus (Lissorhoptrus), gill cockchafer belongs to the kind of (Melolontha), saw-toothed grain beetle belongs to the kind of (Oryzaephilus), ear resembles the kind of genus (Otiorhynchus), spot resembles the kind of genus (Phlyctinus), the arc rutelian belongs to the kind of (Popillia), the kind of Psylliodes spp (Psylliodes), the long moth-eaten kind that belongs to (Rhizopertha) of moth, Scarabaeidae (Scarabaeidae), the kind of Sitophilus (Sitophilus), gelechiid belongs to the kind of (Sitotroga), mealworm belongs to the kind of (Tenebno), the kind that the kind of Tribolium (Tribolium) and spot khapra beetle belong to;
Orthoptera, for example the roach sickle belongs to the kind of (Blatta), the kind of Blatella (Blattella), kind, Madeira roach sickle (Leucophaea maderae), the kind of migratory locusts genus (Locusta), the kind of Periplaneta (Periplaneta) and the kind that desert locust belongs to (Schistocerca) of Gryllotalpa spp (Gryllotalpa);
Isoptera, for example kind of Reticulitermes (Reticulitermes);
Corrodentia, for example powder corrodent belongs to the kind of (Liposcellis);
Anoplura, for example the kind of Haematopinus (Haematopinus), jaw lice belong to the kind of (Linognathus), kind, the goitre woolly aphid that lice belongs to (Pediculus) belongs to the kind of (Pemphigus) and the kind of Phylloxera spp (Phylloxera);
Mallophaga, for example kind of the kind of Damalinia (Damalinea) and Trichodectes (Trichodectes);
Thrips, for example flower thrips belongs to kind, the kind of hedge Thrips (Hercinothrips), the kind of Taeniothrips (Taeniothrips), joint melon thrips (Thrips palmi), onion thrips (Thrips tabaci) and the orange thrips in South Africa (Scirtothrips aurantii) of (Frankliniella);
Heteroptera, for example the kind of the kind of the kind of Cimex (Cimex), cocoa Di fleahopper (Distantiellatheobroma), red cotton bug genus (Dysdercus), Euchistus, Eurygasterspp belong to the kind of (Eurygaster), the kind that Leptocorisa spp belongs to (Leptocorisa), the kind of Bemisia spp (Nezara), the kind that the skin stinkbug belongs to (Pisma), the kind of Rhodnius (Rhodnius), the kind of Adelphocoris (Sahlbergella), the kind of black stinkbug genus (Scotinophara) and the kind of vertebra Reduvius (Triatoma);
Homoptera, for example wolly whitefly (Aleurothnxus floccosus), A leyrodesbrassicae, red kidney Aspidiotus (Aonidiella aurantii), Aphidiadae (Aphididae), bean aphid (Aphis craccivora), aphis fabae (A.fabae), cotten aphid (A.gosypii); Aspidiotus belongs to the kind of (Aspidiotus), sweet potato whitefly (Bemisia tabaci), lecanium belongs to the kind of (Ceroplaster), dark brown Aspidiotus (Chrysomphalus aonidium), Chrysomphalus ficus (Chrysomphalus dictyospermi), brown soft wax a red-spotted lizard (Coccushesperidum), the kind of Empoasca flavescens (Empoasca), wooly aphis (Eriosomalanigerum), Erythroneura spp belongs to the kind of (Erythroneura), the kind of Gascardia, small brown rice planthopper belongs to the kind of (Laodelphax), Europe fruit hard ball a red-spotted lizard (Lecanium corni), the kind of lepidosaphes shimer (Lepidosaphes), the kind of long tube Aphis (Macrosiphus), the kind, particularly black peach aphid (M.persicae) of tumor aphid genus (Myzus); Rice leafhopper belongs to the kind, particularly rice leafhopper (N.cincticeps) of (Nephotettix); Brown planthopper belongs to the kind, particularly brown plant-hopper (N.lugens) of (Nilaparvata); The kind of the kind of ring wing volume moth genus (Paratoria), goitre woolly aphid genus (Pemphigus), stern line mealybug belong to the kind of (Planococcus), white armored scale belongs to the kind of (Pseudaulacaspis), kind, particularly star mealybug (Pseudococcus fragilis), the little mealybug of tangerine (Pseudococcus citriculus) and the Kang Shi mealybug (Pseudococcus comstocki) of mealybug genus (Pseudococcus); The kind, particularly pear sucker (P.pyri) of Psylla spp (Psylla); Pulvinaria aethiopica, large bamboo hat with a conical crown and broad brim Aspidiotus belong to the kind of (Quadraspidiotus), the kind of Rhopalosiphum (Rhopalosiphum), the kind that the pearl lecanium belongs to (Saissetia), the kind that the band leafhopper belongs to (Scaphoideus), the kind of y-bend Aphis (Schizaphis), kind, greenhouse whitefly (Trialeurodes vaporariorum), a mandarin orange wood louse (Trioza erytreae) and the citrus point armored scale (Unaspis citri) of paddy net Aphis (Sitobion);
Hymenoptera, for example Acromyrmex, leaf cutting ant belong to kind, the kind of Solenopsis (Solenopsis) and the kind of Vespa (Vespa) that the kind of the kind of (Atta), kind that the stem honeybee belongs to (Cephus), the lucky pine sawfoy (Gilpinia polytoma) of kind, diprionidae (Diprionidae), dragon spruce that pine sawfoy belongs to (Diprion), real tenthredinidae (Hoplocampa), kind, MonomoriumMayr (Monomorium pharaonis), new pine sawfoy that the hair ant belongs to (Lasius) belong to (Neodiprion);
Diptera, for example kind of Aedes (Aedes), Antherigona soccata, garden march fly (Bibio hortulanus), calliphora erythrocephala (Calliphora erythrocephala), the kind of little Anastrepha (Ceratitis), the kind of Carysomyia (Chrysomyia), the kind of Culex (Culex), cuterbrid belongs to the kind of (Cuterebra), the kind of few hair on the neck Anastrepha (Dacus), black-tailed fruit flies (Drosophila melanogaster), the kind of Fannia (Fannia), the kind of Gasterophilus (Gastrophilus), the kind of Glossina (Glossina), the kind of Hypoderma (Hypoderma), the kind of Hyppobosca, liriomyza bryoniae belongs to the kind of (Liriomyza), the kind of Lucilia (Lucilia), the kind of black Hippelates (melanagromyza), the kind of Musca (Musca), the kind of Oestrus (Qestrus), rice gall midge belongs to the kind of (Oreseolia), Europe wheat stem chloropid fly (Oscinellafrit), henbane seed spring fly (Pegomyia hyoscyami), the kind of grass Hylemyia (Phorbia), apple is around trypetid (Rhagoletis pomonella), mushroom fly belongs to the kind of (Sciara), the kind of Genus Stomoxys (Stomoxys), the kind of Gadfly (Tabanus), a smaller kind of cicada cicada belongs to the kind of (Tannia) and the kind of big uranotaenia (Tipula);
Siphonaptera, for example kind of Ceratophyllus (Ceratophyllus) and Xanthopsyllacheopis (Xenopsyllacheopis);
Thysanoptera, for example Taiwan silverfish (Lepisma saccharina) and
Acarina, for example Acarus siro (Acarus siro), tangerine bud goitre mite (Aceriasheldoni); The kind of thorn Eriophyes (Aculus), particularly Si Shi thorn goitre mite (A.schlechtendali); The kind of the kind of the kind of the kind of Amblyomma (Amblyomma), Argas (Argas), Boophilus (Boophilus), short whisker Acarapis (Brevipalpus), particularly California short hairs mite (Brevipalpus californicus) and purplish red short hairs mite (Brevipalpusphoenicis); The kind of the kind of Bryobia praetiosa (Bryobia praetiosa), Calipitrimerus, the kind of Psoroptes (Chorioptes), Dermanyssus gallinae (Dermanyssus galinae), beginning Tetranychus (Eotetranychus), particularly the carpinus turczaninowii beginning tetranychid (E.carpini) and Eotetranychus orientalis; Kind, the particularly grape erineum mite (Eriophyes vitis) (E.vitis) of Eriophyes (Eriophyes); The kind of the kind of the kind of Hyalomma (Hyalomma), hard tick genus (Ixodes), meadow unguiculus mite (Olygonychus pratensis), Ornithodorus (Ornithodoros), Panonychus citri belong to kind, particularly panonychus ulmi (P.ulmi) and the citrus tangerine Panonychus citri (P.citri) of (Panonychus); The wrinkle leaf Aculus belongs to the kind, particularly citrus rust mite (Phyllocoptruta oleivora) of (Phyllocoptruta); Many food tarsonemids belong to the kind, particularly Polyphagotarsonemus latus Banks (P.latus) of (Polyphagotarsonemus); The scabies mite belongs to the kind of (Psoroptes), the kind of Rh (Rhipi cephalus), the kind that the root mite belongs to (Rhizoglyphus), kind, the kind of tarsonemid genus (Tarsonemus) and kind, particularly Tetranychus urticae (Tetranychusurticae) and the refreshing Ze Shi tetranychid (Tetranychus Kanzawai) of Tetranychus (Tetranychus) that itch mite belongs to (Sarcoptes);
The representative biology of Nematoda;
(1) is selected from the nematode that root-knot nematode, cyst form nematode, stem eelworm and leaf nematode;
(2) be selected from following nematode: the kind of eel Turbatrix (Anguina); The kind of Aphelenchoides (Aphelenchoides); The kind of Ditylenchus (Ditylenchus); The kind of ball Heterodera (Globodera), as globodera rostochiensis (Globodera rostochiensis); The kind of Heterodera (Heterodera) is as oat Cyst nematode (Heteroderaavenae), soybean Cyst nematode (Heterodera glycines), beet Cyst nematode (Heterodera schachtii) or clover Cyst nematode (Heterodera trifolii); The kind of minute hand Turbatrix (Longidorus); The kind of Meloidogyne (Meloidogyne) is as Meloidogyne incognita (Meloidogyne incognita) or javanese root knot nematode (Meloidogynejavanica); Pratylenchidae belongs to the kind of (Pratylenchus), as unelected Pratylenchidae (Pratylenchus neglectans) or Cobb root (Pratylenchuspenetrans); The kind of perforation line Eimeria (Radopholus) is as similar similes thorne (Radopholus similis); The kind of burr Turbatrix (Trichodorus); The kind of pulvinulus sword Turbatrix (Tylenchulus) is as the nematode of partly puncturing (Tylenchulussemipenetrans); And the kind of Xiphinema (Xiph inema); Or
(3) be selected from kind such as the kind of soybean Cyst nematode and Meloidogyne such as the nematode of Meloidogyne incognita of Heterodera.
The method of (A) can be prevented and treated the insect of i.e. control (contained) or elimination the above-mentioned type according to the present invention, they especially appear on the genetically modified plants, mainly be useful plant and ornamental plants in agricultural, horticulture and forestry, perhaps appear on some part such as fruit, flower, leaf, stem, stem tuber or root of these plants, in some cases, to the protection of these insects even can expand to the plant part that formed afterwards.
Use according to the present invention the method for (A) can effectively prevent and treat insect on the following plants: rice, cereal such as corn or Chinese sorghum; Fruit, for example for example strawberry, raspberry and blackberry, blueberry of drupe, the operatic circle and fruitlet such as apple, pears, plum, peach, apricot, cherry or berry; Beans such as Kidney bean, French beans, pea or soybean; Oil crop such as rape, leaf mustard, opium poppy, olive, sunflower, coconut, castor-oil plant, cocoa or peanut; Curcurbitaceae such as pumpkin, cucumber or muskmelon; Fibre plant such as cotton, flax, hemp or jute; Cedra fruits is as orange, lemon, shaddock or red tangerine; The kind of vegetables such as spinach, lettuce, asparagus, wild cabbage, carrot, onion, tomato, potato, beet or capsicum; Lauraceae such as avocado, Cinnamomum (Cinnamonium) or camphor; Or tobacco, nut, coffee, eggplant, sugarcane, tea, pepper, grape, lupulus, banana section, rubber plant or ornamental plants, mainly be corn, rice, cereal, soybean, tomato, cotton, potato, beet, rice and leaf mustard; Particularly cotton, rice, soybean, potato and corn.
Have now found that even when using the described Pesticidal combination of low concentration, the method for (A) also all prevents and/or treats value in field of pest control according to the present invention, therefore obtain the very satisfied biological spectrum that kills.According to protecting it not to be subjected to the kind of the genetically modified crops of insect infringement; can combine with the composition that is used for warm blooded animal kind, fish and plant with excellent compatibility; use method of the present invention to prevent and treat all or the normal susceptibility of indivedual developmental stage or the animal class pest of normal tolerance, representative biological as insect and barnyard grass Acarina.Desinsection of the inventive method and/or miticidal effect can directly show, just take place immediately or in the insect destruction that only takes place through back (in the process of for example casting off a skin) after a while, perhaps show indirectly, for example lay eggs and/or the form of incubation rate shows, be at least 40-50% corresponding to the good action of destruction rate (lethality) with reduction.
According to intended purposes and common environment, own the known insecticide in invention (A) scope is the missible oil that contains Macrocyclic lactone compounds, concentrated suspension, directly can spray or dilutable solution, the paste that can apply, dilute emulsion, wetting powder, soluble powder, dispersible powder, wetting powder, dust agent, granule or polymer latex wafer.
In these compositions, use active ingredient and at least a simultaneously at formulation art auxiliary agent commonly used, as filler, for example solvent or solid carrier, or as surface active cpd (surfactant).
The formulation auxiliary agents that uses is, for example solid carrier, solvent, stabilizing agent, " slowly-releasing " auxiliary agent, colouring agent and also have surface reactive material (surfactant) suitably the time.Suitable carriers and auxiliary agent are all substances that routine is used for crop protection products.Proper auxiliary agent such as solvent, solid carrier, surface active cpd, nonionic surface active agent, cationic surfactant, anion surfactant and other auxiliary agents are in the composition that the present invention uses, for example at those auxiliary agents described in the EP-A-736252.
These compositions that are used for pest control can be made into, for example wetting powder, dust agent, granule, solution, missible oil, emulsion, concentrated suspension or aerosol.For example, composition is the type described in the EP-A-736252.
By adding other desinsections, killing mite and/or mycocidal active ingredient, can expand invention (A) scope greatly and contain the action spectrum of the composition of Macrocyclic lactone compounds, and make it adapt to general environment.The suitable example of the active ingredient that adds is the representative of following kind of effective constituents: organic phosphorus compound, nitrophenols and derivative, carbonamidine, urea, carbamate, pyrethroid, chlorohydrocarbon; Particularly preferred composition is in the mixture, for example thiamethoxam, pyrrole aphid ketone, fenoxycarb, Imidacloprid, Ti-435, fluorine worm nitrile, pyrrole propyl ether, emamectin, diazinon or butyl ether urea.
In general, composition in invention (A) scope comprises the Macrocyclic lactone compounds of 0.1-99%, particularly 0.1-95%, at least a solid or liquid adjuvants with 1-99.9%, particularly 5-99.9%, usually has 0-25%, particularly the composition of 0.1-20% is surfactant (in all cases, % represents percentage by weight).Although the composition that concentrates is more preferably as commodity selling, the end user can use dilute compositions usually, and wherein the concentration of active ingredient reduces greatly.
The present invention's (A) composition also can comprise other solids or liquid adjuvants, as stabilizing agent, for example epoxidised or not epoxidised vegetable oil (for example epoxidised cocoa butter, rapeseed oil or soya-bean oil), defoamer, silicone oil for example, preservative, viscosity modifier, adhesive and/or adhesive, and fertilizer or for other active ingredients of obtaining special-effect for example bactericide, fungicide, nematocide, invertebrate poison or weed killer herbicide.
The composition of (A) is to produce with known method according to the present invention, for example with before auxiliary agent mixes, for example by grind, screening and/or compress active ingredient and obtain specific particle size, then active ingredient is closely mixed with auxiliary agent and/or grinds.
According to its intended purposes and common environment; can adopt the known mode of those skilled in the art itself to implement the method that the present invention is used to prevent and treat the above-mentioned type insect, that is to say the mode that to use spraying, moistening, atomizing, dusting, brushing, seed dressing, disperse or pour said composition.General working concentration is 0.1-1000ppm, preferably 0.1-500ppm active ingredient.Consumption can change in wide region, and depends on soil structure, uses type (foliage applying; Seed dressing; Broadcast in the ditch and use), common weather conditions under the insect of genetically modified crops, desire control, every kind of situation, and other are by using type, using the factor that opportunity and target crop are determined.The consumption of per hectare is generally 1-2000g Macrocyclic lactone compounds, particularly 10-1000g//ha, preferably 10-500g/ha, more preferably 10-200g/ha.
In the crop protection field in the present invention (A) scope, preferably using type is to use (foliage applying) to the blade of plant, can regulate frequency and the consumption used, makes it adapt to the degree of being encroached on by described insect.Yet, soak the plant site or the active ingredient of solid form is mixed the plant site with fluid composition, for example mix (soil application) in the soil with the form of particle, active ingredient also can enter inside plants (systemic action) by root system.For rice crop, these particles can add in the rice field of flood irrigation.
The propagating materials that the composition of (A) also is suitable for protecting genetically modified plants according to the present invention for example seed such as fruit, stem tuber or kernel or plant is transplanted a cutting and is not subjected to the particularly representative biological infringement of insect and barnyard grass Acarina of noxious animal.Can be with this propagating materials of compositions-treated before using, for example seed dressing prior to seeding.Also can by in fluid composition, soak kernel or with the solid composite bag by kernel, active component is applied on kind of the benevolence (bag by).When in the sowing process, propagating materials being applied to that for example seed is broadcast in the ditch, also said composition can be applied to application site.These all are further themes of the present invention to the processing method of plant propagation material and the plant propagation material of so handling.
Can be used for the formulation examples of Macrocyclic lactone compounds of the present invention's (A) method, for example solution, granule, dust agent, the pulvis that can spray, missible oil, bag are the preparations of for example describing in the embodiment F 1-F10 of EP-A-580553 by granule and concentrated suspension.
Table B
Use following abbreviation in the table:
The active ingredient of genetically modified plants: AP
Luminous smooth rod bacterium: PL
Xenorhabdus nematophilus: XN
Protease inhibitors: Plnh
Phytolectin: Plec
Agglutinin: Aggl.
3-hydroxy steroid oxidase: HO
Cholesterol oxidase: CO
Chitinase: CH
Dextranase: GL
1,2-talan synthase: SS
Table B:
AP Controlling object
B.1 CrylA(a) The kind that Adoxophyes spp belongs to
B.2 CrylA(a) The kind that the ground tiger belongs to
B.3 CrylA(a) Cotton leaf noctuid
B.4 CrylA(a) The soybean noctuid
B.5 CrylA(a) The kind of straw borer spp
B.6 CrylA(a) Grape codling moth (Clysia ambiguella)
B.7 CrylA(a) General non-fine hair snout moth's larva
B.8 CrylA(a) The kind that steinernema belongs to
B.9 CrylA(a) The Sudan cotton bollworm
B.10 CrylA(a) Jin Gang bores the kind that belongs to
B.11 CrylA(a) The kind that meal moth belongs to
B.12 CrylA(a) The kind of Heliothis
B.13 CrylA(a) Hellula undalis
B.14 CrylA(a) Tomato stem gelechiid
B.15 CrylA(a) Pear leaf blister moth
B.16 CrylA(a) The kind that thin moth belongs to
B.17 CrylA(a) Flower wing steinernema belongs to (Lobesia) botrana
B.18 CrylA(a) European corn borer
B.19 CrylA(a) The kind of brown epiblema
B.20 CrylA(a) Pectinophora gossypiella
B.21 CrylA(a) The mandarin orange lyonetid
B.22 CrylA(a) The kind that miller belongs to
B.23 CrylA(a) Diamond-back moth
B.24 CrylA(a) The kind that white standing grain snout moth's larva belongs to
B.25 CrylA(a) The kind of moth stem Noctua
B.26 CrylA(a) The long kind that must roll up the moth genus
B.27 CrylA(a) The kind of Spodoptera
B.28 CrylA(a) The kind that the volume moth belongs to
B.29 CrylA(a) The amyloid plaque noctuid
B.30 CrylA(a) The kind of Agriotes spp
B.31 CrylA(a) Mexico's cotton boll resembles
B.32 CrylA(a) The kind of Curculio
B.33 CrylA(a) Band spot cucumber is chrysomelid
B.34 CrylA(a) The kind that colorado potato beetles belong to
B.35 CrylA(a) Rice water resembles the kind of genus
B.36 CrylA(a) Ear resembles the kind of genus
B.37 CrylA(a) The kind (Aleurothrixus spp.) that wolly whitefly belongs to
B.38 CrylA(a) The kind of Aleyrodes
B.39 CrylA(a) The kind that the kidney Aspidiotus belongs to
B.40 CrylA(a) Aphidiadae
B.41 CrylA(a) The kind of Aphis
B.42 CrylA(a) Sweet potato whitefly
B.43 CrylA(a) The kind of Empoasca flavescens
B.44 CrylA(a) The kind of tumor aphid genus
B.45 CrylA(a) The kind that rice leafhopper belongs to
B.46 CrylA(a) The kind that brown planthopper belongs to
B.47 CrylA(a) The kind that mealybug belongs to
B.48 CrylA(a) The kind of Psylla spp
B.49 CrylA(a) The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.50 CrylA(a) The kind of y-bend Aphis
B.51 CrylA(a) The kind of knot wing Aleyrodes
B.52 CrylA(a) The kind (Lyriomyza) that liriomyza bryoniae belongs to
B.53 CrylA(a) The kind that wheat stem chloropid fly belongs to
B.54 CrylA(a) The kind of grass Hylemyia
B.55 CrylA(a) The kind that flower thrips belongs to
B.56 CrylA(a) The kind of Thrips
B.57 CrylA(a) The orange thrips in South Africa
B.58 CrylA(a) The kind that the knurl mite belongs to
B.59 CrylA(a) The kind of thorn Eriophyes
B.60 CrylA(a) The kind of short whisker Acarapis
B.61 CrylA(a) The kind that Panonychus citri belongs to
B.62 CrylA(a) The kind that the wrinkle leaf Aculus belongs to
B.63 CrylA(a) The kind of Tetranychus
B.64 CrylA(a) The kind of Heterodera
B.65 CrylA(a) The kind of Meloidogyne
B.66 CrylA(b) The kind that Adoxophyes spp belongs to
B.67 CrylA(b) The kind that the ground tiger belongs to
B.68 CrylA(b) Cotton leaf noctuid
B.69 CrylA(b) The soybean noctuid
B.70 CrylA(b) The kind of straw borer spp
B.71 CrylA(b) Grape codling moth (Clysia ambiguella)
B.72 CrylA(b) General non-fine hair snout moth's larva
B.73 CrylA(b) The kind that steinernema belongs to
B.74 CrylA(b) The Sudan cotton bollworm
B.75 CrylA(b) Jin Gang bores the kind that belongs to
B.76 CrylA(b) The kind that meal moth belongs to
B.77 CrylA(b) The kind of Heliothis
B.78 CrylA(b) Hellula undalis
B.79 CrylA(b) Tomato stem gelechiid
B.80 CrylA(b) Pear leaf blister moth
B.81 CrylA(b) The kind that thin moth belongs to
B.82 CrylA(b) Flower wing steinernema belongs to (Lobesia) botrana
B.83 CrylA(b) European corn borer
B.84 CrylA(b) The kind of brown epiblema
B.85 CrylA(b) Cotton bollworm
B.86 CrylA(b) The mandarin orange lyonetid
B.87 CrylA(b) The kind that miller belongs to
B.88 CrylA(b) Diamond-back moth
B.89 CrylA(b) The kind that white standing grain snout moth's larva belongs to
B.90 CrylA(b) The kind of moth stem Noctua
B.91 CrylA(b) The long kind that must roll up the moth genus
B.92 CrylA(b) The kind of Spodoptera
B.93 CrylA(b) The kind that the volume moth belongs to
B.94 CrylA(b) The amyloid plaque noctuid
B.95 CrylA(b) The kind of Agriotes spp
B.96 CrylA(b) Mexico's cotton boll resembles
B.97 CrylA(b) The kind of Curculio
B.98 CrylA(b) Band spot cucumber is chrysomelid
B.99 CrylA(b) The kind that colorado potato beetles belong to
B.100 CrylA(b) Rice water resembles the kind of genus
B.101 CrylA(b) Ear resembles the kind of genus
B.102 CrylA(b) The kind that wolly whitefly belongs to
B.103 CrylA(b) The kind of Aleyrodes
B.104 CrylA(b) The kind that the kidney Aspidiotus belongs to
B.105 CrylA(b) Aphidiadae
B.106 CrylA(b) The kind of Aphis
B.107 CrylA(b) Sweet potato whitefly
B.108 CrylA(b) The kind of Empoasca flavescens
B.109 CrylA(b) The kind of tumor aphid genus
B.110 CrylA(b) The kind that rice leafhopper belongs to
B.111 CrylA(b) The kind that brown planthopper belongs to
B.112 CrylA(b) The kind that mealybug belongs to
B.113 CrylA(b) The kind of Psylla spp
B.114 CrylA(b) The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.115 CrylA(b) The kind of y-bend Aphis
B.116 CrylA(b) The kind of knot wing Aleyrodes
B.117 CrylA(b) The kind that liriomyza bryoniae belongs to
B.118 CrylA(b) The kind that wheat stem chloropid fly belongs to
B.119 CrylA(b) The kind of grass Hylemyia
B.120 CrylA(b) The kind that flower thrips belongs to
B.121 CrylA(b) The kind of Thrips
B.122 CrylA(b) The orange thrips in South Africa
B.123 CrylA(b) The kind that aceria belongs to
B.124 CrylA(b) The kind of thorn Eriophyes
B.125 CrylA(b) The kind of short whisker Acarapis
B.126 CrylA(b) The kind that Panonychus citri belongs to
B.127 CrylA(b) The kind that the wrinkle leaf Aculus belongs to
B.128 CrylA(b) The kind of Tetranychus
B.129 CrylA(b) The kind of Heterodera
B.130 CrylA(b) The kind of Meloidogyne
B.131 CrylA(c) The kind that Adoxophyes spp belongs to
B.132 CrylA(c) The kind that the ground tiger belongs to
B.133 CrylA(c) Cotton leaf noctuid
B.134 CrylA(c) The soybean noctuid
B.135 CrylA(c) The kind of straw borer spp
B.136 CrylA(c) Grape codling moth (Clysia ambiguella)
B.137 CrylA(c) General non-fine hair snout moth's larva
B.138 CrylA(c) The kind that steinernema belongs to
B.139 CrylA(c) The Sudan cotton bollworm
B.140 CrylA(c) Jin Gang bores the kind that belongs to
B.141 CrylA(c) The kind that meal moth belongs to
B.142 CrylA(c) The kind of Heliothis
B.143 CrylA(c) Hellula undalis
B.144 CrylA(c) Tomato stem gelechiid
B.145 CrylA(c) Pear leaf blister moth
B.146 CrylA(c) The kind that thin moth belongs to
B.147 CrylA(c) Flower wing steinernema belongs to (Lobesia) botrana
B.148 CrylA(c) European corn borer
B.149 CrylA(c) The kind of brown epiblema
B.150 CrylA(c) Pectinophora gossypiella
B.151 CrylA(c) The mandarin orange lyonetid
B.152 CrylA(c) The kind that miller belongs to
B.153 CrylA(c) Diamond-back moth
B.154 CrylA(c) The kind that white standing grain snout moth's larva belongs to
B.155 CrylA(c) The kind of moth stem Noctua
B.156 CrylA(c) The long kind that must roll up the moth genus
B.157 CrylA(c) The kind of Spodoptera
B.158 CrylA(c) The kind that the volume moth belongs to
B.159 CrylA(c) The amyloid plaque noctuid
B.160 CrylA(c) The kind of Agriotes spp
B.161 CrylA(c) Mexico's cotton boll resembles
B.162 CrylA(c) The kind of Curculio
B.163 CrylA(c) Band spot cucumber is chrysomelid
B.164 CrylA(c) The kind that colorado potato beetles belong to
B.165 CrylA(c) Rice water resembles the kind of genus
B.166 CrylA(c) Ear resembles the kind of genus
B.167 CrylA(c) The kind that wolly whitefly belongs to
B.168 CrylA(c) The kind of Aleyrodes
B.169 CrylA(c) The kind that the kidney Aspidiotus belongs to
B.170 CrylA(b) Aphidiadae
B.171 CrylA(c) The kind of Aphis
B.172 CrylA(c) Sweet potato whitefly
B.173 CrylA(c) The kind of Empoasca flavescens
B.174 CrylA(c) The kind of tumor aphid genus
B.175 CrylA(c) The kind that rice leafhopper belongs to
B.176 CrylA(c) The kind that brown planthopper belongs to
B.177 CrylA(c) The kind that mealybug belongs to
B.178 CrylA(c) The kind of Psylla spp
B.179 CrylA(c) The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.180 CrylA(c) The kind of y-bend Aphis
B.181 CrylA(c) The kind of knot wing Aleyrodes
B.182 CrylA(c) The kind that liriomyza bryoniae belongs to
B.183 CrylA(c) The kind that wheat stem chloropid fly belongs to
B.184 CrylA(c) The kind of grass Hylemyia
B.185 CrylA(c) The kind that flower thrips belongs to
B.186 CrylA(c) The kind of Thrips
B.187 CrylA(c) The orange thrips in South Africa
B.188 CrylA(c) The kind that aceria belongs to
B.189 CrylA(c) The kind of thorn Eriophyes
B.190 CrylA(c) The kind of short whisker Acarapis
B.191 CrylA(c) The kind that Panonychus citri belongs to
B.192 CrylA(c) The kind that the wrinkle leaf Aculus belongs to
B.193 CrylA(c) The kind of Tetranychus
B.194 CrylA(c) The kind of Heterodera
B.195 CrylA(c) The kind of Meloidogyne
B.196 CryIIA The kind that Adoxophyes spp belongs to
B.197 CryIIA The kind that the ground tiger belongs to
B.198 CryIIA Cotton leaf noctuid
B.199 CryIIA The soybean noctuid
B.200 CryIIA The kind of straw borer spp
B.201 CryIIA Grape codling moth (Clysia ambiguella)
B.202 CryIIA General non-fine hair snout moth's larva
B.203 CryIIA The kind that steinernema belongs to
B.204 CryIIA The Sudan cotton bollworm
B.205 CryIIA Jin Gang bores the kind that belongs to
B.206 CryIIA The kind that meal moth belongs to
B.207 CryIIA The kind of Heliothis
B.208 CryIIA Hellula undalis
B.209 CryIIA Tomato stem gelechiid
B.210 CryIIA Pear leaf blister moth
B.211 CryIIA The kind that thin moth belongs to
B.212 CryIIA Flower wing steinernema belongs to (Lobesia) botrana
B.213 CryIIA European corn borer
B.214 CryIIA The kind of brown epiblema
B.215 CryIIA Pectinophora gossypiella
B.216 CryIIA The mandarin orange lyonetid
B.217 CryIIA The kind that miller belongs to
B.218 CryIIA Diamond-back moth
B.219 CryIIA The kind that white standing grain snout moth's larva belongs to
B.220 CryIIA The kind of moth stem Noctua
B.221 CryIIA The long kind that must roll up the moth genus
B.222 CryIIA The kind of Spodoptera
B.223 CryIIA The kind that the volume moth belongs to
B.224 CryIIA The amyloid plaque noctuid
B.225 CryIIA The kind of Agriotes spp
B.226 CryIIA Mexico's cotton boll resembles
B.227 CryIIA The kind of Curculio
B.228 CryIIA Band spot cucumber is chrysomelid
B.229 CryIIA The kind that colorado potato beetles belong to
B.230 CryIIA Rice water resembles the kind of genus
B.231 CryIIA Ear resembles the kind of genus
B.232 CryIIA The kind that wolly whitefly belongs to
B.233 CryIIA The kind of Aleyrodes
B.234 CryIIA The kind that the kidney Aspidiotus belongs to
B.235 CryIIA Aphidiadae
B.236 CryIIA The kind of Aphis
B.237 CryIIA Sweet potato whitefly
B.238 CryIIA The kind of Empoasca flavescens
B.239 CryIIA The kind of tumor aphid genus
B.240 CryIIA The kind that rice leafhopper belongs to
B.241 CryIIA The kind that brown planthopper belongs to
B.242 CryIIA The kind that mealybug belongs to
B.243 CryIIA The kind of Psylla spp
B.244 CryIIA The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.245 CryIIA The kind of y-bend Aphis
B.246 CryIIA The kind of knot wing Aleyrodes
B.247 CryIIA The kind that liriomyza bryoniae belongs to
B.248 CryIIA The kind that wheat stem chloropid fly belongs to
B.249 CryIIA The kind of grass Hylemyia
B.250 CryIIA The kind that flower thrips belongs to
B.251 CryIIA The kind of Thrips
B.252 CryIIA The orange thrips in South Africa
B.253 CryIIA The kind that aceria belongs to
B.254 CryIIA The kind of thorn Eriophyes
B.255 CryIIA The kind of short whisker Acarapis
B.256 CryIIA The kind that Panonychus citri belongs to
B.257 CryIIA The kind that the wrinkle leaf Aculus belongs to
B.258 CryIIA The kind of Tetranychus
B.259 CryIIA The kind of Heterodera
B.260 CryIIA The kind of Meloidogyne
B.261 CryIIIA The kind that Adoxophyes spp belongs to
B.262 CryIIIA The kind that the ground tiger belongs to
B.263 CryIIIA Cotton leaf noctuid
B.264 CryIIIA The soybean noctuid
B.265 CryIIIA The kind of straw borer spp
B.266 CryIIIA Grape codling moth (Clysia ambiguella)
B.267 CryIIIA General non-fine hair snout moth's larva
B.268 CryIIIA The kind that steinernema belongs to
B.269 CryIIIA The Sudan cotton bollworm
B.270 CryIIIA Jin Gang bores the kind that belongs to
B.271 CryIIIA The kind that meal moth belongs to
B.272 CryIIIA The kind of Heliothis
B.273 CryIIIA Hellula undalis
B.274 CryIIIA Tomato stem gelechiid
B.275 CryIIIA Pear leaf blister moth
B.276 CryIIIA The kind that thin moth belongs to
B.277 CryIIIA Flower wing steinernema belongs to (Lobesia) botrana
B.278 CryIIIA European corn borer
B.279 CryIIIA The kind of brown epiblema
B.280 CryIIIA Pectinophora gossypiella
B.281 CryIIIA The mandarin orange lyonetid
B.282 CryIIIA The kind that miller belongs to
B.283 CryIIIA Diamond-back moth
B.284 CryIIIA The kind that white standing grain snout moth's larva belongs to
B.285 CryIIIA The kind of moth stem Noctua
B.286 CryIIIA The long kind that must roll up the moth genus
B.287 CryIIIA The kind of Spodoptera
B.288 CryIIIA The kind that the volume moth belongs to
B.289 CryIIIA The amyloid plaque noctuid
B.290 CryIIIA The kind of Agriotes spp
B.291 CryIIIA Mexico's cotton boll resembles
B.292 CryIIIA The kind of Curculio
B.293 CryIIIA Band spot cucumber is chrysomelid
B.294 CryIIIA The kind that colorado potato beetles belong to
B.295 CryIIIA Rice water resembles the kind of genus
B.296 CryIIIA Ear resembles the kind of genus
B.297 CryIIIA The kind that wolly whitefly belongs to
B.298 CryIIIA The kind of Aleyrodes
B.299 CryIIIA The kind that the kidney Aspidiotus belongs to
B.300 CryIIIA Aphidiadae
B.301 CryIIIA The kind of Aphis
B.302 CryIIIA Sweet potato whitefly
B.303 CryIIIA The kind of Empoasca flavescens
B.304 CryIIIA The kind of tumor aphid genus
B.305 CryIIIA The kind that rice leafhopper belongs to
B.306 CryIIIA The kind that brown planthopper belongs to
B.307 CryIIIA The kind that mealybug belongs to
B.308 CryIIIA The kind of Psylla spp
B.309 CryIIIA The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.310 CryIIIA The kind of y-bend Aphis
B.311 CryIIIA The kind of knot wing Aleyrodes
B.312 CryIIIA The kind that liriomyza bryoniae belongs to
B.313 CryIIIA The kind that wheat stem chloropid fly belongs to
B.314 CryIIIA The kind of grass Hylemyia
B.315 CryIIIA The kind that flower thrips belongs to
B.316 CryIIIA The kind of Thrips
B.317 CryIIIA The orange thrips in South Africa
B.318 CryIIIA The kind that the knurl mite belongs to
B.319 CryIIIA The kind of thorn Eriophyes
B.320 CryIIIA The kind of short whisker Acarapis
B.321 CryIIIA The kind that Panonychus citri belongs to
B.322 CryIIIA The kind that the wrinkle leaf Aculus belongs to
B.323 CryIIIA The kind of Tetranychus
B.324 CryIIIA The kind of Heterodera
B.325 CryIIIA The kind of Meloidogyne
B.326 CryIIIB2 The kind that Adoxophyes spp belongs to
B.327 CryIIIB2 The kind that the ground tiger belongs to
B.328 CryIIIB2 Cotton leaf noctuid
B.329 CryIIIB2 The soybean noctuid
B.330 CryIIIB2 The kind of straw borer spp
B.331 CryIIIB2 Grape codling moth (Clysia ambiguella)
B.332 CryIIIB2 General non-fine hair snout moth's larva
B.333 CryIIIB2 The kind that steinernema belongs to
B.334 CryIIIB2 The Sudan cotton bollworm
B.335 CryIIIB2 Jin Gang bores the kind that belongs to
B.336 CryIIIB2 The kind that meal moth belongs to
B.337 CryIIIB2 The kind of Heliothis
B.338 CryIIIB2 Hellula undalis
B.339 CryIIIB2 Tomato stem gelechiid
B.340 CryIIIB2 Pear leaf blister moth
B.341 CryIIIB2 The kind that thin moth belongs to
B.342 CryIIIB2 Flower wing steinernema belongs to (Lobesia) botrana
B.343 CryIIIB2 European corn borer
B.344 CryIIIB2 The kind of brown epiblema
B.345 CryIIIB2 Pectinophora gossypiella
B.346 CryIIIB2 The mandarin orange lyonetid
B.347 CryIIIB2 The kind that miller belongs to
B.348 CryIIIB2 Diamond-back moth
B.349 CryIIIB2 The kind that white standing grain snout moth's larva belongs to
B.350 CryIIIB2 The kind of moth stem Noctua
B.351 CryIIIB2 The long kind that must roll up the moth genus
B.352 CryIIIB2 The kind of Spodoptera
B.353 CryIIIB2 The kind that the volume moth belongs to
B.354 CryIIIB2 The amyloid plaque noctuid
B.355 CryIIIB2 The kind of Agriotes spp
B.356 CryIIIB2 Mexico's cotton boll resembles
B.357 CryIIIB2 The kind of Curculio
B.358 CryIIIB2 Band spot cucumber is chrysomelid
B.359 CryIIIB2 The kind that colorado potato beetles belong to
B.360 CryIIIB2 Rice water resembles the kind of genus
B.361 CryIIIB2 Ear resembles the kind of genus
B.362 CryIIIB2 The kind that wolly whitefly belongs to
B.363 CryIIIB2 The kind of Aleyrodes
B.364 CryIIIB2 The kind that the kidney Aspidiotus belongs to
B.365 CryIIIB2 Aphidiadae
B.366 CryIIIB2 The kind of Aphis
B.367 CryIIIB2 Sweet potato whitefly
B.368 CryIIIB2 The kind of Empoasca flavescens
B.369 CryIIIB2 The kind of tumor aphid genus
B.370 CryIIIB2 The kind that rice leafhopper belongs to
B.371 CryIIIB2 The kind that brown planthopper belongs to
B.372 CryIIIB2 The kind that mealybug belongs to
B.373 CryIIIB2 The kind of Psylla spp
B.374 CryIIIB2 The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.375 CryIIIB2 The kind of y-bend Aphis
B.376 CryIIIB2 The kind of knot wing Aleyrodes
B.377 CryIIIB2 The kind that liriomyza bryoniae belongs to
B.378 CryIIIB2 The kind that wheat stem chloropid fly belongs to
B.379 CryIIIB2 The kind of grass Hylemyia
B.380 CryIIIB2 The kind that flower thrips belongs to
B.381 CryIIIB2 The kind of Thrips
B.382 CryIIIB2 The orange thrips in South Africa
B.383 CryIIIB2 The kind that the knurl mite belongs to
B.384 CryIIIB2 The kind of thorn Eriophyes
B.385 CryIIIB2 The kind of short whisker Acarapis
B.386 CryIIIB2 The kind that Panonychus citri belongs to
B.387 CryIIIB2 The kind that the wrinkle leaf Aculus belongs to
B.388 CryIIIB2 The kind of Tetranychus
B.389 CryIIIB2 The kind of Heterodera
B.390 CryIIIB2 The kind of Meloidogyne
B.391 CytA The kind that Adoxophyes spp belongs to
B.392 CytA The kind that the ground tiger belongs to
B.393 CytA Cotton leaf noctuid
B.394 CytA The soybean noctuid
B.395 CytA The kind of straw borer spp
B.396 CytA Grape codling moth (Clysia ambiguella)
B.397 CytA General non-fine hair snout moth's larva
B.398 CytA The kind that steinernema belongs to
B.399 CytA The Sudan cotton bollworm
B.400 CytA Jin Gang bores the kind that belongs to
B.401 CytA The kind that meal moth belongs to
B.402 CytA The kind of Heliothis
B.403 CytA Hellula undalis
B.404 CytA Tomato stem gelechiid
B.405 CytA Pear leaf blister moth
B.406 CytA The kind that thin moth belongs to
B.407 CytA Flower wing steinernema belongs to (Lobesia) botrana
B.408 CytA European corn borer
B.409 CytA The kind of brown epiblema
B.410 CytA Pectinophora gossypiella
B.411 CytA The mandarin orange lyonetid
B.412 CytA The kind that miller belongs to
B.413 CytA Diamond-back moth
B.414 CytA The kind that white standing grain snout moth's larva belongs to
B.415 CytA The kind of moth stem Noctua
B.416 CytA The long kind that must roll up the moth genus
B.417 CytA The kind of Spodoptera
B.418 CytA The kind that the volume moth belongs to
B.419 CytA The amyloid plaque noctuid
B.420 CytA The kind of Agriotes spp
B.421 CytA Mexico's cotton boll resembles
B.422 CytA The kind of Curculio
B.423 CytA Band spot cucumber is chrysomelid
B.424 CytA The kind that colorado potato beetles belong to
B.425 CytA Rice water resembles the kind of genus
B.426 CytA Ear resembles the kind of genus
B.427 CytA The kind that wolly whitefly belongs to
B.428 CytA The kind of Aleyrodes
B.429 CytA The kind that the kidney Aspidiotus belongs to
B.430 CytA Aphidiadae
B.431 CytA The kind of Aphis
B.432 CytA Sweet potato whitefly
B.433 CytA The kind of Empoasca flavescens
B.434 CytA The kind of tumor aphid genus
B.435 CytA The kind that rice leafhopper belongs to
B.436 CytA The kind that brown planthopper belongs to
B.437 CytA The kind that mealybug belongs to
B.438 CytA The kind of Psylla spp
B.439 CytA The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.440 CytA The kind of y-bend Aphis
B.441 CytA The kind of knot wing Aleyrodes
B.442 CytA The kind that liriomyza bryoniae belongs to
B.443 CytA The kind that wheat stem chloropid fly belongs to
B.444 CytA The kind of grass Hylemyia
B.445 CytA The kind that flower thrips belongs to
B.446 CytA The kind of Thrips
B.447 CytA The orange thrips in South Africa
B.448 CytA The kind that the knurl mite belongs to
B.449 CytA The kind of thorn Eriophyes
B.450 CytA The kind of short whisker Acarapis
B.451 CytA The kind that Panonychus citri belongs to
B.452 CytA The kind that the wrinkle leaf Aculus belongs to
B.453 CytA The kind of Tetranychus
B.454 CytA The kind of Heterodera
B.455 CytA The kind of Meloidogyne
B.456 VIP3 The kind that Adoxophyes spp belongs to
B.457 VIP3 The kind that the ground tiger belongs to
B.458 VIP3 Cotton leaf noctuid
B.459 VIP3 The soybean noctuid
B.460 VIP3 The kind of straw borer spp
B.461 VIP3 Grape codling moth (Clysia ambiguella)
B.462 VIP3 General non-fine hair snout moth's larva
B.463 VIP3 The kind that steinernema belongs to
B.464 VIP3 The Sudan cotton bollworm
B.465 VIP3 Jin Gang bores the kind that belongs to
B.466 VIP3 The kind that meal moth belongs to
B.467 VIP3 The kind of Heliothis
B.468 VIP3 Hellula undalis
B.469 VIP3 Tomato stem gelechiid
B.470 VIP3 Pear leaf blister moth
B.471 VIP3 The kind that thin moth belongs to
B.472 VIP3 Flower wing steinernema belongs to (Lobesia) botrana
B.473 VIP3 European corn borer
B.474 VIP3 The kind of brown epiblema
B.475 VIP3 Pectinophora gossypiella
B.476 VIP3 The mandarin orange lyonetid
B.477 VIP3 The kind that miller belongs to
B.478 VIP3 Diamond-back moth
B.479 VIP3 The kind that white standing grain snout moth's larva belongs to
B.480 VIP3 The kind of moth stem Noctua
B.481 VIP3 The long kind that must roll up the moth genus
B.482 VIP3 The kind of Spodoptera
B.483 VIP3 The kind that the volume moth belongs to
B.484 VIP3 The amyloid plaque noctuid
B.485 VIP3 The kind of Agriotes spp
B.486 VIP3 Mexico's cotton boll resembles
B.487 VIP3 The kind of Curculio
B.488 VIP3 Band spot cucumber is chrysomelid
B.489 VIP3 The kind that colorado potato beetles belong to
B.490 VIP3 Rice water resembles the kind of genus
B.491 VIP3 Ear resembles the kind of genus
B.492 VIP3 The kind that wolly whitefly belongs to
B.493 VIP3 The kind of Aleyrodes
B.494 VIP3 The kind that the kidney Aspidiotus belongs to
B.495 VIP3 Aphidiadae
B.496 VIP3 The kind of Aphis
B.497 VIP3 Sweet potato whitefly
B.498 VIP3 The kind of Empoasca flavescens
B.499 VIP3 The kind of tumor aphid genus
B.500 VIP3 The kind that rice leafhopper belongs to
B.501 VIP3 The kind that brown planthopper belongs to
B.502 VIP3 The kind that mealybug belongs to
B.503 VIP3 The kind of Psylla spp
B.504 VIP3 The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.505 VIP3 The kind of y-bend Aphis
B.506 VIP3 The kind of knot wing Aleyrodes
B.507 VIP3 The kind that liriomyza bryoniae belongs to
B.508 VIP3 The kind that wheat stem chloropid fly belongs to
B.509 VIP3 The kind of grass Hylemyia
B.510 VIP3 The kind that flower thrips belongs to
B.511 VIP3 The kind of Thrips
B.512 VIP3 The orange thrips in South Africa
B.513 VIP3 The kind that the knurl mite belongs to
B.514 VIP3 The kind of thorn Eriophyes
B.515 VIP3 The kind of short whisker Acarapis
B.516 VIP3 The kind that Panonychus citri belongs to
B.517 VIP3 The kind that the wrinkle leaf Aculus belongs to
B.518 VIP3 The kind of Tetranychus
B.519 VIP3 The kind of Heterodera
B.520 VIP3 The kind of Meloidogyne
B.521 GL The kind that Adoxophyes spp belongs to
B.522 GL The kind that the ground tiger belongs to
B.523 GL Cotton leaf noctuid
B.524 GL The soybean noctuid
B.525 GL The kind of straw borer spp
B.526 GL Grape codling moth (Clysia ambiguella)
B.527 GL General non-fine hair snout moth's larva
B.528 GL The kind that steinernema belongs to
B.529 GL The Sudan cotton bollworm
B.530 GL Jin Gang bores the kind that belongs to
B.531 GL The kind that meal moth belongs to
B.532 GL The kind of Heliothis
B.533 GL Hellula undalis
B.534 GL Tomato stem gelechiid
B.535 GL Pear leaf blister moth
B.536 GL The kind that thin moth belongs to
B.537 GL Flower wing steinernema belongs to (Lobesia) botrana
B.538 GL European corn borer
B.539 GL The kind of brown epiblema
B.540 GL Pectinophora gossypiella
B.541 GL The mandarin orange lyonetid
B.542 GL The kind that miller belongs to
B.543 GL Diamond-back moth
B.544 GL The kind that white standing grain snout moth's larva belongs to
B.545 GL The kind of moth stem Noctua
B.546 GL The long kind that must roll up the moth genus
B.547 GL The kind of Spodoptera
B.548 GL The kind that the volume moth belongs to
B.549 GL The amyloid plaque noctuid
B.550 GL The kind of Agriotes spp
B.551 GL Mexico's cotton boll resembles
B.552 GL The kind of Curculio
B.553 GL Band spot cucumber is chrysomelid
B.554 GL The kind that colorado potato beetles belong to
B.555 GL Rice water resembles the kind of genus
B.556 GL Ear resembles the kind of genus
B.557 GL The kind that wolly whitefly belongs to
B.558 GL The kind of Aleyrodes
B.559 GL The kind that the kidney Aspidiotus belongs to
B.560 GL Aphidiadae
B.561 GL The kind of Aphis
B.562 GL Sweet potato whitefly
B.563 GL The kind of Empoasca flavescens
B.564 GL The kind of tumor aphid genus
B.565 GL The kind that rice leafhopper belongs to
B.566 GL The kind that brown planthopper belongs to
B.567 GL The kind that mealybug belongs to
B.568 GL The kind of Psylla spp
B.569 GL The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.570 GL The kind of y-bend Aphis
B.571 GL The kind of knot wing Aleyrodes
B.572 GL The kind that liriomyza bryoniae belongs to
B.573 GL The kind that wheat stem chloropid fly belongs to
B.574 GL The kind of grass Hylemyia
B.575 GL The kind that flower thrips belongs to
B.576 GL The kind of Thrips
B.577 GL The orange thrips in South Africa
B.578 GL The kind that the knurl mite belongs to
B.579 GL The kind of thorn Eriophyes
B.580 GL The kind of short whisker Acarapis
B.581 GL The kind that Panonychus citri belongs to
B.582 GL The kind that the wrinkle leaf Aculus belongs to
B.583 GL The kind of Tetranychus
B.584 GL The kind of Heterodera
B.585 GL The kind of Meloidogyne
B.586 PL The kind that Adoxophyes spp belongs to
B.587 PL The kind that the ground tiger belongs to
B.588 PL Cotton leaf noctuid
B.589 PL The soybean noctuid
B.590 PL The kind of straw borer spp
B.591 PL Grape codling moth (Clysia ambiguella)
B.592 PL General non-fine hair snout moth's larva
B.593 PL The kind that steinernema belongs to
B.594 PL The Sudan cotton bollworm
B.595 PL Jin Gang bores the kind that belongs to
B.596 PL The kind that meal moth belongs to
B.597 PL The kind of Heliothis
B.598 PL Hellula undalis
B.599 PL Tomato stem gelechiid
B.600 PL Pear leaf blister moth
B.601 PL The kind that thin moth belongs to
B.602 PL Flower wing steinernema belongs to (Lobesia) botrana
B.603 PL European corn borer
B.604 PL The kind of brown epiblema
B.605 PL Pectinophora gossypiella
B.606 PL The mandarin orange lyonetid
B.607 PL The kind that miller belongs to
B.608 PL Diamond-back moth
B.609 PL The kind that white standing grain snout moth's larva belongs to
B.610 PL The kind of moth stem Noctua
B.611 PL The long kind that must roll up the moth genus
B.612 PL The kind of Spodoptera
B.613 PL The kind that the volume moth belongs to
B.614 PL The amyloid plaque noctuid
B.615 PL The kind of Agriotes spp
B.616 PL Mexico's cotton boll resembles
B.617 PL The kind of Curculio
B.618 PL Band spot cucumber is chrysomelid
B.619 PL The kind that colorado potato beetles belong to
B.620 PL Rice water resembles the kind of genus
B.621 PL Ear resembles the kind of genus
B.622 PL The kind that wolly whitefly belongs to
B.623 PL The kind of Aleyrodes
B.624 PL The kind that the kidney Aspidiotus belongs to
B.625 PL Aphidiadae
B.626 PL The kind of Aphis
B.627 PL Sweet potato whitefly
B.628 PL The kind of Empoasca flavescens
B.629 PL The kind of tumor aphid genus
B.630 PL The kind that rice leafhopper belongs to
B.631 PL The kind that brown planthopper belongs to
B.632 PL The kind that mealybug belongs to
B.633 PL The kind of Psylla spp
B.634 PL The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.635 PL The kind of y-bend Aphis
B.636 PL The kind of knot wing Aleyrodes
B.637 PL The kind that liriomyza bryoniae belongs to
B.638 PL The kind that wheat stem chloropid fly belongs to
B.639 PL The kind of grass Hylemyia
B.640 PL The kind that flower thrips belongs to
B.641 PL The kind of Thrips
B.642 PL The orange thrips in South Africa
B.643 PL The kind that the knurl mite belongs to
B.644 PL The kind of thorn Eriophyes
B.645 PL The kind of short whisker Acarapis
B.646 PL The kind that Panonychus citri belongs to
B.647 PL The kind that the wrinkle leaf Aculus belongs to
B.648 PL The kind of Tetranychus
B.649 PL The kind of Heterodera
B.650 PL The kind of Meloidogyne
B.651 XN The kind that Adoxophyes spp belongs to
B.652 XN The kind that the ground tiger belongs to
B.653 XN Cotton leaf noctuid
B.654 XN The soybean noctuid
B.655 XN The kind of straw borer spp
B.656 XN Grape codling moth (Clysia ambiguella)
B.657 XN General non-fine hair snout moth's larva
B.658 XN The kind that steinernema belongs to
B.659 XN The Sudan cotton bollworm
B.660 XN Jin Gang bores the kind that belongs to
B.661 XN The kind that meal moth belongs to
B.662 XN The kind of Heliothis
B.663 XN Hellula undalis
B.664 XN Tomato stem gelechiid
B.665 XN Pear leaf blister moth
B.666 XN The kind that thin moth belongs to
B.667 XN Flower wing steinernema belongs to (Lobesia) botrana
B.668 XN European corn borer
B.669 XN The kind of brown epiblema
B.670 XN Pectinophora gossypiella
B.671 XN The mandarin orange lyonetid
B.672 XN The kind that miller belongs to
B.673 XN Diamond-back moth
B.674 XN The kind that white standing grain snout moth's larva belongs to
B.675 XN The kind of moth stem Noctua
B.676 XN The long kind that must roll up the moth genus
B.677 XN The kind of Spodoptera
B.678 XN The kind that the volume moth belongs to
B.679 XN The amyloid plaque noctuid
B.680 XN The kind of Agriotes spp
B.681 XN Mexico's cotton boll resembles
B.682 XN The kind of Curculio
B.683 XN Band spot cucumber is chrysomelid
B.684 XN The kind that colorado potato beetles belong to
B.685 XN Rice water resembles the kind of genus
B.686 XN Ear resembles the kind of genus
B.687 XN The kind that wolly whitefly belongs to
B.688 XN The kind of Aleyrodes
B.689 XN The kind that the kidney Aspidiotus belongs to
B.690 XN Aphidiadae
B.691 XN The kind of Aphis
B.692 XN Sweet potato whitefly
B.693 XN The kind of Empoasca flavescens
B.694 XN The kind of tumor aphid genus
B.695 XN The kind that rice leafhopper belongs to
B.696 XN The kind that brown planthopper belongs to
B.697 XN The kind that mealybug belongs to
B.698 XN The kind of Psylla spp
B.699 XN The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.700 XN The kind of y-bend Aphis
B.701 XN The kind of knot wing Aleyrodes
B.702 XN The kind that liriomyza bryoniae belongs to
B.703 XN The kind that wheat stem chloropid fly belongs to
B.704 XN The kind of grass Hylemyia
B.705 XN The kind that flower thrips belongs to
B.706 XN The kind of Thrips
B.707 XN The orange thrips in South Africa
B.708 XN The kind that the knurl mite belongs to
B.709 XN The kind of thorn Eriophyes
B.710 XN The kind of short whisker Acarapis
B.711 XN The kind that Panonychus citri belongs to
B.712 XN The kind that the wrinkle leaf Aculus belongs to
B.713 XN The kind of Tetranychus
B.714 XN The kind of Heterodera
B.715 XN The kind of Meloidogyne
B.716 Plnh. The kind that Adoxophyes spp belongs to
B.717 Plnh. The kind that the ground tiger belongs to
B.718 Plnh. Cotton leaf noctuid
B.719 Plnh. The soybean noctuid
B.720 Plnh. The kind of straw borer spp
B.721 Plnh. Grape codling moth (Clysia ambiguella)
B.722 Plnh. General non-fine hair snout moth's larva
B.723 Plnh. The kind that steinernema belongs to
B.724 Plnh. The Sudan cotton bollworm
B.725 Plnh. Jin Gang bores the kind that belongs to
B.726 Plnh. The kind that meal moth belongs to
B.727 Plnh. The kind of Heliothis
B.728 Plnh. Hellula undalis
B.729 Plnh. Tomato stem gelechiid
B.730 Plnh. Pear leaf blister moth
B.731 Plnh. The kind that thin moth belongs to
B.732 Plnh. Flower wing steinernema belongs to (Lobesia) botrana
B.733 Plnh. European corn borer
B.734 Plnh. The kind of brown epiblema
B.735 Plnh. Pectinophora gossypiella
B.736 Plnh. The mandarin orange lyonetid
B.737 Plnh. The kind that miller belongs to
B.738 Plnh. Diamond-back moth
B.739 Plnh. The kind that white standing grain snout moth's larva belongs to
B.740 Plnh. The kind of moth stem Noctua
B.741 Plnh. The long kind that must roll up the moth genus
B.742 Plnh. The kind of Spodoptera
B.743 Plnh. The kind that the volume moth belongs to
B.744 Plnh. The amyloid plaque noctuid
B.745 Plnh. The kind of Agriotes spp
B.746 Plnh. Mexico's cotton boll resembles
B.747 Plnh. The kind of Curculio
B.748 Plnh. Band spot cucumber is chrysomelid
B.749 Plnh. The kind that colorado potato beetles belong to
B.750 Plnh. Rice water resembles the kind of genus
B.751 Plnh. Ear resembles the kind of genus
B.752 Plnh. The kind that wolly whitefly belongs to
B.753 Plnh. The kind of Aleyrodes
B.754 Plnh. The kind that the kidney Aspidiotus belongs to
B.755 Plnh. Aphidiadae
B.756 Plnh. The kind of Aphis
B.757 Plnh. Sweet potato whitefly
B.758 Plnh. The kind of Empoasca flavescens
B.759 Plnh. The kind of tumor aphid genus
B.760 Plnh. The kind that rice leafhopper belongs to
B.761 Plnh. The kind that brown planthopper belongs to
B.762 Plnh. The kind that mealybug belongs to
B.763 Plnh. The kind of Psylla spp
B.764 Plnh. The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.765 Plnh. The kind of y-bend Aphis
B.766 Plnh. The kind of knot wing Aleyrodes
B.767 Plnh. The kind that liriomyza bryoniae belongs to
B.768 Plnh. The kind that wheat stem chloropid fly belongs to
B.769 Plnh. The kind of grass Hylemyia
B.770 Plnh. The kind that flower thrips belongs to
B.771 Plnh. The kind of Thrips
B.772 Plnh. The orange thrips in South Africa
B.773 Plnh. The kind that the knurl mite belongs to
B.774 Plnh. The kind of thorn Eriophyes
B.775 Plnh. The kind of short whisker Acarapis
B.776 Plnh. The kind that Panonychus citri belongs to
B.777 Plnh. The kind that the wrinkle leaf Aculus belongs to
B.778 Plnh. The kind of Tetranychus
B.779 Plnh. The kind of Heterodera
B.780 Plnh. The kind of Meloidogyne
B.781 Plec The kind that Adoxophyes spp belongs to
B.782 Plec The kind that the ground tiger belongs to
B.783 Plec Cotton leaf noctuid
B.784 Plec The soybean noctuid
B.785 Plec The kind of straw borer spp
B.786 Plec Grape codling moth (Clysia ambiguella)
B.787 Plec General non-fine hair snout moth's larva
B.788 Plec The kind that steinernema belongs to
B.789 Plec The Sudan cotton bollworm
B.790 Plec Jin Gang bores the kind that belongs to
B.791 Plec The kind that meal moth belongs to
B.792 Plec The kind of Heliothis
B.793 Plec Hellula undalis
B.794 Plec Tomato stem gelechiid
B.795 Plec Pear leaf blister moth
B.796 Plec The kind that thin moth belongs to
B.797 Plec Flower wing steinernema belongs to (Lobesia) botrana
B.798 Plec European corn borer
B.799 Plec The kind of brown epiblema
B.800 Plec Pectinophora gossypiella
B.801 Plec The mandarin orange lyonetid
B.802 Plec The kind that miller belongs to
B.803 Plec Diamond-back moth
B.804 Plec The kind that white standing grain snout moth's larva belongs to
B.805 Plec The kind of moth stem Noctua
B.806 Plec The long kind that must roll up the moth genus
B.807 Plec The kind of Spodoptera
B.808 Plec The kind that the volume moth belongs to
B.809 Plec The amyloid plaque noctuid
B.810 Plec The kind of Agriotes spp
B.811 Plec Mexico's cotton boll resembles
B.812 Plec The kind of Curculio
B.813 Plec Band spot cucumber is chrysomelid
B.814 Plec The kind that colorado potato beetles belong to
B.815 Plec Rice water resembles the kind of genus
B.816 Plec Ear resembles the kind of genus
B.817 Plec The kind that wolly whitefly belongs to
B.818 Plec The kind of Aleyrodes
B.819 Plec The kind that the kidney Aspidiotus belongs to
B.820 Plec Aphidiadae
B.821 Plec The kind of Aphis
B.822 Plec Sweet potato whitefly
B.823 Plec The kind of Empoasca flavescens
B.824 Plec The kind of tumor aphid genus
B.825 Plec The kind that rice leafhopper belongs to
B.826 Plec The kind that brown planthopper belongs to
B.827 Plec The kind that mealybug belongs to
B.828 Plec The kind of Psylla spp
B.829 Plec The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.830 Plec The kind of y-bend Aphis
B.831 Plec The kind of knot wing Aleyrodes
B.832 Plec The kind that liriomyza bryoniae belongs to
B.833 Plec The kind that wheat stem chloropid fly belongs to
B.834 Plec The kind of grass Hylemyia
B.835 Plec The kind that flower thrips belongs to
B.836 Plec The kind of Thrips
B.837 Plec The orange thrips in South Africa
B.838 Plec The kind that the knurl mite belongs to
B.839 Plec The kind of thorn Eriophyes
B.840 Plec The kind of short whisker Acarapis
B.841 Plec The kind that Panonychus citri belongs to
B.842 Plec The kind that the wrinkle leaf Aculus belongs to
B.843 Plec The kind of Tetranychus
B.844 Plec The kind of Heterodera
B.845 Plec The kind of Meloidogyne
B.846 Aggl. The kind that Adoxophyes spp belongs to
B.847 Aggl. The kind that the ground tiger belongs to
B.848 Aggl. Cotton leaf noctuid
B.849 Aggl. The soybean noctuid
B.850 Aggl. The kind of straw borer spp
B.851 Aggl. Grape codling moth (Clysia ambiguella)
B.852 Aggl. General non-fine hair snout moth's larva
B.853 Aggl. The kind that steinernema belongs to
B.854 Aggl. The Sudan cotton bollworm
B.855 Aggl. Jin Gang bores the kind that belongs to
B.856 Aggl. The kind that meal moth belongs to
B.857 Aggl. The kind of Heliothis
B.858 Aggl. Hellula undalis
B.859 Aggl. Tomato stem gelechiid
B.860 Aggl. Pear leaf blister moth
B.861 Aggl. The kind that thin moth belongs to
B.862 Aggl. Flower wing steinernema belongs to (Lobesia) botrana
B.863 Aggl. European corn borer
B.864 Aggl. The kind of brown epiblema
B.865 Aggl. Pectinophora gossypiella
B.866 Aggl. The mandarin orange lyonetid
B.867 Aggl. The kind that miller belongs to
B.868 Aggl. Diamond-back moth
B.869 Aggl. The kind that white standing grain snout moth's larva belongs to
B.870 Aggl. The kind of moth stem Noctua
B.871 Aggl. The long kind that must roll up the moth genus
B.872 Aggl. The kind of Spodoptera
B.873 Aggl. The kind that the volume moth belongs to
B.874 Aggl. The amyloid plaque noctuid
B.875 Aggl. The kind of Agriotes spp
B.876 Aggl. Mexico's cotton boll resembles
B.877 Aggl. The kind of Curculio
B.878 Aggl. Band spot cucumber is chrysomelid
B.879 Aggl. The kind that colorado potato beetles belong to
B.880 Aggl. Rice water resembles the kind of genus
B.881 Aggl. Ear resembles the kind of genus
B.882 Aggl. The kind that wolly whitefly belongs to
B.883 Aggl. The kind of Aleyrodes
B.884 Aggl. The kind that the kidney Aspidiotus belongs to
B.885 Aggl. Aphidiadae
B.886 Aggl. The kind of Aphis
B.887 Aggl. Sweet potato whitefly
B.888 Aggl. The kind of Empoasca flavescens
B.889 Aggl. The kind of tumor aphid genus
B.890 Aggl. The kind that rice leafhopper belongs to
B.891 Aggl. The kind that brown planthopper belongs to
B.892 Aggl. The kind that mealybug belongs to
B.893 Aggl. The kind of Psylla spp
B.894 Aggl. The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.895 Aggl. The kind of y-bend Aphis
B.896 Aggl. The kind of knot wing Aleyrodes
B.897 Aggl. The kind that liriomyza bryoniae belongs to
B.898 Aggl. The kind that wheat stem chloropid fly belongs to
B.899 Aggl. The kind of grass Hylemyia
B.900 Aggl. The kind that flower thrips belongs to
B.901 Aggl. The kind of Thrips
B.902 Aggl. The orange thrips in South Africa
B.903 Aggl. The kind that the knurl mite belongs to
B.904 Aggl. The kind of thorn Eriophyes
B.905 Aggl. The kind of short whisker Acarapis
B.906 Aggl. The kind that Panonychus citri belongs to
B.907 Aggl. The kind that the wrinkle leaf Aculus belongs to
B.908 Aggl. The kind of Tetranychus
B.909 Aggl. The kind of Heterodera
B.910 Aggl. The kind of Meloidogyne
B.911 CO The kind that Adoxophyes spp belongs to
B.912 CO The kind that the ground tiger belongs to
B.913 CO Cotton leaf noctuid
B.914 CO The soybean noctuid
B.915 CO The kind of straw borer spp
B.916 CO Grape codling moth (Clysia ambiguella)
B.917 CO General non-fine hair snout moth's larva
B.918 CO The kind that steinernema belongs to
B.919 CO The Sudan cotton bollworm
B.920 CO Jin Gang bores the kind that belongs to
B.921 CO The kind that meal moth belongs to
B.922 CO The kind of Heliothis
B.923 CO Hellula undalis
B.924 CO Tomato stem gelechiid
B.925 CO Pear leaf blister moth
B.926 CO The kind that thin moth belongs to
B.927 CO Flower wing steinernema belongs to (Lobesia) botrana
B.928 CO European corn borer
B.929 CO The kind of brown epiblema
B.930 CO Pectinophora gossypiella
B.931 CO The mandarin orange lyonetid
B.932 CO The kind that miller belongs to
B.933 CO Diamond-back moth
B.934 CO The kind that white standing grain snout moth's larva belongs to
B.935 CO The kind of moth stem Noctua
B.936 CO The long kind that must roll up the moth genus
B.937 CO The kind of Spodoptera
B.938 CO The kind that the volume moth belongs to
B.939 CO The amyloid plaque noctuid
B.940 CO The kind of Agriotes spp
B.941 CO Mexico's cotton boll resembles
B.942 CO The kind of Curculio
B.943 CO Band spot cucumber is chrysomelid
B.944 CO The kind that colorado potato beetles belong to
B.945 CO Rice water resembles the kind of genus
B.946 CO Ear resembles the kind of genus
B.947 CO The kind that wolly whitefly belongs to
B.948 CO The kind of Aleyrodes
B.949 CO The kind that the kidney Aspidiotus belongs to
B.950 CO Aphidiadae
B.951 CO The kind of Aphis
B.952 CO Sweet potato whitefly
B.953 CO The kind of Empoasca flavescens
B.954 CO The kind of tumor aphid genus
B.955 CO The kind that rice leafhopper belongs to
B.956 CO The kind that brown planthopper belongs to
B.957 CO The kind that mealybug belongs to
B.958 CO The kind of Psylla spp
B.959 CO The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.960 CO The kind of y-bend Aphis
B.961 CO The kind of knot wing Aleyrodes
B.962 CO The kind that liriomyza bryoniae belongs to
B.963 CO The kind that wheat stem chloropid fly belongs to
B.964 CO The kind of grass Hylemyia
B.965 CO The kind that flower thrips belongs to
B.966 CO The kind of Thrips
B.967 CO The orange thrips in South Africa
B.968 CO The kind that the knurl mite belongs to
B.969 CO The kind of thorn Eriophyes
B.970 CO The kind of short whisker Acarapis
B.971 CO The kind that Panonychus citri belongs to
B.972 CO The kind that the wrinkle leaf Aculus belongs to
B.973 CO The kind of Tetranychus
B.974 CO The kind of Heterodera
B.975 CO The kind of Meloidogyne
B.976 CH The kind that Adoxophyes spp belongs to
B.977 CH The kind that the ground tiger belongs to
B.978 CH Cotton leaf noctuid
B.979 CH The soybean noctuid
B.980 CH The kind of straw borer spp
B.981 CH Grape codling moth (Clysia ambiguella)
B.982 CH General non-fine hair snout moth's larva
B.983 CH The kind that steinernema belongs to
B.984 CH The Sudan cotton bollworm
B.985 CH Jin Gang bores the kind that belongs to
B.986 CH The kind that meal moth belongs to
B.987 CH The kind of Heliothis
B.988 CH Hellula undalis
B.989 CH Tomato stem gelechiid
B.990 CH Pear leaf blister moth
B.991 CH The kind that thin moth belongs to
B.992 CH Flower wing steinernema belongs to (Lobesia) botrana
B.993 CH European corn borer
B.994 CH The kind of brown epiblema
B.995 CH Pectinophora gossypiella
B.996 CH The mandarin orange lyonetid
B.997 CH The kind that miller belongs to
B.998 CH Diamond-back moth
B.999 CH The kind that white standing grain snout moth's larva belongs to
B.1000 CH The kind of moth stem Noctua
B.1001 CH The long kind that must roll up the moth genus
B.1002 CH The kind of Spodoptera
B.1003 CH The kind that the volume moth belongs to
B.1004 CH The amyloid plaque noctuid
B.1005 CH The kind of Agriotes spp
B.1006 CH Mexico's cotton boll resembles
B.1007 CH The kind of Curculio
B.1008 CH Band spot cucumber is chrysomelid
B.1009 CH The kind that colorado potato beetles belong to
B.1010 CH Rice water resembles the kind of genus
B.1011 CH Ear resembles the kind of genus
B.1012 CH The kind that wolly whitefly belongs to
B.1013 CH The kind of Aleyrodes
B.1014 CH The kind that the kidney Aspidiotus belongs to
B.1015 CH Aphidiadae
B.1016 CH The kind of Aphis
B.1017 CH Sweet potato whitefly
B.1018 CH The kind of Empoasca flavescens
B.1019 CH The kind of tumor aphid genus
B.1020 CH The kind that rice leafhopper belongs to
B.1021 CH The kind that brown planthopper belongs to
B.1022 CH The kind that mealybug belongs to
B.1023 CH The kind of Psylla spp
B.1024 CH The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.1025 CH The kind of y-bend Aphis
B.1026 CH The kind of knot wing Aleyrodes
B.1027 CH The kind that liriomyza bryoniae belongs to
B.1028 CH The kind that wheat stem chloropid fly belongs to
B.1029 CH The kind of grass Hylemyia
B.1030 CH The kind that flower thrips belongs to
B.1031 CH The kind of Thrips
B.1032 CH The orange thrips in South Africa
B.1033 CH The kind that the knurl mite belongs to
B.1034 CH The kind of thorn Eriophyes
B.1035 CH The kind of short whisker Acarapis
B.1036 CH The kind that Panonychus citri belongs to
B.1037 CH The kind that the wrinkle leaf Aculus belongs to
B.1038 CH The kind of Tetranychus
B.1039 CH The kind of Heterodera
B.1040 CH The kind of Meloidogyne
B.1041 SS The kind that Adoxophyes spp belongs to
B.1042 SS The kind that the ground tiger belongs to
B.1043 SS Cotton leaf noctuid
B.1044 SS The soybean noctuid
B.1045 SS The kind of straw borer spp
B.1046 SS Grape codling moth (Clysia ambiguella)
B.1047 SS General non-fine hair snout moth's larva
B.1048 SS The kind that steinernema belongs to
B.1049 SS The Sudan cotton bollworm
B.1050 SS Jin Gang bores the kind that belongs to
B.1051 SS The kind that meal moth belongs to
B.1052 SS The kind of Heliothis
B.1053 SS Hellula undalis
B.1054 SS Tomato stem gelechiid
B.1055 SS Pear leaf blister moth
B.1056 SS The kind that thin moth belongs to
B.1057 SS Flower wing steinernema belongs to (Lobesia) botrana
B.1058 SS European corn borer
B.1059 SS The kind of brown epiblema
B.1060 SS Pectinophora gossypiella
B.1061 SS The mandarin orange lyonetid
B.1062 SS The kind that miller belongs to
B.1063 SS Diamond-back moth
B.1064 SS The kind that white standing grain snout moth's larva belongs to
B.1065 SS The kind of moth stem Noctua
B.1066 SS The long kind that must roll up the moth genus
B.1067 SS The kind of Spodoptera
B.1068 SS The kind that the volume moth belongs to
B.1069 SS The amyloid plaque noctuid
B.1070 SS The kind of Agriotes spp
B.1071 SS Mexico's cotton boll resembles
B.1072 SS The kind of Curculio
B.1073 SS Band spot cucumber is chrysomelid
B.1074 SS The kind that colorado potato beetles belong to
B.1075 SS Rice water resembles the kind of genus
B.1076 SS Ear resembles the kind of genus
B.1077 SS The kind that wolly whitefly belongs to
B.1078 SS The kind of Aleyrodes
B.1079 SS The kind that the kidney Aspidiotus belongs to
B.1080 SS Aphidiadae
B.1081 SS The kind of Aphis
B.1082 SS Sweet potato whitefly
B.1083 SS The kind of Empoasca flavescens
B.1084 SS The kind of tumor aphid genus
B.1085 SS The kind that rice leafhopper belongs to
B.1086 SS The kind that brown planthopper belongs to
B.1087 SS The kind that mealybug belongs to
B.1088 SS The kind of Psylla spp
B.1089 SS The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.1090 SS The kind of y-bend Aphis
B.1091 SS The kind of knot wing Aleyrodes
B.1092 SS The kind that liriomyza bryoniae belongs to
B.1093 SS The kind that wheat stem chloropid fly belongs to
B.1094 SS The kind of grass Hylemyia
B.1095 SS The kind that flower thrips belongs to
B.1096 SS The kind of Thrips
B.1097 SS The orange thrips in South Africa
B.1098 SS The kind that the knurl mite belongs to
B.1099 SS The kind of thorn Eriophyes
B.1100 SS The kind of short whisker Acarapis
B.1101 SS The kind that Panonychus citri belongs to
B.1102 SS The kind that the wrinkle leaf Aculus belongs to
B.1103 SS The kind of Tetranychus
B.1104 SS The kind of Heterodera
B.1105 SS The kind of Meloidogyne
B.1106 HO The kind that Adoxophyes spp belongs to
B.1107 HO The kind that the ground tiger belongs to
B.1108 HO Cotton leaf noctuid
B.1109 HO The soybean noctuid
B.1110 HO The kind of straw borer spp
B.1111 HO Grape codling moth (Clysia ambiguella)
B.1112 HO General non-fine hair snout moth's larva
B.1113 HO The kind that steinernema belongs to
B.1114 HO The Sudan cotton bollworm
B.1115 HO Jin Gang bores the kind that belongs to
B.1116 HO The kind that meal moth belongs to
B.1117 HO The kind of Heliothis
B.1118 HO Hellula undalis
B.1119 HO Tomato stem gelechiid
B.1120 HO Pear leaf blister moth
B.1121 HO The kind that thin moth belongs to
B.1122 HO Flower wing steinernema belongs to (Lobesia) botrana
B.1123 HO European corn borer
B.1124 HO The kind of brown epiblema
B.1125 HO Pectinophora gossypiella
B.1126 HO The mandarin orange lyonetid
B.1127 HO The kind that miller belongs to
B.1128 HO Diamond-back moth
B.1129 HO The kind that white standing grain snout moth's larva belongs to
B.1130 HO The kind of moth stem Noctua
B.1131 HO The long kind that must roll up the moth genus
B.1132 HO The kind of Spodoptera
B.1133 HO The kind that the volume moth belongs to
B.1134 HO The amyloid plaque noctuid
B.1135 HO The kind of Agriotes spp
B.1136 HO Mexico's cotton boll resembles
B.1137 HO The kind of Curculio
B.1138 HO Band spot cucumber is chrysomelid
B.1139 HO The kind that colorado potato beetles belong to
B.1140 HO Rice water resembles the kind of genus
B.1141 HO Ear resembles the kind of genus
B.1142 HO The kind that wolly whitefly belongs to
B.1143 HO The kind of Aleyrodes
B.1144 HO The kind that the kidney Aspidiotus belongs to
B.1145 HO Aphidiadae
B.1146 HO The kind of Aphis
B.1147 HO Sweet potato whitefly
B.1148 HO The kind of Empoasca flavescens
B.1149 HO The kind of tumor aphid genus
B.1150 HO The kind that rice leafhopper belongs to
B.1151 HO The kind that brown planthopper belongs to
B.1152 HO The kind that mealybug belongs to
B.1153 HO The kind of Psylla spp
B.1154 HO The kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to
B.1155 HO The kind of y-bend Aphis
B.1156 HO The kind of knot wing Aleyrodes
B.1157 HO The kind that liriomyza bryoniae belongs to
B.1158 HO The kind that wheat stem chloropid fly belongs to
B.1159 HO The kind of grass Hylemyia
B.1160 HO The kind that flower thrips belongs to
B.1161 HO The kind of Thrips
B.1162 HO The orange thrips in South Africa
B.1163 HO The kind that the knurl mite belongs to
B.1164 HO The kind of thorn Eriophyes
B.1165 HO The kind of short whisker Acarapis
B.1166 HO The kind that Panonychus citri belongs to
B.1167 HO The kind that the wrinkle leaf Aculus belongs to
B.1168 HO The kind of Tetranychus
B.1169 HO The kind of Heterodera
B.1170 HO The kind of Meloidogyne
Biology embodiment
Table 1: a kind of method of pest control comprises to transgene cotton and uses Avermectin that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 2: a kind of method of pest control comprises to the transgenosis rice and uses Avermectin that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 3: a kind of method of pest control comprises to transgenic potato and uses Avermectin that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 4: a kind of method of pest control comprises to the transgenosis rape and uses Avermectin that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 5: a kind of method of pest control comprises to transgene tomato and uses Avermectin that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 6: a kind of method of pest control comprises to the transgenosis cucurbit and uses Avermectin that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 7: a kind of method of pest control comprises to genetically engineered soybean and uses Avermectin that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 8: a kind of method of pest control comprises to transgenic corns and uses Avermectin that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 9: a kind of method of pest control comprises to transgenic wheat and uses Avermectin that the combination of the insect of active ingredient that genetically modified plants are wherein expressed and pre-control is corresponding to the row of table B.
Table 10: a kind of method of pest control comprises to the transgenosis banana and uses Avermectin that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 11: a kind of method of pest control comprises to the transgenosis orange tree and uses Avermectin that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 12: a kind of method of pest control comprises to transgenosis pomaceous fruits tree and uses Avermectin that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 13: a kind of method of pest control comprises to transgene cotton and uses the Emamectin-benzoate that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 14: a kind of method of pest control comprises to the transgenosis rice and uses the Emamectin-benzoate that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 15: a kind of method of pest control comprises to transgenic potato and uses the Emamectin-benzoate that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 16: a kind of method of pest control comprises to transgene tomato and uses the Emamectin-benzoate that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 17: a kind of method of pest control comprises to the transgenosis cucurbit and uses the Emamectin-benzoate that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 18: a kind of method of pest control comprises to genetically engineered soybean and uses the Emamectin-benzoate that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 19: a kind of method of pest control comprises to transgenic corns and uses the Emamectin-benzoate that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 20: a kind of method of pest control comprises to transgenic wheat and uses the Emamectin-benzoate that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 21: a kind of method of pest control comprises to the transgenosis banana and uses the Emamectin-benzoate that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 22: a kind of method of pest control comprises to transgenosis tangerine tree and uses the Emamectin-benzoate that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 23: a kind of method of pest control comprises to transgenosis pomaceous fruits tree and uses the Emamectin-benzoate that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 24: a kind of method of pest control comprises to the transgenosis cucurbit and uses the Emamectin-benzoate that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 25: a kind of method of pest control comprises to transgene cotton and uses Spinosad that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 26: a kind of method of pest control comprises to the transgenosis rice and uses Spinosad that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 27: a kind of method of pest control comprises to transgenic potato and uses Spinosad that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 28: a kind of method of pest control comprises to the transgenosis rape and uses Spinosad that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 29: a kind of method of pest control comprises to transgene tomato and uses Spinosad that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 30: a kind of method of pest control comprises to the transgenosis cucurbit and uses Spinosad that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 31: a kind of method of pest control comprises to genetically engineered soybean and uses Spinosad that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 32: a kind of method of pest control comprises to transgenic corns and uses Spinosad that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 33: a kind of method of pest control comprises to transgenic wheat and uses Spinosad that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 34: a kind of method of pest control comprises to the transgenosis banana and uses Spinosad that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 35: a kind of method of pest control comprises to the transgenosis orange tree and uses Spinosad that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table 36: a kind of method of pest control comprises to transgenosis pomaceous fruits tree and uses Spinosad that wherein the combination of the insect of the active ingredient of genetically modified plants expression and desire control is corresponding to the row among the table B.
Table C:
Abbreviation:
Acetyl-CoA carboxylase: ACCase
Acetolactate synthase: ALS
Hydroxyphenyl pyruvic acid dioxygenase: HPPD
The inhibition of protein synthesis: IPS
Synthetic hormone: HO
Glutamine synthelase: GS
Proporphyrinogen oxidase: PROTOX
5-enol pyruvoyl-3-phosphoric acid shikimic acid synthase: EPSPS
Composition The tolerance object Crop
C.1 ALS Sulfonylurea etc., * * * Cotton
C.2 ALS Sulfonylurea etc., * * * Rice
C.3 ALS Sulfonylurea etc., * * * Rape
C.4 ALS Sulfonylurea etc., * * * Potato
C.5 ALS Sulfonylurea etc., * * * Tomato
C.6 ALS Sulfonylurea etc., * * * Cucurbit
C.7 ALS Sulfonylurea etc., * * * Soybean
C.8 ALS Sulfonylurea etc., * * * Corn
C.9 ALS Sulfonylurea etc., * * * Wheat
C.10 ALS Sulfonylurea etc., * * * The operatic circle
C.11 ALS Sulfonylurea etc., * * * Drupe
C.12 ALS Sulfonylurea etc., * * * Citrus
C.13 ACCase +++ Cotton
C.14 ACCase +++ Rice
C.15 ACCase +++ Rape
C.16 ACCase +++ Potato
C.17 ACCase +++ Tomato
C.18 ACCase +++ Cucurbit
C.19 ACCase +++ Soybean
C.20 ACCase +++ Corn
C.21 ACCase +++ Wheat
C.22 ACCase +++ The operatic circle
C.23 ACCase +++ Drupe
C.24 ACCase +++ Citrus
C.25 HPPD Yi Evil fluorine grass, Isoxachlotol, sulphur humulone, Mesotrion Cotton
C.26 HPPD Yi Evil fluorine grass, Isoxachlotol, sulphur humulone, Mesotrion Rice
C.27 HPPD Yi Evil fluorine grass, Isoxachlotol, sulphur humulone, Mesotrion Rape
C.28 HPPD Yi Evil fluorine grass, Isoxachlotol, sulphur humulone, Mesotrion Potato
C.29 HPPD Yi Evil fluorine grass, Isoxachlotol, sulphur humulone, Mesotrion Tomato
C.30 HPPD Yi Evil fluorine grass, Isoxachlotol, sulphur humulone, Mesotrion Cucurbit
C.31 HPPD Yi Evil fluorine grass, Isoxachlotol, sulphur humulone, Mesotrion Soybean
C.32 HPPD Yi Evil fluorine grass, Isoxachlotol, sulphur humulone, Mesotrion Corn
C.33 HPPD Yi Evil fluorine grass, Isoxachlotol, sulphur humulone, Mesotrion Wheat
C.34 HPPD Yi Evil fluorine grass, Isoxachlotol, sulphur humulone, Mesotrion The operatic circle
C.35 HPPD Yi Evil fluorine grass, Isoxachlotol, sulphur humulone, Mesotrion Drupe
C.36 HPPD Yi Evil fluorine grass, Isoxachlotol, sulphur humulone, Mesotrion Citrus
C.37 Nitrilase Brominal, ioxynil Cotton
C.38 Nitrilase Brominal, ioxynil Rice
C.39 Nitrilase Brominal, ioxynil Rape
C.40 Nitrilase Brominal, ioxynil Potato
C.41 Nitrilase Brominal, ioxynil Tomato
C.42 Nitrilase Brominal, ioxynil Cucurbit
C.43 Nitrilase Brominal, ioxynil Soybean
C.44 Nitrilase Brominal, ioxynil Corn
C.45 Nitrilase Brominal, ioxynil Wheat
C.46 Nitrilase Brominal, ioxynil The operatic circle
C.47 Nitrilase Brominal, ioxynil Drupe
C.48 Nitrilase Brominal, ioxynil Citrus
C.49 IPS The chloracetophenone amine Cotton
C.50 IPS The chloracetophenone amine Rice
C.51 IPS The chloracetophenone amine Rape
C.52 IPS The chloracetophenone amine Potato
C.53 IPS The chloracetophenone amine Tomato
C.54 IPS The chloracetophenone amine Cucurbit
C.55 IPS The chloracetophenone amine Soybean
C.56 IPS The chloracetophenone amine Corn
C.57 IPS The chloracetophenone amine Wheat
C.58 IPS The chloracetophenone amine The operatic circle
C.59 IPS The chloracetophenone amine Drupe
C.60 IPS The chloracetophenone amine Citrus
C.61 HOM 2,4-D, mecopropP Cotton
C.62 HOM 2,4-D, mecopropP Rice
C.63 HOM 2,4-D, mecopropP Rape
C.64 HOM 2,4-D, mecopropP Potato
C.65 HOM 2,4-D, mecopropP Tomato
C.66 HOM 2,4-D, mecopropP Cucurbit
C.67 HOM 2,4-D, mecopropP Soybean
C.68 HOM 2,4-D, mecopropP Corn
C.69 HOM 2,4-D, mecopropP Wheat
C.70 HOM 2,4-D, mecopropP The operatic circle
C.71 HOM 2,4-D, mecopropP Drupe
C.72 HOM 2,4-D, mecopropP Citrus
C.73 PROTOX The Protox inhibitor /// Cotton
C.74 PROTOX The Protox inhibitor /// Rice
C.75 PROTOX The Protox inhibitor /// Rape
C.76 PROTOX The Protox inhibitor /// Potato
C.77 PROTOX The Protox inhibitor /// Tomato
C.78 PROTOX The Protox inhibitor /// Cucurbit
C.79 PROTOX The Protox inhibitor /// Soybean
C.80 PROTOX The Protox inhibitor /// Corn
C.81 PROTOX The Protox inhibitor /// Wheat
C.82 PROTOX The Protox inhibitor /// The operatic circle
C.83 PROTOX The Protox inhibitor /// Drupe
C.84 PROTOX The Protox inhibitor /// Citrus
C.85 EPSPS Glyphosate and/or sulphosate Cotton
C.86 EPSPS Glyphosate and/or sulphosate Rice
C.87 EPSPS Glyphosate and/or sulphosate Rape
C.88 EPSPS Glyphosate and/or sulphosate Potato
C.89 EPSPS Glyphosate and/or sulphosate Tomato
C.90 EPSPS Glyphosate and/or sulphosate Cucurbit
C.91 EPSPS Glyphosate and/or sulphosate Soybean
C.92 EPSPS Glyphosate and/or sulphosate Corn
C.93 EPSPS Glyphosate and/or sulphosate Wheat
C.94 EPSPS Glyphosate and/or sulphosate The operatic circle
C.95 EPSPS Glyphosate and/or sulphosate Drupe
C.96 EPSPS Glyphosate and/or sulphosate Citrus
C.97 GS Grass ammonium phosphine and/or bialaphos Cotton
C.98 GS Grass ammonium phosphine and/or bialaphos Rice
C.99 GS Grass ammonium phosphine and/or bialaphos Rape
C.100 GS Grass ammonium phosphine and/or bialaphos Potato
C.101 GS Grass ammonium phosphine and/or bialaphos Tomato
C.102 GS Grass ammonium phosphine and/or bialaphos Cucurbit
C.103 GS Grass ammonium phosphine and/or bialaphos Soybean
C.104 GS Grass ammonium phosphine and/or bialaphos Corn
C.105 GS Grass ammonium phosphine and/or bialaphos Wheat
C.106 GS Grass ammonium phosphine and/or bialaphos The operatic circle
C.107 GS Grass ammonium phosphine and/or bialaphos Drupe
C.108 GS Grass ammonium phosphine and/or bialaphos Citrus
* * comprises sulfonylurea, imidazolone type, triazolo pyrimidine class, dimethoxypyridin class and N-acyl group sulfonamides:
Sulfonylurea such as chlorine sulphur are grand, chlorimuronethyl, ethametsulfuron, metsulfuron-methyl, primisulfuronmethyl, prosulfuron, triasulfuron, cinosulfuron, triflusulfuronmethyl, it is grand to encircle the third oxygen sulphur, bensulfuron-methyl, tribenuron-methyl, ACC 322140, Fluzasulfuron, ethoxysulfuron, Fluzasdulfuron, nicosulfuron, rimsulfuron, thifensulfuronmethyl, pyrazosulfuron, Clopyrasulfuron, NC 330, azimsulfuron, imazosulfuron, lead ethyl xanthate is yellow grand, amidosulfuron, fluorine pyridine sulphur is grand, CGA 362622;
Imidazolone type such as miaow oxalic acid, imazaquin, imazamethypyr, imazethapyr, imidazoles nicotinic acid and imazamox;
Triazolo pyrimidine class such as DE 511, Flumetsulam and Chloransulam;
SDM class such as pyrithiobac-sodium, oxime pyridine grass, two careless ether and phonetic benzene grass oxime.
+++tolerance diclofop-methyl, efficient fluazifop, haloxyfop-methyl, the spirit of smart fluorine pyrrole second standing grain, Quizalotop-ethyl, alkynes oxalic acid, fenoxaprop, Tepraloxydim, alloxydimsodium, sethoxydim, cycloxydim, cyclohexene humulone, tralkoxydim, Butoxydim, quinone oximes grass, Clefoxydim, clethodim.
﹠amp; ﹠amp; ﹠amp; Chloracetophenone amine such as alachlor, Acetochlor, dimethenamid.
///Protox inhibitor, for example diphenyl ether such as acifluorfen, aclonifen, bifenox, Mo 9 granular, Ethoxyfen, fluoroglycofen-ethyl, fomesafen, lactofen, Oxyfluorfen; Imidodicarbonic diamide such as azoles pyridine alkynes grass, fluorine ketazolam grass, Cinidon-ethyl, Flumiclorac pentyl, flumioxazin, reach careless fluorine, Que Bing oxazole Cao, Evil humulone, Wu oxazole grass, sulfentrazone, imidodicarbonic diamide and other is as Flumipropyn, Flupropacil, nipyralofen and thiadiazoles amine; Also have Fluazolate and fluorine carfentrazone.
Biology embodiment
Table 39: a kind of representative biological method of preventing and treating the Adoxophyes spp genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 40: a kind of representative biological method of preventing and treating ground tiger genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 41: a kind of method of preventing and treating cotton leaf noctuid comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 42: a kind of method of preventing and treating the soybean noctuid comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 43: a kind of representative biological method of preventing and treating straw borer spp comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 44: a kind of method of preventing and treating grape codling moth (Clysia ambiguella) comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 45: the representative biological method that a kind of control Cnaphalocrocis spp (Cnephalocrocis) belongs to; comprise to the genetically modified crops of herbicide-tolerant and use Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 46: a kind of method of preventing and treating general non-fine hair snout moth's larva comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 47: a kind of representative biological method of preventing and treating the steinernema genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 48: a kind of method of preventing and treating the Sudan cotton bollworm comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 49: a kind ofly prevent and treat golden steel and bore the representative biological method that belongs to, comprise to the genetically modified crops of herbicide-tolerant and use Avermectin, wherein its combination of crop that is not subjected to this insect infringement of the active ingredient and protection expressed of genetically modified plants is corresponding to the row among the table C.
Table 50: a kind of representative biological method of preventing and treating the meal moth genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 51: a kind of representative biological method of preventing and treating Heliothis comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 52: a kind of method of preventing and treating Hellula undalis comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 53: a kind of method of preventing and treating tomato stem gelechiid comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 54: a kind of method of preventing and treating pear leaf blister moth comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 55: a kind of representative biological method of preventing and treating thin moth genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 56: a kind of control flower wing steinernema belongs to the method for (Lobesia) botrana; comprise to the genetically modified crops of herbicide-tolerant and use Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 57: a kind of method of preventing and treating European corn borer comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 58: a kind of representative biological method of preventing and treating brown epiblema comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 59: a kind of method of preventing and treating Pectinophora gossypiella comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 60: a kind of method of preventing and treating the mandarin orange lyonetid comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 61: a kind of representative biological method of preventing and treating Pier comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 62: a kind of method of preventing and treating diamond-back moth comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 63: a kind of representative biological method of preventing and treating white standing grain snout moth's larva genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 64: a kind of representative biological method of eating into the stem Noctua of preventing and treating comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 65: a kind ofly prevent and treat the long representative biological method that must the volume moth belongs to, comprise to the genetically modified crops of herbicide-tolerant and use Avermectin, wherein its combination of crop that is not subjected to this insect infringement of the active ingredient and protection expressed of genetically modified plants is corresponding to the row among the table C.
Table 66: a kind of representative biological method of preventing and treating Spodoptera comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 67: a kind of representative biological method of preventing and treating volume moth genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 68: a kind of method of preventing and treating the amyloid plaque noctuid comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 69: a kind of representative biological method of preventing and treating Agriotes spp comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 70: a kind of method of preventing and treating Mexico cotton boll elephant comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 71: a kind of representative biological method of preventing and treating Curculio comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 72: a kind of chrysomelid method of band spot cucumber of preventing and treating comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 73: a kind of representative biological method of preventing and treating the colorado potato beetles genus; comprise to the genetically modified crops of herbicide-tolerant and use Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 74: a kind ofly prevent and treat the representative biological method that rice water resembles genus, comprise to the genetically modified crops of herbicide-tolerant and use Avermectin, wherein its combination of crop that is not subjected to this insect infringement of the active ingredient and protection expressed of genetically modified plants is corresponding to the row among the table C.
Table 75: a kind ofly prevent and treat the representative biological method that ear resembles genus, comprise to the genetically modified crops of herbicide-tolerant and use Avermectin, wherein its combination of crop that is not subjected to this insect infringement of the active ingredient and protection expressed of genetically modified plants is corresponding to the row among the table C.
Table 76: a kind of representative biological method of preventing and treating the wolly whitefly genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 77: a kind of representative biological method of preventing and treating Aleyrodes comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 78: a kind of representative biological method of preventing and treating kidney Aspidiotus genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 79: a kind of representative biological method of preventing and treating Aphidiadae comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 80: a kind of representative biological method of preventing and treating Aphis comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 81: a kind of method of preventing and treating sweet potato whitefly comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 82: a kind of representative biological method of preventing and treating Empoasca flavescens comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 83: a kind of representative biological method of preventing and treating tumor aphid genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 84: a kind of representative biological method of preventing and treating the rice leafhopper genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 85: a kind of representative biological method of preventing and treating the brown planthopper genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 86: a kind of representative biological method of preventing and treating the mealybug genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 87: a kind of representative biological method of preventing and treating Psylla spp comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 88: a kind of representative biological method of preventing and treating large bamboo hat with a conical crown and broad brim Aspidiotus genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 89: a kind of representative biological method of preventing and treating the y-bend Aphis comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 90: a kind of representative biological method of tying the wing Aleyrodes of preventing and treating comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 91: a kind of spot representative biological method that rope belongs to of diving of preventing and treating comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein its combination of crop that is not subjected to this insect infringement of the active ingredient and protection expressed of genetically modified plants is corresponding to the row among the table C.
Table 92: a kind of representative biological method of preventing and treating the wheat stem chloropid fly genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 93: a kind of representative biological method of preventing and treating careless Hylemyia comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 94: a kind of representative biological method of preventing and treating the flower thrips genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 95: a kind of representative biological method of preventing and treating Thrips comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 96: a kind of method of preventing and treating the orange thrips in South Africa comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 97: a kind of representative biological method of preventing and treating the aceria genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 98: a kind of representative biological method of stinging Eriophyes of preventing and treating comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 99: a kind of representative biological method of preventing and treating short whisker Acarapis comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 100: a kind of representative biological method of preventing and treating the Panonychus citri genus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 101: a kind of representative biological method of preventing and treating wrinkle leaf Aculus genus; comprise to the genetically modified crops of herbicide-tolerant and use Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 102: a kind of representative biological method of preventing and treating Tetranychus comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 103: a kind of representative biological method of preventing and treating Heterodera comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 104: a kind of representative biological method of preventing and treating Meloidogyne comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 105: a kind of method of preventing and treating tomato moth comprises to the genetically modified crops of herbicide-tolerant and uses Avermectin that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 106: a kind of representative biological method of preventing and treating the Adoxophyes spp genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 107: a kind of representative biological method of preventing and treating ground tiger genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect injury is corresponding to the row among the table C.
Table 108: a kind of method of preventing and treating cotton leaf noctuid comprises to the genetically modified crops of herbicide-tolerant and uses the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect injury is corresponding to the row among the table C.
Table 109: a kind of method of preventing and treating the soybean noctuid comprises to the genetically modified crops of herbicide-tolerant and uses the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect injury is corresponding to the row among the table C.
Table 110: a kind of representative biological method of preventing and treating straw borer spp; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 111: a kind of method of preventing and treating grape codling moth (Clysia ambiguella) comprises to the genetically modified crops of herbicide-tolerant and uses the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 112: a kind of representative biological method of preventing and treating the Cnaphalocrocis spp genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 113: a kind of method of preventing and treating general non-fine hair snout moth's larva comprises to the genetically modified crops of herbicide-tolerant and uses the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 114: a kind of representative biological method of preventing and treating the steinernema genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 115: the method for a kind of control the Sudan cotton bollworm (); comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 116: a kind of representative biological method of preventing and treating golden steel brill genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 117: a kind of representative biological method of preventing and treating the meal moth genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 118: a kind of representative biological method of preventing and treating Heliothis; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 119: a kind of method of preventing and treating Hellula undalis comprises to the genetically modified crops of herbicide-tolerant and uses the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 120: a kind of method of preventing and treating tomato stem gelechiid comprises to the genetically modified crops of herbicide-tolerant and uses the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 121: a kind of method of preventing and treating pear leaf blister moth comprises to the genetically modified crops of herbicide-tolerant and uses the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 122: a kind of representative biological method of preventing and treating thin moth genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 123: a kind of control flower wing steinernema belongs to the method for (Lobesia) botrana; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 124: a kind of method of preventing and treating European corn borer comprises to the genetically modified crops of herbicide-tolerant and uses the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 125: a kind of representative biological method of preventing and treating brown epiblema; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 126: a kind of method of preventing and treating Pectinophora gossypiella comprises to the genetically modified crops of herbicide-tolerant and uses the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 127: a kind of method of preventing and treating the mandarin orange lyonetid comprises to the genetically modified crops of herbicide-tolerant and uses the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 128: a kind of representative biological method of preventing and treating Pier; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 129: a kind of method of preventing and treating diamond-back moth comprises to the genetically modified crops of herbicide-tolerant and uses the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 130: a kind of representative biological method of preventing and treating white standing grain snout moth's larva genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 131: a kind of representative biological method of preventing and treating moth stem Noctua; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 132: a kind of representative biological method of preventing and treating long palpus volume moth genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 133: a kind of representative biological method of preventing and treating Spodoptera; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 134: a kind of representative biological method of preventing and treating volume moth genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 135: a kind of method of preventing and treating the amyloid plaque noctuid comprises to the genetically modified crops of herbicide-tolerant and uses the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 136: a kind of representative biological method of preventing and treating Agriotes spp; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 137: a kind of method of preventing and treating Mexico cotton boll elephant comprises to the genetically modified crops of herbicide-tolerant and uses the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 138: a kind of representative biological method of preventing and treating Curculio; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 139: a kind of chrysomelid method of band spot cucumber of preventing and treating comprises to the genetically modified crops of herbicide-tolerant and uses the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 140: a kind of representative biological method of preventing and treating the colorado potato beetles genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 141: a kind ofly prevent and treat the representative biological method that rice water resembles genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 142: a kind ofly prevent and treat the representative biological method that ear resembles genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 143: a kind of representative biological method of preventing and treating the wolly whitefly genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 144: a kind of representative biological method of preventing and treating Aleyrodes; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 145: a kind of representative biological method of preventing and treating kidney Aspidiotus genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 146: a kind of representative biological method of preventing and treating Aphidiadae; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 147: a kind of representative biological method of preventing and treating Aphis; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 148: a kind of method of preventing and treating sweet potato whitefly comprises to the genetically modified crops of herbicide-tolerant and uses the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 149: a kind of representative biological method of preventing and treating Empoasca flavescens; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 150: a kind of representative biological method of preventing and treating tumor aphid genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 151: a kind of representative biological method of preventing and treating the rice leafhopper genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 152: a kind of representative biological method of preventing and treating the brown planthopper genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 153: a kind of representative biological method of preventing and treating the mealybug genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 154: a kind of representative biological method of preventing and treating Psylla spp; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 155: a kind of representative biological method of preventing and treating large bamboo hat with a conical crown and broad brim Aspidiotus genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 156: a kind of representative biological method of preventing and treating the y-bend Aphis; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 157: a kind of representative biological method of preventing and treating knot wing Aleyrodes; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 158: a kind of representative biological method of preventing and treating the liriomyza bryoniae genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 159: a kind of representative biological method of preventing and treating the wheat stem chloropid fly genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 160: a kind of representative biological method of preventing and treating careless Hylemyia; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 161: a kind of representative biological method of preventing and treating the flower thrips genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 162: a kind of representative biological method of preventing and treating Thrips; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 163: a kind of method of preventing and treating hard thrips comprises to the genetically modified crops of herbicide-tolerant and uses the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 164: a kind of representative biological method of preventing and treating the aceria genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 165: a kind of representative biological method of preventing and treating the thorn Eriophyes; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 166: a kind of representative biological method of preventing and treating short whisker Acarapis; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 167: a kind of representative biological method of preventing and treating the Panonychus citri genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 168: a kind of representative biological method of preventing and treating wrinkle leaf Aculus genus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 169: a kind of representative biological method of preventing and treating Tetranychus; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 170: a kind of representative biological method of preventing and treating Heterodera; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 171: a kind of representative biological method of preventing and treating Meloidogyne; comprise to the genetically modified crops of herbicide-tolerant and use the Emamectin-benzoate that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 172: a kind of representative biological method of preventing and treating the Adoxophyes spp genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 173: a kind of representative biological method of preventing and treating the brave genus in ground comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect injury is corresponding to the row among the table C.
Table 174: a kind of method of preventing and treating cotton leaf noctuid comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect injury is corresponding to the row among the table C.
Table 175: a kind of method of preventing and treating the soybean noctuid comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect injury is corresponding to the row among the table C.
Table 176: a kind of representative biological method of preventing and treating straw borer spp comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 177: a kind of method of preventing and treating grape codling moth (Clysia ambiguella) comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 178: a kind of method of preventing and treating general non-fine hair snout moth's larva comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 179: a kind of representative biological method of preventing and treating the steinernema genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 180: a kind of method of preventing and treating the Sudan cotton bollworm comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 181: a kind ofly prevent and treat golden steel and bore the representative biological method that belongs to, comprise to the genetically modified crops of herbicide-tolerant and use Spinosad, wherein its combination of crop that is not subjected to this insect infringement of the active ingredient and protection expressed of genetically modified plants is corresponding to the row among the table C.
Table 182: a kind of representative biological method of preventing and treating the meal moth genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 183: a kind of representative biological method of preventing and treating Heliothis comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 184: a kind of method of preventing and treating Hellula undalis comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 185: a kind of method of preventing and treating tomato stem gelechiid comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 186: a kind of method of preventing and treating pear leaf blister moth comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 187: a kind of representative biological method of preventing and treating thin moth genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 188: a kind of control flower wing steinernema belongs to the method for (Lobesia) botrana; comprise to the genetically modified crops of herbicide-tolerant and use Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 189: a kind of method of preventing and treating European corn borer comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 190: a kind of representative biological method of preventing and treating brown epiblema comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 191: a kind of method of preventing and treating Pectinophora gossypiella comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 192: a kind of method of preventing and treating the mandarin orange lyonetid comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 193: a kind of representative biological method of preventing and treating Pier comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 194: a kind of method of preventing and treating diamond-back moth comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 195: a kind of representative biological method of preventing and treating white standing grain snout moth's larva genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 196: a kind of representative biological method of eating into the stem Noctua of preventing and treating comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 197: a kind ofly prevent and treat the long representative biological method that must the volume moth belongs to, comprise to the genetically modified crops of herbicide-tolerant and use Spinosad, wherein its combination of crop that is not subjected to this insect infringement of the active ingredient and protection expressed of genetically modified plants is corresponding to the row among the table C.
Table 198: a kind of representative biological method of preventing and treating Spodoptera comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 199: a kind of representative biological method of preventing and treating volume moth genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 200: a kind of method of preventing and treating the amyloid plaque noctuid comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 201: a kind of representative biological method of preventing and treating Agriotes spp comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 202: a kind of method of preventing and treating Mexico cotton boll elephant comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 203: a kind of representative biological method of preventing and treating Curculio comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 204: a kind of chrysomelid method of band spot cucumber of preventing and treating comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 205: a kind of representative biological method of preventing and treating the colorado potato beetles genus; comprise to the genetically modified crops of herbicide-tolerant and use Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 206: a kind ofly prevent and treat the representative biological method that rice water resembles genus, comprise to the genetically modified crops of herbicide-tolerant and use Spinosad, wherein its combination of crop that is not subjected to this insect infringement of the active ingredient and protection expressed of genetically modified plants is corresponding to the row among the table C.
Table 207: a kind ofly prevent and treat the representative biological method that ear resembles genus, comprise to the genetically modified crops of herbicide-tolerant and use Spinosad, wherein its combination of crop that is not subjected to this insect infringement of the active ingredient and protection expressed of genetically modified plants is corresponding to the row among the table C.
Table 208: a kind of representative biological method of preventing and treating the wolly whitefly genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 209: a kind of representative biological method of preventing and treating Aleyrodes comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 210: a kind of representative biological method of preventing and treating kidney Aspidiotus genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 211: a kind of representative biological method of preventing and treating Aphidiadae comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 212: a kind of representative biological method of preventing and treating Aphis comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 213: a kind of method of preventing and treating sweet potato whitefly comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 214: a kind of representative biological method of preventing and treating Empoasca flavescens comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 215: a kind of representative biological method of preventing and treating tumor aphid genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 216: a kind of representative biological method of preventing and treating the rice leafhopper genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 217: a kind of representative biological method of preventing and treating the brown planthopper genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 218: a kind of representative biological method of preventing and treating the mealybug genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 219: a kind of representative biological method of preventing and treating Psylla spp comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 220: a kind of representative biological method of preventing and treating large bamboo hat with a conical crown and broad brim Aspidiotus genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 221: a kind of representative biological method of preventing and treating the y-bend Aphis comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 222: a kind of representative biological method of tying the wing Aleyrodes of preventing and treating comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 223: a kind of representative biological method of preventing and treating the liriomyza bryoniae genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 224: a kind of representative biological method of preventing and treating the wheat stem chloropid fly genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 225: a kind of representative biological method of preventing and treating careless Hylemyia comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 226: a kind of representative biological method of preventing and treating the flower thrips genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 227: a kind of representative biological method of preventing and treating Thrips comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 228: a kind of method of preventing and treating hard thrips comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 229: a kind of representative biological method of preventing and treating the aceria genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 230: a kind of representative biological method of stinging Eriophyes of preventing and treating comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 231: a kind of representative biological method of preventing and treating short whisker Acarapis comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 232: a kind of representative biological method of preventing and treating the Panonychus citri genus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 233: a kind of representative biological method of preventing and treating wrinkle leaf Aculus genus; comprise to the genetically modified crops of herbicide-tolerant and use Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 234: a kind of representative biological method of preventing and treating Tetranychus comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 235: a kind of representative biological method of preventing and treating Heterodera comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 236: a kind of representative biological method of preventing and treating Meloidogyne comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Table 237: a kind of method of preventing and treating tomato moth comprises to the genetically modified crops of herbicide-tolerant and uses Spinosad that wherein genetically modified plants active ingredient of expressing and the combination of protecting its crop that is not subjected to this insect infringement is corresponding to the row among the table C.
Embodiment B 1: Mexico's cotton boll is resembled (Anthonomus grandis) adult, Spodoptera littoralis The effect of (Spodoptera littoralis) or tobacco budworm (Heliothis virescens)
Respectively with contain 100,50,10,5, the aqueous emulsion Spray Mixing thing of the emamectin-benzoate of 1ppm sprays the transgene cotton seedling of expressing delta-endotoxin CryIIIA.After treating spraying layer drying, on cotton plants, put 10 Mexico's cotton bolls respectively and resemble adult, 10 Spodoptera littoralis larvas or 10 tobacco budworm larvas, and cotton is moved in the plastic containers.Assess after 3-10 days.By transgenic cotton relatively with and the non-transgenic cotton on the dead beetle quantity and the damage of ingesting, determine the minimizing percentage of population or the reduction percentage (% effect) of the damage of ingesting, in all cases, described non-transgenic cotton concentration is 100,50,10,5 with containing respectively, the emamectin-benzoate of 1ppm and the emulsion Spray Mixing thing of conventional CryIIIA-toxin are handled.
This test in, on the genetically modified plants test insect control be excellent, and on the non-transgenic plant test insect control be inadequate.
Embodiment B 2: the effect that Mexico's cotton boll is resembled adult, Spodoptera littoralis or tobacco budworm
Respectively with the transgene cotton seedling that contains 100,50,10,5, delta-endotoxin CryIIIA is expressed in the spraying of the aqueous emulsion Spray Mixing thing of the Avermectin of 1ppm.After treating spraying layer drying, put on cotton plants respectively that 10 Mexico's cotton bolls resemble, 10 Spodoptera littoralis larvas or 10 tobacco budworm larvas, and cotton moved in the plastic containers.Assess after 3-10 days.By comparing the beetle quantity dead on transgene cotton and the non-transgenic cotton and the damage of ingesting, determine the minimizing percentage of population or the reduction percentage (% effect) of the damage of ingesting, in all cases, described non-transgenic cotton concentration is 100,50,10,5 with containing respectively, the Avermectin of 1ppm and the emulsion Spray Mixing thing of conventional CryIIIA-toxin are handled.
This test in, on the genetically modified plants test insect control be excellent, and on the non-transgenic plant test insect control be inadequate.
Embodiment B 3: the effect that Mexico's cotton boll is resembled adult, Spodoptera littoralis or tobacco budworm
Respectively with contain 100,50,10,5, the aqueous emulsion Spray Mixing thing of the spinosad of 1ppm sprays the transgene cotton seedling of expressing delta-endotoxin CryIIIA.After treating spraying layer drying, put on cotton plants respectively that 10 Mexico's cotton bolls resemble, 10 Spodoptera littoralis larvas or 10 tobacco budworm larvas, and cotton moved in the plastic containers.Assess after 3-10 days.By comparing the beetle quantity dead on transgene cotton and the non-transgenic cotton and the damage of ingesting, determine the minimizing percentage of population or the reduction percentage (% effect) of the damage of ingesting, there is something special down, and concentration is 100,50,10,5 to described non-transgenic cotton with containing respectively, the spinosad of 1ppm and the emulsion Spray Mixing thing of conventional CryIIIA-toxin are handled.
This test in, on the genetically modified plants test insect control be excellent, and on the non-transgenic plant test insect control be inadequate.
Embodiment B 4: the effect that Mexico's cotton boll is resembled adult, Spodoptera littoralis or tobacco budworm
Respectively with contain 100,50,10,5, the aqueous emulsion Spray Mixing thing of the spinosad of 1ppm sprays the transgene cotton seedling of expressing delta-endotoxin CryIa (c).After treating spraying layer drying, put on cotton plants respectively that 10 Mexico's cotton bolls resemble, 10 Spodoptera littoralis larvas or 10 tobacco budworm larvas, and cotton moved in the plastic containers.Assess after 3-10 days.By comparing the beetle quantity dead on transgene cotton and the non-transgenic cotton and the damage of ingesting, determine the minimizing percentage of population or the reduction percentage (% effect) of the damage of ingesting, in all cases, described non-transgenic cotton concentration is 100,50,10,5 with containing respectively, the spinosad of 1ppm and the emulsion Spray Mixing thing of conventional CryIIIA-toxin are handled.
This test in, on the genetically modified plants test insect control be excellent, and on the non-transgenic plant test insect control be inadequate.
Embodiment B 5: the effect that Mexico's cotton boll is resembled adult, Spodoptera littoralis or tobacco budworm
Respectively with contain 100,50,10,5, the aqueous emulsion Spray Mixing thing of the Avermectin of 1ppm sprays the transgene cotton seedling of expressing delta-endotoxin CryIa (c).After treating spraying layer drying, put on cotton plants respectively that 10 Mexico's cotton bolls resemble, 10 Spodoptera littoralis larvas or 10 tobacco budworm larvas, and cotton moved in the plastic containers.Assess after 3-10 days.By comparing the beetle quantity dead on transgene cotton and the non-transgenic cotton and the damage of ingesting, determine the minimizing percentage of population or the reduction percentage (% effect) of the damage of ingesting, in all cases, described non-transgenic cotton concentration is 100,50,10,5 with containing respectively, the Avermectin of 1ppm and the emulsion Spray Mixing thing of conventional CryIIIA-toxin are handled.
This test in, on the genetically modified plants test insect control be excellent, and on the non-transgenic plant test insect control be inadequate.
Embodiment B 6: the effect that Mexico's cotton boll is resembled adult, Spodoptera littoralis or tobacco budworm
Respectively with contain 100,50,10,5, the aqueous emulsion Spray Mixing thing of the emamectin benzoate of 1ppm sprays the transgene cotton seedling of expressing delta-endotoxin CryIa (c).After treating spraying layer drying, put on cotton plants respectively that 10 Mexico's cotton bolls resemble, 10 Spodoptera littoralis larvas or 10 tobacco budworm larvas, and cotton moved in the plastic containers.Assess after 3-10 days.By comparing the beetle quantity dead on transgene cotton and the non-transgenic cotton and the damage of ingesting, determine the minimizing percentage of population or the reduction percentage (% effect) of the damage of ingesting, in all cases, described non-transgenic cotton concentration is 100,50,10,5 with containing respectively, the emamectin benzoate of 1ppm and the emulsion Spray Mixing thing of conventional CryIIIA-toxin are handled.
This test in, on the genetically modified plants test insect control be excellent, and on the non-transgenic plant test insect control be inadequate.
Embodiment B 7: to European corn borer (Ostrinia nubilalis), Spodoptera Plant the effect of the kind (Heliothis spp.) of (Spodoptera spp.) or Heliothis
Experimental plot (a) varieties of plant is
Figure A20091015137901461
Corn, adjacent onesize experiment sub-district (b) plantation ordinary maize, two experimental plots all show the infringement naturally of the kind that is subjected to European corn borer, Spodoptera or Heliothis, with contain 200,100,50,10,5, the aqueous emulsion Spray Mixing thing spraying of the spinosad of 1ppm.Afterwards immediately with contain 200,100,50,10,5,1ppm
Figure A20091015137901462
The endotoxic emulsion Spray Mixing thing Processing Test sub-district (b) of expressing.Assess after 6 days.Determine the minimizing percentage (% effect) of population by number of pest dead on the plant in comparative test sub-district (a) and the experimental plot (b).
On the plant of experimental plot (a), observe the kind of European corn borer, Spodoptera or the level of preventing and treating of Heliothis are improved, and experimental plot (b) shows 80% the level of preventing and treating that is no more than.
Embodiment B 8: to the effect of the kind of the kind of European corn borer, Spodoptera or Heliothis
Experimental plot (a) varieties of plant is Corn, adjacent onesize experimental plot (b) plantation ordinary maize, two experimental plots all show the infringement naturally of the kind that is subjected to European corn borer, Spodoptera or Heliothis, respectively with contain 200,100,50,10,5, the aqueous emulsion Spray Mixing thing spraying of the Avermectin of 1ppm.Afterwards immediately with contain 200,100,50,10,5,1ppm
Figure A20091015137901464
The endotoxic emulsion Spray Mixing thing Processing Test sub-district (b) of expressing.Assess after 6 days.Determine the minimizing percentage (% effect) of population by number of pest dead on the plant in comparative test sub-district (a) and the experimental plot (b).
On the plant of experimental plot (a), observe the kind of European corn borer, Spodoptera or the level of preventing and treating of Heliothis are improved, and experimental plot (b) shows 80% the level of preventing and treating that is no more than.
Embodiment B 9: to the effect of the kind of the kind of European corn borer, Spodoptera or Heliothis
Experimental plot (a) varieties of plant is
Figure A20091015137901471
Corn, adjacent onesize experimental plot (b) plantation ordinary maize, two experimental plots all show the infringement naturally of the kind that is subjected to European corn borer, Spodoptera or Heliothis, respectively with contain 200,100,50,10,5, the aqueous emulsion Spray Mixing thing spraying of the emamectin benzoate of 1ppm.Afterwards immediately with contain 200,100,50,10,5,1ppm The endotoxic emulsion Spray Mixing thing Processing Test sub-district (b) of expressing.Assess after 6 days.Determine the minimizing percentage (% effect) of population by number of pest dead on the plant in comparative test sub-district (a) and the experimental plot (b).
On the plant of experimental plot (a), observe the kind of European corn borer, Spodoptera or the level of preventing and treating of Heliothis are improved, and experimental plot (b) shows 80% the level of preventing and treating that is no more than.
The invention still further relates to
(B) plant organ of a kind of protective plant propagating materials and formation afterwards is not subjected to the method for damage by disease and insect infringement, it is characterized in that
Near the plantation or the place of seed propagation material or this place use a kind of agricultural chemicals, this agricultural chemicals comprises at least a Macrocyclic lactone compounds with acceptable salt form on free form or the agrochemistry, particularly Avermectin, emamectin or spinosad, as this pesticide activity and at least a auxiliary agent;
The corresponding uses that relates to these compounds, active ingredient are selected from the corresponding agricultural chemicals of these compounds, make and use these method for compositions and the protected thus plant propagation material that is not subjected to the damage by disease and insect infringement.
The macrolide that the present invention uses is known to those skilled in the art.They are those materials that invention (A) part is mentioned.Avermectin and emamectin are preferred.
On the agrochemistry of macrolide of the present invention acceptable salt for example, with the invention (A) part identical.
For Avermectin, its free form is preferred in the framework of the present invention's part (B).In the scope of the present invention (B) part, particularly preferably be such method, wherein used the emamectin of acceptable salt form on free form or the agrochemistry; Salt form particularly; More particularly benzoate, substituted benzoic acid salt, benzene sulfonate, citrate, phosphate, tartrate or maleate form; Preferred benzoate or benzene sulfonate, more preferably benzoate.
The present invention's (B) subject area can expand to the representative biological of Insecta, arachnids and Nematoda especially.
Main have a lepidopterous insect, for example
The kind that Acleris spp belongs to, the kind that Adoxophyes spp belongs to, the kind that clearwing moth belongs to, the kind that the ground tiger belongs to, cotton leaf noctuid, the kind of Amylois, the soybean noctuid, the kind of Archips spp, the kind that Argyrotaenia spp belongs to, corn is intended leather winged beetle (Astylus atromaculatus), the kind that gamma belongs to, the dried noctuid of corn, Cadra cautella, peach fruit moth, the kind of straw borer spp, the kind that Choristoneura spp belongs to, grape codling moth (Clysia ambiguella), the kind that Cnaphalocrocis spp belongs to, the kind that cloud volume moth belongs to, the kind that Cochylisspp belongs to, the kind of casebearer moth, general non-fine hair snout moth's larva, the special-shaped steinernema of peach, the kind that steinernema belongs to, the kind that crambid belongs to, the Sudan cotton bollworm, Jin Gang bores the kind that belongs to, the kind that meal moth belongs to, the kind that the flower steinernema belongs to, ligustrum fine tortricidae, the kind of Euproctis, cut the kind of Noctua, the kind that Grapholita spp belongs to, green wide wing steinernema, the kind of Heliothis, Hellula undalis, black different pawl rhinoceros cockchafer (Heteronychus arator), fall webworm, tomato stem gelechiid, pear leaf blister moth, the kind that thin moth belongs to, the kind that the little moth of flower wing belongs to, the kind of Euproctis, the kind that lyonetid belongs to, the kind of Malacosoma, tomato moth, maduca sexta, the kind of autumn geometrid moth genus, European corn borer, the kind that super steinernema belongs to, the kind of brown epiblema, small noctuid, Pectinophora gossypiella, tobacco split worm, imported cabbageworm, the kind of Pier, diamond-back moth, the kind of Yponomeuta, the kind that white standing grain snout moth's larva belongs to, the kind of moth stem Noctua, the long kind that must roll up the moth genus, the kind of Spodoptera (Spodoptera), the kind that emerging clearwing moth belongs to, the kind of Thaumetopoea, the kind that the volume moth belongs to, the kind of amyloid plaque noctuid and Yponomeuta;
Coleoptera, for example
The kind of Agriotes spp, flower resembles the kind of genus, Atomaria linearis, beet shin flea beetle, collar resembles the kind of genus, the kind of Curculio, the kind that khapra beetle belongs to, the kind that the asterophyllite first belongs to, the kind of epilachna genus, the kind of Eremnus, colorado potato beetles, rice water resembles the kind of genus, the kind that gill cockchafer belongs to, the kind that saw-toothed grain beetle belongs to, ear resembles the kind of genus, spot resembles the kind of genus, the kind that the arc rutelian belongs to, the kind of Psylliodes spp, the long moth-eaten kind that belongs to of moth, Scarabaeidae, the kind of Sitophilus, the kind that gelechiid belongs to, the kind that mealworm belongs to, the kind that the kind of Tribolium and spot khapra beetle belong to;
Orthoptera, for example
The kind of the kind that the roach sickle belongs to, the kind of Blatella, Gryllotalpa spp, Madeira roach sickle, the kind that migratory locusts belong to, the kind of Periplaneta and the kind that desert locust belongs to;
Corrodentia, for example kind of powder corrodent genus;
Anoplura, for example
The kind that the kind that the kind that the kind of Haematopinus, jaw lice belong to, lice belong to, goitre woolly aphid belong to and the kind of Phylloxera spp;
Mallophaga, for example kind of the kind of Damalinia and Trichodectes;
Thrips, for example kind of the kind of the kind of flower thrips genus, hedge Thrips, Taeniothrips, joint melon thrips, the orange thrips of onion thrips and South Africa;
Heteroptera, for example kind of the kind of the kind of Cimex, cocoa Di fleahopper, red cotton bug genus, Euchistus, the kind that Eurygasterspp belongs to, the kind that Leptocorisa spp belongs to, the kind of Bemisia spp, the kind that the skin stinkbug belongs to, kind, Sahlbergella singularis (Sahlbergella singularis), the kind of black stinkbug genus and the kind of vertebra Reduvius of Rhodnius;
Homoptera, for example wolly whitefly, wild cabbage aleyrodid (Aleyrodes brassicae), the kidney Aspidiotus belongs to the kind of (Aonidiella), Aphidiadae, the kind of Aphis (Aphis), the kind that Aspidiotus belongs to, sweet potato whitefly, the kind that lecanium belongs to, dark brown Aspidiotus, Chrysomphalus ficus, brown soft wax a red-spotted lizard, the kind of Empoasca flavescens, wooly aphis, the kind that Erythroneura spp belongs to, the kind of Gascardia, the kind that small brown rice planthopper belongs to, the hard ball a red-spotted lizard of Europe fruit, the kind of lepidosaphes shimer, the kind of long tube Aphis, the kind of tumor aphid genus, the kind that rice leafhopper belongs to, brown planthopper belongs to the kind of (Nilaparvata), the kind that ring wing volume moth belongs to, the kind that the goitre woolly aphid belongs to, the kind that stern line mealybug belongs to, the kind that white armored scale belongs to, the kind that mealybug belongs to, the kind of Psylla spp, Pulvinaria aethiopica, the kind that the large bamboo hat with a conical crown and broad brim Aspidiotus belongs to, the kind of Rhopalosiphum, the kind that the pearl lecanium belongs to, the kind that the band leafhopper belongs to, the kind of y-bend Aphis, the kind of paddy net Aphis, greenhouse whitefly, a mandarin orange wood louse and citrus point armored scale;
Hymenoptera, for example kind, the kind of Solenopsis and the kind of Vespa that belong to of the kind of the kind that belongs to of Acromyrmex, leaf cutting ant, the kind that the stem honeybee belongs to, the lucky pine sawfoy of kind, diprionidae, dragon spruce that pine sawfoy belongs to, real tenthredinidae, kind, MonomoriumMayr, new pine sawfoy that the hair ant belongs to;
Diptera, for example kind of Aedes, Antherigona soccata, the garden march fly, calliphora erythrocephala, the kind of little Anastrepha, the kind of Carysomyia, culicine kind, the kind that cuterbrid belongs to, the kind of few hair on the neck Anastrepha, black-tailed fruit flies, the kind of Fannia, the kind of Gasterophilus, the kind of Glossina, the kind of Hypoderma, the kind of Hyppobosca, the kind that liriomyza bryoniae belongs to, the kind of Lucilia, the kind of black Hippelates, the kind of Musca, the kind of Oestrus, the kind that rice gall midge belongs to, the Europe wheat stem chloropid fly, henbane seed spring fly, the kind of grass Hylemyia, apple is around trypetid, the kind that mushroom fly belongs to, the kind of Genus Stomoxys, the kind of Gadfly, the kind of kind that a smaller kind of cicada cicada belongs to and big uranotaenia;
Siphonaptera, for example kind of Ceratophyllus and Xanthopsyllacheopis; Or
Thysanoptera, for example Taiwan silverfish.
In arachnids, preferably Acarina is representative biological, for example
Acarus siro, tangerine bud goitre mite, Si Shi thorn goitre mite, the kind of Amblyomma, the kind of Argas, the kind of Boophilus, the kind of short whisker Acarapis, Bryobia praetiosa, the kind of Calipitrimerus, the kind of Psoroptes, Dermanyssus gallinae, carpinus turczaninowii beginning tetranychid, the kind of Eriophyes, the kind of Hyalomma, the kind that hard tick belongs to, meadow unguiculus mite, the kind of Ornithodorus, the kind that Panonychus citri belongs to, citrus rust mite, Polyphagotarsonemus latus Banks, the kind that the scabies mite belongs to, the kind of Rh, the kind that the root mite belongs to, the kind that itch mite belongs to, the kind that tarsonemid belongs to and the kind of Tetranychus.
Particularly preferably be the control of coleoptera and lepidopterous insects; Particularly descend dependent of dead military hero and kind in coleoptera: kind, Atomaria linearis, beet shin flea beetle, collar that the kind of Agriotes spp, flower resemble genus resemble the kind of genus (Cosmopolites), kind and the colorado potato beetles that the asterophyllite first belongs to; In Lepidoptera, particularly descend dependent of dead military hero and kind: the kind that Adoxophyes spp belongs to, the kind, tomato stem gelechiid, tomato moth, Pectinophora gossypiella, diamond-back moth, the kind of moth stem Noctua, the kind of Spodoptera, kind and the amyloid plaque noctuid that the volume moth belongs to of kind, kind that steinernema belongs to, kind that meal moth belongs to, Heliothis of the kind that belongs to of tiger, cotton leaf noctuid, soybean noctuid, straw borer spp.
The more preferably theme of (B) part is the representative biological control as root-knot nematode, stem eelworm and leaf nematode of Nematoda according to the present invention;
The particularly kind of Heterodera (Heterodera), for example beet Cyst nematode, oat Cyst nematode and clover Cyst nematode; The kind of ball Heterodera, for example globodera rostochiensis; The kind of Meloidogyne, for example Meloidogyne incognita and javanese root knot nematode; The kind of perforation line Eimeria, for example similar similes thorne; Pratylenchidae belongs to, for example unelected Pratylenchidae and Cobb root; Pulvinulus sword Turbatrix, the nematode of for example partly puncturing; Minute hand Turbatrix, burr Turbatrix, Xiphinema, Ditylenchus, Aphelenchoides and eel Turbatrix
Especially Meloidogyne, for example Meloidogyne incognita, and Heterodera, for example soybean Cyst nematode.
Even under low consumption, the Macrocyclic lactone compounds that (B) uses according to the present invention also is the active ingredient with the value of preventing and/or treating in the insect control field, can be tolerated admirably by warm blooded animal kind, fish, beneficial organism and plant simultaneously.The active ingredient of using among the present invention is all effective to all or the indivedual developmental stage of normal sensitivity and tolerance insect.The effect of active ingredient of the present invention can directly show, also can be at once or in (in the process of for example casting off a skin) kill pests after after a while only, perhaps show indirectly, for example reduce spawning rate and/or incubation rate, its good action is equivalent to (destruction rate) lethality of 50-60% at least.
By means of the active ingredient of using in the present invention (B) part; can preventing and treating (i.e. control or eliminate), to occur in plant propagation material (mainly be agricultural; useful plants in gardening and the forestry and the propagating materials of ornamental plants) on pest; even can protect the plant organ that grew up to afterwards also not to be subjected to the infringement of these pests; that is to say that this protection for example can last till that the maturation plant until resistance grows up to; not only protect above-mentioned propagating materials or from then on grow the infringement that the plant that forms is not endangered the pest of ground plant organ, also protect it not to be subjected to the infringement of soil pest.
Suitable plant propagation material in the present invention (B) part is: for example seedling, rhizome, garden seedling, cutting, perhaps particularly seed such as fruit, stem tuber, kernel or bulb, particularly the propagating materials of following plants comprises cereal class such as wheat, barley, rye, oat, rice, corn or Chinese sorghum; Beet is as sugar beet or fodder beet; Fruit is as the operatic circle, drupe and fruitlet for example strawberry, raspberry and blackberry, blueberry of apple, pears, plum, peach, apricot, cherry or berry for example; Beans such as Kidney bean, French beans, pea or soybean; Oil crop such as rape, leaf mustard, opium poppy, olive, sunflower, coconut, castor-oil plant, cocoa or peanut; Curcurbitaceae such as pumpkin, cucumber or muskmelon; Fibre plant such as cotton, flax, hemp or jute; Cedra fruits is as orange, lemon, shaddock or red tangerine; Vegetables such as spinach, lettuce, asparagus, wild cabbage class, carrot, onion, tomato, potato or capsicum; Lauraceae such as avocado, Cinnamomum or camphor; Or tobacco, nut, coffee, eggplant, sugarcane, tea, pepper, grape, hops, Musaceae, rubber plant or ornamental plants; Particularly cereal class, rice, cotton, corn, soybean, rape, vegetables, potato, sunflower, sugar beet and Chinese sorghum.
The propagating materials that genetics changes is preferred propagating materials, the seed that particularly contains the gene of one or more expression insecticide tolerances, particularly express the gene of insecticide or miticide and fungicide or nematocide tolerance, this gene makes plant to weed killer herbicide tolerance be arranged, and causes going up useful performance introduced plant to the resistance increase of plant disease or with other agriculturals.Particularly those contain plant or its propagating materials of the gene that derives from bacillus thuringiensis for such plant or its propagating materials, a kind of insecticidal activity albumen of this gene code.Particularly the plant propagation material of the genetics of following plants change comprises potato, clover, cereal class such as wheat, barley, rye, oat, rice, corn or Chinese sorghum; Beans is as Kidney bean, French beans, pea or soybean; Beet is as sugar beet or fodder beet; Oil crop such as rape, leaf mustard, opium poppy, olive, sunflower, coconut, castor-oil plant, cocoa or peanut; Curcurbitaceae such as pumpkin, cucumber or muskmelon; Fibre plant such as cotton, flax, hemp or jute; Cedra fruits is as orange, lemon, shaddock or red tangerine; Vegetables such as spinach, lettuce, asparagus, wild cabbage class, carrot, onion or tomato.
The example of the plant propagation material that above-mentioned genetics changes is for example commercially available product
Figure A20091015137901521
Roundup Ready
Figure A20091015137901522
TC Or NuCOTN
Figure A20091015137901524
These all are well known by persons skilled in the art.
Other applications of the active component that the present invention (B) part is used are that for example protection is stored product or stock in storage or is used for sanitation and health-care field, particularly protects the livestock of domestic animal or fecund not to be subjected to the infringement of pest.
Therefore, theme of the present invention (B) also relates to according to its intended purposes and general environmental selection and uses corresponding agricultural chemicals, as with missible oil, concentrated suspension, directly can spray or dilutable solution, the form of the capsule of the paste that can apply, dilution emulsion, spray property pulvis, soluble powder, dispersible powder, wetting powder, dust agent, granule or polymeric material material package quilt is used, this agricultural chemicals comprises the active ingredient that at least a the present invention is used, also relates to using these composition pesticides in one approach.The composition that preferably only contains a kind of Macrocyclic lactone compounds, particularly emamectin or its salt.
In these compositions, the form that active component can former medicine is used, for example the solid active ingredient of particular particle size, perhaps preferably use with at least a formulation art auxiliary agent commonly used, auxiliary agent such as filler, for example solvent or solid carrier, or as surface active cpd (surfactant).
Proper auxiliary agent of using in the present composition such as solvent, solid carrier, surface active cpd, non-ionic surface active agent, cationic surfactant and anion surfactant be, for example those disclosed auxiliary agent in EP-A-736252.
(B) part is used for treatment of plant propagation material according to the present invention, particularly the liquid preparation of seed comprises, surface reactive material (1-15 weight %) for example is as ethoxylation triphenylethylene phenol and its salt, alkyl polyglycol ether ethoxylate, polyoxypropylene/polyoxyethylene copolymers, sodium lignin sulfonate, poly naphthalene sulfonate and alkyl benzene sulphonate triethanolamine salt; Antifreezing agent (5-15%), as DL-propane-1,2-glycol or propane-1,2,3-triol; Colouring agent (1-10%) is as pigment or water-soluble dye; Defoamer (0.05-1%) is as dimethyl silicone polymer; Coating (1-10%) is as polyethylene glycol, polyvinyl acetate, polyvinylpyrrolidone, polyacrylate; Preservative (0.1-1%), as 1,2-benzisothiazole-3-ketone; Thickener (0.1-1%) is as heteroglycan; And solvent, as water.
Be used for treatment of plant propagation material, particularly the solid pharmaceutical preparation of seed comprises, for example: and surface reactive material (1-10%), as alkyl polyglycol ether ethoxylate, polyoxypropylene/polyoxyethylene copolymers, sodium lignin sulfonate, poly naphthalene sulfonate; Colouring agent (1-10%) is as pigment or water-soluble dye; Defoamer (0.05-1%) is as dimethyl silicone polymer; Coating (1-10%) is as polyethylene glycol or cellulose; And carrier (adding to 100%w/w), as Cab-O-sil, talcum powder, clay etc.
Usually composition comprises 0.1-99%, particularly at least a solid or the liquid adjuvants of the active ingredient of 0.1-95% and 1-99.9%, particularly 5-99.9%, the 0-25% of composition usually, particularly 0.1-20% is surfactant (in all cases, % is a percentage by weight).Although the composition that concentrates is more preferably as commodity selling, the end user can use dilute compositions usually, and active constituent content wherein is relatively low.
Preferred compositions such as missible oil, dust agent, suspension concentrates, wetting powder and granule have those compositions of mentioning among the EP-A-736252 for example.
Composition in the present invention (B) part also comprises other solids or liquid adjuvants, as stabilizing agent, for example not epoxidised or epoxidised vegetable oil (for example epoxidised cocoa butter, rapeseed oil or soya-bean oil), defoamer, silicone oil for example, preservative, viscosity modifier, adhesive and/or adhesive, also have fertilizer maybe can obtain other active ingredients of special-effect, other active ingredients are bactericide, fungicide, miticide, invertebrate poison or selective herbicide for example.
By adding the active component that other have desinsection, kill mite and/or bactericidal action, can significantly enlarge the action spectrum of the composition in the present invention (B) scope and make it adapt to general environment.The desinsection that be fit to add and to kill mite active ingredient be the representative of for example following kind of effective constituents: organic phosphorus compound, nitrophenols and its derivative, carbonamidine, pyrrolotriazine derivatives, Nitroenamine derivatives, nitro-and cyano group-guanidine derivatives, ureas, benzoyl urea, carbamate, pyrethroid, chlorohydrocarbon and bacillus thuringiensis product.Particularly preferred composition is Acetamiprid (NI-25) in the mixture, Nitenpyram (TI-304), TI-435, MTI-446, fluorine worm nitrile, the Acarus tritici urea, the pyrrole propyl ether, thiacloprid, fluxofenim, Imidacloprid, thiamethoxam, fenoxycarb, the butyl ether urea, pyrrole aphid ketone, diazinon, disulfoton, Profenofos, furathiocarb, fly eradication amine, cypermethrin, taufluvalinate, tefluthrin or bacillus thuringiensis product, especially Acetamiprid, Nitenpyram, TI-435, MTI-446, fluorine worm nitrile, thiacloprid, Imidacloprid, thiamethoxam and tefluthrin.
The example with fungicide active ingredient that is fit to add is a following compounds: nitrile Fluoxastrobin, bitertanol, carboxin, Cu 2O, frost urea cyanogen, Cyproconazole, cyprodinil, dichlofluanid, Difenoconazole, alkene azoles alcohol, fluorine ring azoles, fenpiclonil, fludioxonil, Fluquinconazole, Flusilazole, Flutriafol, furalaxyl, guazatine acetate, the spirit of own azoles alcohol Evil frost, press down mould azoles, glyoxalin, plant the bacterium azoles, the imines bacterium, mancozeb, metalaxyl, Metalaxyl-M, metconazole hymexazo, pefurazoate, penconazole, Pencycuron, Prochloraz, propiconazole, pyroquilon, SSF109 Luo Evil amylamine, Tebuconazole, tefluthrin, probenazole, tolifluamide, triazoxide, triazolone, Triadimenol, fluorine bacterium azoles, triticonazole and uniconazole P.
The composition that the present invention (B) part is used prepares according to known method, for example do not having under the situation of auxiliary agent, by grinding and/or screening to specified particle diameter, or by compression solid active ingredient, having under the situation of at least a auxiliary agent then, for example by active ingredient closely being mixed with auxiliary agent and/or abrasive method prepares.These purposes that prepare the method for the present composition and use macrolide to prepare these compositions also are themes of the present invention.
(B) part according to the present invention; being used for application process that the protective plant propagating materials is not subjected to insect infringement is characterised in that near the place of plantation or seed propagation material or suitable composition is used in this place; plant propagation material according to the present invention is any plant propagation material that can develop into complete plant after planting or be seeded into plantation or sowing place, for example seedling, rhizome, garden seedling, cutting or particularly seed such as fruit, stem tuber, kernel or bulb.According to the present invention, to using these compositions near plantation or the seed propagation material preferably before plantation or sowing plant propagation material, with the direct soil application of composition to planting or the place of seed propagation material, for example preferably prior to seeding composition is administered to broadcast in the ditch be administered to plantation or sowing plant propagation material position near the zone in.Using these compositions to plantation or sowing place is interpreted as having used the pretreated plant propagation material of these compositions in plantation or sowing place plantation or sowing, according to its intended purposes with account for leading environmental factor, can by for example with composition spray, atomizing, dust or be dispensed onto on the plant propagation material or composition is brushed or poured on the plant propagation material, perhaps, particularly plant propagation material is carried out preliminary treatment by seed dressing for seed.When carrying out the present invention and preferably dress seed, in seed dressing equipment, suitable insecticide is added in the seed prior to seeding, and the content by for example stirring seed dressing equipment and/or rotation and/or the whole seed dressing equipment of jolting and composition is evenly distributed to the surface of the seed, seed dressing herein comprises dry mixing kind, wet-mixing kind, liquid seed dressing or the seed dressing of what slurry.The specific embodiments that this seed dressing is handled comprises, for example seed is immersed in the fluid composition, apply seed (seed pelleting) with solid composite thus or reach active ingredient penetrated into purpose (seed infiltration) in the seed by composition being added to the water that is used for the pre-soaking seed.The common consumption of the composition handled of being used to according to the present invention to dress seed is, for example 0.1-100g active ingredient/100Kg seed, particularly 1-60g/100Kg seed, preferred 4-40g/100Kg seed.
Particularly because the toxicity of the active component that uses is low, can observe the seed that birds handle the seed dressing of the present invention (B) part good tolerability is arranged, for example those are the food seed bird in the rural area of spaciousness, these birds are usually got the food seed in the field that just finishes kind, as white cheek bird, blackbird, thrush, duck, pheasant, finch, goose, redpoll, chicken, crow, skylark, titmouse, sea-gull, raven, francolin, ringdove, greenfinch, pigeon or goldspink.Handle the seed dressing that may also extend into the storage seed according to seed dressing of the present invention.
The pretreated plant propagation material commodity of (B) part are another themes of the present invention according to the present invention.
The formulation examples that can be used for the Macrocyclic lactone compounds in the method for the present invention (B), the granule of instant liquor, granule, dust agent, spray property pulvis, missible oil, coating and suspension concentrates all are those formulations that have been disclosed among the embodiment F 1-F10 of EP-A-580553 for example.
Embodiment F 1: the conventional method of liquid seed dressing
The liquid preparation of aequum is added in the conical flask.Shaking flasks makes liquid distribution arrive the whole bottom of container.The seed that in bottle, adds aequum afterwards immediately.With about 1 minute of the violent shaking flasks of hand so that all seeds are all covered by liquid.Be poured on the content of flask on the drying frame and at the baking oven inner drying.
Embodiment F 2: the conventional method of dry mixing kind
The same number of kind of benevolence of packing in each wide-mouth bottle, and a certain amount of wetting powder of packing in every bottle are with active ingredient/kind of benevolence of obtaining aequum (for example 0.03,0.1 or 0.3mg/ kind benevolence).Flask is placed on the roller with 80 rev/mins speed rotation 3 minutes.With hand moving flask, the kind benevolence that is bonded on bottle wall is fallen down, then with flask opposite spin 3 minutes.
Biological Examples (%=percentage by weight except as otherwise noted)
Embodiment B 4: seed dressing is to Spodoptera littoralis on the maize leaves (Spodoptera litteralis) The effect of first-instar young
The corn seed sowing that to described in program F1, dress seed.After planting 12,19,26,33,40 and 47 days, the long part of 5-8cm of getting plant top blade was placed in the glass beaker and infects with the Spodoptera littoralis first-instar young of the firm hatching of scheduled volume.With the cap covers beaker and remain under 25 ℃ and the 60% relative atmospheric humidity illumination every day 16 hours.Infect after 3-5 days and assess.By comparing the larva number of surviving on the plant that grows up to by seed of mixing and untreated seed, determine the minimizing percentage (% effect) of population.
Embodiment B 5: seed dressing is to the chrysomelid (Diabrotica of band spot cucumber on the sugar beet blade Balteata) effect of adult
The sugar beet planting seed that to described in program F1, dress seed.After planting 33,40,47,54 and 61 days, the blade of the plant of the 3-5 under all situations is placed in the glass beaker and infects with the chrysomelid larva of band spot cucumber of the firm hatching of scheduled volume.With the cap covers beaker and remain under 25 ℃ and the 60% relative atmospheric humidity day every day illumination 16 hours.Infect after 3-5 days and assess.By comparing the chrysomelid adult number of band spot cucumber of surviving on the plant that grows up to by seed of mixing and untreated seed, determine the minimizing percentage (% effect) of population.
Embodiment B 6: seed dressing is to the effect of the chrysomelid third-instar larvae of band spot cucumber on the corn root
The corn seed sowing that to described in program F1, handle.After planting 14,21 and 28 days, put 5 chrysomelid third-instar larvaes of band spot cucumber in each growing tank bottom in all cases.Infect after 6 days and assess.The number of the instar (larva and pupa) that survives in stem, soil surface and the soil of record plant.By the larva that survives on the plant that grows up in the seed of mixing and untreated seed and the respective environment and the number of pupa, determine the minimizing percentage (% effect) of population by relatively.
Embodiment B 7: seed dressing is to the effect of beans winged euonymus aphid (Aphis fabae)
The 100g phaseolus vulgaris seeds of packing in glass flask or plastic containers and a certain amount of preparation of active ingredient are to reach 0.1,1 or the ratio of 10g active ingredient/Kg seed.By rotation/or shake container and make active ingredient be evenly distributed to the surface of the seed.The seed of mixing is by this way broadcast (3 seed/basins) in the flowerpot.In the greenhouse, cultivate seedling until growing under 25-30 ℃ of condition, put into beans winged euonymus aphid then to 2 leaf phases.Settled down the assessment experiment back 6 days.By comparing the individual number of surviving on the plant that grows up to by seed of mixing and untreated seed, determine the minimizing percentage (% effect) of population.
In this experiment, Avermectin, emamectin and spinosad show good action effect.
Embodiment B 8: seed dressing is to the effect of black peach aphid (Myzus persicae)
Pack in glass flask or plastic containers 100g sugar beet seed and a certain amount of active component paste, reaching 0.1,1 or the ratio of 10g active ingredient/Kg seed, this paste is with spray property pulvis and low amounts of water preparation.The seed dressing container of sealing is placed on the roller to stir is evenly distributed to the surface of the seed until paste.The seed that to mix (coating) is by this way broadcast in the loessal soil in the plastic basin.In the greenhouse, under 24-26 ℃, the relative atmospheric humidity of 50-60% and 14 hours condition of illumination every day, cultivate seedling.After around germinateing, plant is the 10cm height, with the inoculation of black peach aphid mixed population.Plant inoculation back was assessed in 2 and 7 days.By comparing the individual number of survival on the plant that grows up to by seed of mixing and untreated seed, determine the minimizing percentage (% effect) of population.
In this experiment, Avermectin, emamectin and spinosad show good action effect.
The invention still further relates to
(C) a kind of control timber pest and molluscan method is characterized in that
Use a kind of agricultural chemicals of the harmful effective dose of going out to pest or its environment, this agricultural chemicals comprises that at least a macrolide goes out on the free form of harmful active compound, particularly Avermectin, emamectin or spinosad or the agrochemistry acceptable salt form as active ingredient and at least a auxiliary agent;
The corresponding uses that relates to these compounds, active ingredient are selected from the corresponding agricultural chemicals of these compounds, these preparation of compositions method and purposes, and the protected thus plant propagation material that is not subjected to the pest infringement.
The macrolides compound that the present invention uses is with identical what mentioned aspect the present invention (A).Its salt also with the invention (A) part mentioned identical.For Avermectin, free form is preferred according to the present invention.For reaching the object of the invention, particularly preferably be composition, said composition comprises that the emamectin of acceptable salt form on free form or the agrochemistry is as unique pest active component extremely; Its salt particularly; More particularly its benzoate, substituted benzoic acid salt, benzene sulfonate, citrate, phosphate, tartrate or maleate; Preferred its benzoate or benzene sulfonate, more preferably benzoate.
Having mentioned a large amount of different types of active ingredients in the document can be used as the Arthropodicidal useful effect and becomes to assign to prevent and treat gasteropod and termite.Have now found that surprisingly the known compound that is commonly referred to as macrolides also demonstrates mollusk and the important function of termite extremely extremely, particularly to gasteropod, as slug and snail, and the representative biology of timber pest, particularly Isoptera there is good action.
Mollusk comprises, for example
Ampullariidae (Ampullariidae); A Yong Limax (black A Yong slug (Arion ater), edge line A Yong slug (Arion circumscriptus), garden A Yong slug (Arionhortensis), Arion rufus); Crust snail Bovidae (Bradybaena fruticum); Cepaea (Cepaea hortensis, woodland helix (Cepaea Nemoralis)); Cochlodina; Deroceras (Deroceras agrestis, Derocerasempiricorum, field ash slug (Deroceras laeve, flower garden ash slug (Derocerasreticulatum)); Discus (D.rotundatus); Euomphalia; Soil snail spiral shell belongs to (Galba trunculata); Helicella (Helicella itala, Helicellaobvia); Helicidae (Helicigona arbustorum); Helicodiscus; Helicella (Helix aperta); Limax (greyish black slug (Limax cinereoniger), the yellow slug (Limax flavus) of reticulate pattern, Limax marginatus, big slug (Limaxmaximus), Limax tenellus); Lymnaea; Milax (greenhouse slug (Milaxgagates), Milax marginatus, Milax sowerbyi); Auger shell belongs to; Pomacea (Pomacea canaticulata); Watt Lou Cepaea (Vallonia) and Zanitoides.
Termite especially comprises Hodotermitidae, Kalotermitidae, Rhinotermitidae and Termitidae.Other are by being food with timber, being interpreted as representing for example boring the representative biological of wooden insect such as Lyctidae, Apidae with timber as provisions base or breeding damages timber on timber insect that the representative biology of for example heavy women carpenter bee (Xylocopa virginica) and Anobiidae (Anobiidae) is as furniture death watch beetle (Anobium punctatum).
Slug and snail are caused more and more serious problem as the insect in gardening and the agricultural.They can cause serious plant damage by getting food, and because mucus and the ight soil of slug and snail also bring undesirable pollution usually.New variation aspect crop management causes the plant variety number of slug and snail sensitivity is increased, and the stubble-field (this is based on ecological viewpoint) that need not to burn, ploughing replaces in the straw and be used in, and these show already present mollusk problem, and particularly the slug problem is Jiang Evilization.
Termite can be caused badly damaged to building, particularly the area between 42 ° in 42 ° of north latitude and south latitude.Termite can be divided into two kinds haply:
The termite (type the most widely distributes) that lives in the subsoil needs warm air and moist environment.In order to obtain essential humidity, these termites must directly touch wetland.The damage that is caused by subteranean termites in fact always links together with the damage that timber is caused.
Owing to do not need to contact wetland, the termite that with the seasoned wood is the provisions base is serious problems (even not too often occurring).They go deep in the building by slit and ventilating opening under roofing board.Other the furniture along with being infected enters family.The preliminary treatment of timber is considered to prevent and treat the effective method of this termite.It is slow with the seasoned wood to be that the damage that the termite in wet environment causes is given birth in damage that the termite of food causes than dwelling, and therefore the damage that is caused by preceding a kind of termite mainly is found in the old building.
Can prevent the damage that causes by the termite that lives in the underground wet environment by use the desinsection active principle to termite or its environment.This compound mainly is administered to the soil around the building usually.
The gasteropod agent of killing that can buy in the market comprises the methaldehyde and carbamates such as methiocarb.Carbamates is effective especially invertebrate poison, but it has serious defective, promptly to mammal such as cat, dog and hedgehog genus and other biological such as the high poison of earthworm (these biologies should not injured).And methaldehyde invertebrate poison has lower toxicity, they to mollusk be not cause death but anesthesia or dehydration are arranged, thereby make the insect LOM.Therefore need a kind of useful invertebrate poison, this invertebrate poison is efficient to for example slug and snail, and beneficial organism such as earthworm and mammal are not had or have only very low toxicity.Use macrolides of the present invention can realize this purpose.
In addition and since building construction around or these buildings itself have relatively large zone, must handle with a large amount of insecticides, the composition that can be used for control termites at present is not all gratifying in all respects.Simultaneously this also can produce second problem, particularly under the situation of remains of pesticide, and insecticide residues problem in dwelling house especially.Therefore also need the method that improves, particularly by use the method for the active ingredient of non-volatility with low especially consumption.
Therefore the present invention (C) but part also relates to agricultural chemicals such as missible oil, suspension concentrates, capsule that directly can spray or that dilutable solution, the paste that can apply, rare emulsion, spray property pulvis, soluble powder, dispersible powder warm nature pulvis, dust agent, granule, pill or polymeric material are sealed, select these preparations with suitable its intended purposes and general environment, and these preparations comprise at least a active component of the present invention.
Active ingredient can be used separately, the solid active ingredient of specified particle diameter for example, and perhaps preferred active ingredient is used in combination with at least a auxiliary agent or formulation art common carrier.
The example of formulation auxiliary agents is solid carrier, solvent, stabilizing agent, slowly-releasing auxiliary agent, colouring agent and surface reactive material (surfactant) also can be arranged suitably the time.The carrier and the auxiliary agent that are fit to all are to be generally used for plant protection products, particularly kill the material of gasteropod agent.The auxiliary agent that is fit in the composition that the present invention uses such as solvent, solid carrier, surface active cpd, non-ionic surface active agent, cationic surfactant, anion surfactant and other auxiliary agents for example are disclosed among the EP-A-736252.
Other are fit to, and to can be used as the material that carrier is used for invertebrate poison be bait, i.e. attractant that contains in slug and the snail poison bait usually and/or food (promptly can by the material that utilizes on slug and the snail physiology).Also can use the mixture of bait and other suitable organic and/or inorganic carriers.
The bait that is suitable for invertebrate poison is preferred: grain dust such as wheat flour, barley meal, rye meal, rice starch, the soybean of pulverizing, fish meal, molasses, the rape seed of pulverizing etc.Both can use bait separately, also can use the mixture of bait.
For making bait better to eat, can in slug and snail bait, add one or more following materials as additive to mollusk:
A) Cobastab, especially B1, B2, nicotinic acid or vitamin PP;
B) vitamin E;
C) protein of animal or plant, for example albumin and its hydrolytic degradation product, the particularly material by obtaining as the pepsin enzymatic hydrolysis are as albuminate, proteose, peptone, polypeptide, peptide class, diketopiperazine and amino acid;
D) one or more amino acid or its salt or its acid amides also can be synthetic products;
E) nucleic acid or its hydrolytic degradation product are as nucleotide, nucleosides, adenine, guanine, cytimidine, uracil or thymidine;
F) urea, carbamic acid;
G) ammonium salt is as ammonium acetate;
H) aminosugar, for example gucosamine or galactosamine;
I) sodium, potassium, calcium or magnesium compound, or magnesium, copper, iron, cobalt, zinc, aluminium, boron or the molybdenum compound, particularly its chelate of trace, as
Figure A20091015137901611
J) phosphoric acid or phosphoglycerol or sugared phosphoric acid;
K) water.
Stabilizing agent can be any known food stabilizer that suppresses fungi, antifungal, inhibition bacterium and/or kill bacterial action that has, as Sodium Benzoate, methyl p-hydroxybenzoate, cetrimonium bromide, citric acid, tartaric acid, sorbic acid, phenol, alkyl phenol or chlorophenol.
Operable slowly-releasing auxiliary agent comprises that also resin such as urea/formaldehyde resin, soyabeen grists, wax, stearate and oil are as castor oil except above-mentioned material as solid carrier.
Can be used as the material that auxiliary agent is used for the invertebrate poison of the present invention (C) part comprises, for example adhesive such as methylcellulose (methylcellosolve), polyvinylpyrrolidone, polyvinyl alcohol, polyacrylate, polymethacrylates, native paraffin, chemical modification wax and synthetic wax, sugar, starch, alginates, agar, lignosulfonates and gum Arabic, wetting agent such as polyalcohol be sugar or glycerine for example, preservative, colouring agent, snail and slug attractant, the repellant of homoiothermy species and/or other formulation auxiliary agents.Also can combine with known kill the mollusk active ingredient such as the methaldehyde or mercaptodimethur (mercaptodimethur).
The step of process preparation comprises kneading, granulation (granule) and also has compacting (pill, tablet, pilule (pellet)) suitably the time.
Killing the mollusk composition preferably exists with the form that can use, as spray property pulvis, follow the trail of pulvis (tracking powder), the form of granule (active ingredient and carrier mass exist with the form of mixture) or pill, the mollusk composition be should kill except comprising active ingredient, other carriers and/or auxiliary agent preferably also comprised.Particularly preferred formulation is to follow the trail of pulvis, granule or pill.
To be particularly suitable for preventing and treating molluscan formulation be granule or pill to (C) part according to the present invention, described granule or pill generally include 0-90%, the carrier mass of 0-70% preferably, 0.1-10%, 1-5% active ingredient preferably, 10-95%, preferred 25-90% bait, 0.5-25%, 5-20% adhesive and also comprise other auxiliary agents of 0-15% (in all cases, % all is percentage by weights) suitably the time preferably.
In all cases and since bait to the homoiothermy species nontoxic or low toxicity, so the amount of application of bait is not crucial, and amount of application depends on the plant of popular situation as the order of severity, weather conditions and the desire protection of infecting.The consumption of bait class changes in a base region according to the present invention.Usually per hectare is used 3-15Kg snail and slug bait, and preferred per hectare is used 5-10Kg.Be distributed to by aqueous spray solutions or with pulvis, granule or pill and can make easily on the soil extremely that the gasteropod agent is distributed between crop as far as possible equably.If it is not really dense to plant hat, around the plant of desire protection, set up " trap strips " also very convenient.
Because plant has good especially tolerance to gasteropod agent extremely of the present invention, therefore the plant to the desire protection does not have any restriction.Therefore can protect all ornamental plantss that are in all vegetative stages and crop in agricultural, forest and the gardening (also having the greenhouse) not to be subjected to the injury of slug and snail.
Formulation and the application that in the following example, can understand slug of the present invention and snail bait and be used to prevent and treat the composition of timber pests.
The composition that (C) part is used to prevent and treat gasteropod and wood borers according to the present invention prepares in accordance with known methods, do not having under the situation of auxiliary agent, for example by grinding and/or sieving to obtain specific particle diameter, or by compacting solid active ingredient, having under the situation of at least a auxiliary agent then, for example preparing by active ingredient and auxiliary agent are closely mixed and/or grind.These preparation of compositions methods of the present invention and the purposes of using Macrocyclic lactone compounds to prepare these compositions also are themes of the present invention.
Composition in the present invention (C) part generally includes the active ingredient of 0.1-99%, particularly 0.1-95% and at least a solid or the liquid adjuvants of 1-99.9%, particularly 5-99.9%, usually 0-25%, particularly 0.1-20% can be surfactant (in all cases, % are percentage by weights) in the said composition.Although the composition that concentrates is more preferably as commodity selling, the end user can use dilute compositions usually, and active constituent content wherein is very low.
By add other as desinsection, kill mite and/or bactericidal active ingredient can significantly be widened the sphere of action of the present composition and make it adapt to general environment.That mentions among the example of the active ingredient that be fit to add and the present invention (B) partly is identical.
In particularly preferred embodiment of the present invention, use the insect of other destruction timber in Macrocyclic lactone compounds control termites and the soil, thereby realize direct protection timber structure.To the macrolide of the enough pest control amounts of soil application, preferable amount is per hectare 1-2000g, particularly 2-200g, more preferably 5-100g.
The path that worker ant must be worked and enter timber to obtain on insecticide treated soil.They are stained with inevitably and have been with some insecticides and it is taken back termite population, thereby insecticide is spread in termite population.
Active ingredient also can bait form use, for example with as the form that is disclosed in the tablet that contains active ingredient among the U.S.5096710 use.Especially preferably macrolide is administered to by on the construction material of termite as the material of food and termite population life.The example of this material is plank, paper, wood sawdust, cellulose powder or cotton.Useful concentration on these materials is 0.01-10000ppm.Even the timber that has additionally used pheromones and encroached on by fungi, this bait also are effective especially.This application has been disclosed in as U.S.5, in 151,443.
Even under low working concentration, the Macrocyclic lactone compounds of the present invention (C) part also is to have to prevent and/or treat the active ingredient that is worth and the spectrum of very advantageously killing livestock is arranged mollusk and timber pests prevention and control field, and is the active component that homoiothermy species, fish and plant can tolerate well.The active ingredient of using among the present invention is all effective to the mollusk and the timber pests, particularly termite of the general sensitivities of all or indivedual developmental stage and resistance.The mollusk action effect extremely of active ingredient of the present invention can directly show, also can be at once or after after a while kill pests, perhaps show indirectly, for example lay eggs with minimizing and/or reduce the form performance of incubation rate, its good action is equivalent to the lethality of 50-60%.
(i.e. control or eliminate) particularly occurs in the molluscan harm on the plant (mainly being useful plants and the ornamental plants in agricultural, gardening and the forestry) to use the active component of the present invention (C) part to prevent and treat; or occur in the pest of the above-mentioned type on the organs of these plants; the organ of these plants comprises as fruit, flower, leaf, stem, stem tuber or root, in some cases in addition the plant organ that can protect the later stage to grow be not subjected to the injury of these pests.
The target crop that is fit to carry out the mollusk control is cereal class such as wheat, barley, rye, oat, rice, corn or Chinese sorghum; Beet is as sugar beet or fodder beet; Fruit is as the operatic circle, drupe and fruitlet such as apple, pears, plum, peach, apricot, cherry or berry for example strawberry, raspberry and blackberry, blueberry; Beans such as Kidney bean, French beans, pea or soybean; Oil crop such as rape, leaf mustard, opium poppy, olive, sunflower, coconut, castor-oil plant, cocoa or peanut; Curcurbitaceae such as pumpkin, cucumber or muskmelon; Fibre plant such as cotton, flax, hemp or jute; Cedra fruits is as orange, lemon, shaddock or red tangerine; Vegetables such as spinach, lettuce, asparagus, wild cabbage class, carrot, onion, tomato, potato or capsicum; Lauraceae such as avocado, Cinnamomum or camphor; With tobacco, nut, coffee, eggplant, sugarcane, tea, pepper, grape vine, hops, Musaceae, rubber plant and ornamental plants.
Other applications of the active ingredient of the present invention (C) part are to protect storage product and oddment and material not to be subjected to the infringement of mollusk and timber pest.
The composition of the present invention (C) part also is suitable for the infringement that the protective plant propagating materials is not subjected to gasteropod and termite, particularly gasteropod, and described plant propagation material is a seed for example, as fruit, stem tuber or kernel or propagulum.Can before plantation, use the compositions-treated propagating materials, for example handle seed prior to seeding.As selection, can active ingredient of the present invention be applied to (coating) on kind of the benevolence by in fluid composition, soaking kernel or applying kernel with solid composite.As selection, when in the sowing process, the propagating materials kind being applied to composition the plantation place in broadcasting ditch the time.The processing method of these plant propagation materials and the plant propagation material of so handling also are themes of the present invention.
The following example is used for illustrating the present invention (C) part.They do not apply any restriction to this part.
Formulation embodiment
Embodiment F 3: the preparation of slug pill
The material that was not extracted=65: 35), comprise the cold crosslinked corn starch of premix, 4.7Kg, 540g urea/formaldehyde resin, 100g isopropyl alcohol, 3Kg sugar beet syrup and the 140g cyan coloring agent (1,4-two (isobutyl amino) anthraquinone) that the 2.6Kg of the silica of 2.1Kg macrolide and 500g polymolecularity grinds very carefully and closely mix order adds the rape seed that the 40Kg pulverizes (material of the extraction of the rape seed of pulverizing: in blender.Then extrusion modling.Cooling and dry products are removed attritive powder with the 0.5mm sifting machine.Obtain the slug and the Snail baits that can use.
Also can use other conventional drawing method to replace above-mentioned extrusion process to prepare slug and Snail baits.
Application Example
Embodiment A 1: measure the test of slug and snail tablet to the effectiveness of flower garden ash slug (Derocerasreticulatum)
Test slug and snail pill are to the effectiveness of little slug species such as flower garden ash slug in the Merlon box, and the bottom of this box is 17cm * 22cm.At the bottom of box, cover which floor fully wetting cellulose paper.Slug and snail pill evenly are sprinkling upon on half area of test zone, and consumption is 20; Second half is left and is untreated.For fear of coercive action, provide slug untreated supplements in addition: to place potato in two at the diagonal angle of box.Put into 10 adult reticulate pattern slugs (flower garden ash slug) to the district of being untreated of every box.Each tests triplicate.Keep temperature and atmospheric humidity substantially constant in phase in whole test: 19 ° of relative atmospheric humiditys with 90-95%.Check the state of slug, score continuous 7 day every day.When evaluation was renderd a service, lethality all took in the animal number that shows injured symptom.
In this test, Macrocyclic lactone compounds of the present invention is effective especially.
Embodiment A 2: measure the test of slug and snail pill to the effectiveness of Arion rufus
Test slug and snail pill are to the effectiveness of bigger slug species in having equipped the plastic testing box of gauze.The bottom of every box is 0.25m 2At the bottom of box, cover the dark canned compost of 2-3cm (potting compost).Canned compost is by fully moistening before on-test.Slug and snail pill evenly are sprinkling upon the left-half of test zone, and consumption is 3.1g; Right half part is left and is untreated.For fear of coercive action, provide slug untreated supplements in addition: to place potato in two at the diagonal angle of box.Put into 10 red slugs (Arion rugus) that grow up to the district of being untreated of every box.Each experiment repeats four times.Keep temperature and atmospheric humidity substantially constant in phase in whole test: 19 ° of relative atmospheric humiditys with 90-95%.Check the state of slug, score continuous 7 day every day.When evaluation was renderd a service, lethality all took in the animal number that shows injured symptom.
In this test, Macrocyclic lactone compounds of the present invention is effective especially.
Embodiment A 3: measure test to the system efficacy in combination of flower garden ash slug (Deroceras reticulatum)
A) lettuce plant
The macrolide sample dissolution is prepared test solution in 1ml acetone, and in this solution, add water to 50ml.The root that cleaned with clear water in advance of the lettuce seedling of high 6cm was soaked two days in this solution at least.Cutting individual blade from these lettuce plant is placed on the filter paper in the 9cm Petri dish.Get the 1ml water droplet at every filter paper with pipette, make blade in experimentation, keep moistening.In every Petri dish, put into 2 medium-sized slugs then, measure blade amount and the lethality that consumes two days later.
In this test, Macrocyclic lactone compounds of the present invention shows good effect.
B) seed
Contain in the seal box that compost and bottom are 35cm * 20cm to 5 and respectively to put into a collection of slug, every batch is 10.In all cases 100 winter wheat kernels of handling are spread respectively equably in 4 boxes.In the 5th box, 50 winter wheat kernels of handling are distributed to one side of box, 50 untreated winter wheat kernels are distributed to the another side of box with the test repellent action.
In this test, Macrocyclic lactone compounds of the present invention is very effective.
Embodiment A 4: to the effect of termite
Handle wooden bait with the Macrocyclic lactone compounds of difference amount, and test its influence termite incubation rate and survival rate.Working concentration is the acetone soln of the test substances of 0ppm, 0.1ppm, 100ppm and 1000ppm.Make water in the comparative study.In natural environment, preserved four months by the bait that pine constitutes.
Infected wood is collected termite from the open air.For carrying out the research of wooden bait, wood is placed in 80 ℃ of baking ovens kept 48 hours.The dry wood of weighing then, and this wood is placed the active ingredient solution 18 hours of desired concn.Then wood is taken out from solution, also weigh again at air drying.Be to measure the effect of bait, the wood of so handling is placed on the untreated soil of skim in the Petri dish termite.
In every Petri dish, introduce termite (50 worker ants and 2 soldier ants).In eight time-of-weeks, check culture dish weekly No. three times.The growth of record insect, unusual and death condition.After eight weeks, water flushing is wooden, is placed in the baking oven 80 ℃ of dryings 48 hours again.Weigh the again subsequently weight of every block of wood.The difference of wooden weight is equivalent to by the amount of the used up wood of termite.
In this test, macrolide of the present invention is very effective.

Claims (21)

1. prevent and treat the method for the pest in the crop of transgenosis useful plants, it is characterized in that using a kind of composition pesticide to pest or its environment, said composition comprises that the Macrocyclic lactone compounds of acceptable salt form on free form or the agrochemistry is as active ingredient and at least a auxiliary agent.
2. according to the method for claim 1, it is characterized in that using Avermectin (abamectin).
3. according to the method for claim 1, it is characterized in that using emamectin.
4. according to the method for claim 1, it is characterized in that handling genetically modified plants.
5. according to each method of claim 1-4, the genetically modified crops that it is characterized in that described useful plants are corns.
6. according to each method of claim 1-4, the genetically modified crops that it is characterized in that described useful plants are soybean.
7. according to the method for claim 4, it is characterized in that handling the propagating materials of described transgenosis useful plants.
8. a protective plant propagating materials and be not subjected to the method for pest infringement than the plant organ that grows up to late period; it is characterized in that near the plantation or the place of seed propagation material or a kind of agricultural chemicals is used in this place, this agricultural chemicals comprises that the Macrocyclic lactone compounds of acceptable salt form at least a free form or the agrochemistry is as active component and at least a auxiliary agent.
9. method according to Claim 8 is characterized in that described active component is the Avermectin (abamectin) of free form.
10. according to the method for claim 1, it is characterized in that the active ingredient of using is the emamectin of free form or salt form.
11. each method is characterized in that described propagating materials is seedling, rhizome, garden seedling, cutting or seed according to Claim 8-10.
12., it is characterized in that described plant propagation material is a seed according to the method for claim 11.
13. each method is characterized in that described pest is lepidopterous biology according to Claim 8-12.
14. each method according to Claim 8-13, the occupation mode that it is characterized in that described composition are to plant with the pretreated propagating materials of said composition in plantation or sowing place or sow.
15. each method according to Claim 8-14, the preliminary treatment that it is characterized in that described propagating materials are seed dressings.
16. a control timber pest and molluscan method, it is characterized in that using to pest or its environment the agricultural chemicals of the harmful effective dose of going out, this agricultural chemicals comprises that the macrolide of acceptable salt form at least a free form or the agrochemistry goes out harmful reactive compound as active ingredient and at least a auxiliary agent.
17., it is characterized in that the active ingredient of using is Avermectin (abamectin), emamectin or the spinosad of acceptable salt form on free form or the agrochemistry according to the method for claim 16.
18., it is characterized in that the active ingredient of using is the benzoate of emamectin according to the method for claim 17.
19., it is characterized in that it being the control Gastropoda animal according to each method of claim 16-18.
20., it is characterized in that control termites according to each method of claim 16-18.
21. a composition that is used to prevent and treat mollusk and timber pest is characterized in that said composition comprises that at least a macrolide is as going out harmful active compound and at least a auxiliary agent.
CNA2009101513795A 1997-12-23 1998-12-21 The application of macrolide in control of insect Pending CN101584328A (en)

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