CN1515152A - Application of antraquinone derivative as pesticide for controlling plant diseases - Google Patents

Application of antraquinone derivative as pesticide for controlling plant diseases Download PDF

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CN1515152A
CN1515152A CNA031253466A CN03125346A CN1515152A CN 1515152 A CN1515152 A CN 1515152A CN A031253466 A CNA031253466 A CN A031253466A CN 03125346 A CN03125346 A CN 03125346A CN 1515152 A CN1515152 A CN 1515152A
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agricultural chemicals
application
archen
plant diseases
controlling plant
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CN1248578C (en
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喻大昭
杨小军
倪汉文
杨立军
王少南
赵永玉
张汉亦
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Hubei Prov Inst Of Agricultural Sciences Plant Protection & Soil Fertilizer
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Hubei Prov Inst Of Agricultural Sciences Plant Protection & Soil Fertilizer
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Priority to PCT/CN2004/000988 priority patent/WO2005029958A1/en
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    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01NPRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
    • A01N35/00Biocides, pest repellants or attractants, or plant growth regulators containing organic compounds containing a carbon atom having two bonds to hetero atoms with at the most one bond to halogen, e.g. aldehyde radical
    • A01N35/06Biocides, pest repellants or attractants, or plant growth regulators containing organic compounds containing a carbon atom having two bonds to hetero atoms with at the most one bond to halogen, e.g. aldehyde radical containing keto or thioketo groups as part of a ring, e.g. cyclohexanone, quinone; Derivatives thereof, e.g. ketals

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  • Life Sciences & Earth Sciences (AREA)
  • Agronomy & Crop Science (AREA)
  • Plant Pathology (AREA)
  • Health & Medical Sciences (AREA)
  • Engineering & Computer Science (AREA)
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  • General Health & Medical Sciences (AREA)
  • Wood Science & Technology (AREA)
  • Zoology (AREA)
  • Environmental Sciences (AREA)
  • Agricultural Chemicals And Associated Chemicals (AREA)

Abstract

The present invention relates to an application of anthraquinone derivative as pesticice for controlling plant fungous diseases. The anthraquinone derivative pesticide contains one kind or several kinds of 10 anthraquinone derivative compounds. The anthraquinone derivative compounds have obvious action for preventing and curing several plant diseases, and can be used for preventing and curing economic crop, grain crop, vegetable, fruit tree and melon diseases due to fungi, including sphaerotheca, erysiphe, blumeria, fusarium, sclerotinia, pyricularia, rhizoctonia, colletotrichum, botrytis, verticillium and alternaria.

Description

Anthraquinone derivative is as the application of controlling plant diseases agricultural chemicals
Technical field
The present invention relates to anthraquinone derivative plant protection compound is the application of effective ingredient as control fungal diseases of plants agricultural chemicals.
Background technology
The infection processs of the phytopathy original (infection process) is a successional process, is divided into intrusion, incobation and three periods of morbidity usually.Haustorium is that fungi is formed at the unique structure in the host cell, and its aspect such as parasitic relation between nutrition absorption, transhipment and definite and the host of fungi all plays an important role.For example: the interactional histopathological study of wheat rest fungus and host is pointed out, the growth of wheat rest fungus haustorium is divided into the haustorium mother cell and forms, the invasion bolt forms, the haustorium neck extends and the haustorium body expands four-stage, germ inoculation back is under the condition that is fit to, produced in 6 hours and sprout, 12 hours most germ tubes are invaded pore and are produced the haustorium mother cell then, 24 hours haustorium mother cells are invaded mesophyll tissue and are produced finger-like haustorium substance and differentiate elongated haustorium neck and spherical haustorium body, the mycelia branch repeatedly that continues to grow, and (Li Zhen qi Ceng Shimai edits Chinese wheat rust Chinese agriculture publishing house, 2002.20-24.109-110) constantly just to form sorus after the differentiation expansion.
Plant pathogenic fungi mainly used chemical pesticide to prevent and treat in the past, and pollution is big, poor with Environmental compatibility, pathogen is easy to generate problems such as pesticide resistance but these chemical pesticides exist.
The anthraquinone-derivative compound is the common Secondary Metabolism of Plant thing that is present in the plant, they are present in polygonaceae, pulse family and Rhamnaceae, more rubiaceous species usually, anthraquinone derivative is the effective ingredient of conventional Chinese medicine, the Chang Zuowei cathartic is used for tcm clinical practice and stronger antibacterial activity (anti-staphylococcus aureus, hay bacillus) is arranged, active anticancer, wherein the Rhein antibacterial activity is the strongest, the effect of archen inhibition human liver cancer cell is the strongest, and (Xiao Chonghou edits Chemistry for Chinese Traditional Medicine Shanghai science tech publishing house 1997,196-197).Yet their functions in plant are not also understood.
Summary of the invention
Technical problem to be solved by this invention is the antifungal activity that makes full use of the anthraquinone-derivative compound, as preventing and treating the particularly agricultural chemicals of corps diseases of plant, stops fungi infecting plant with it effectively.
The present invention is based on the natural active matter of development of novel classes, verified that anthraquinone derivative has anti-fungal activity of plant pathogenic, for anthraquinone derivative provides a kind of new purposes at pesticide field.
Anthraquinone derivative agricultural chemicals of the present invention contains any or multiple anthraquinone-derivative compound among the following 1-10:
Its chemical structural formula is:
Figure A0312534600051
Compound The compound name of an article ????R 1 ????R 2 ????R 3 ????R 5 ????R 6 ????R 7 ????R 8
????1 Archen-6,8-dimethyl ether E modin-6,8-dimethylether ????OH ????H ????CH 3 ????H ????OCH 3 ????H ????OCH 3
????2 ω-hydroxyemodin citreorosein ????OH ????H ????CH 2OH ????H ????OH ????H ????OH
????3 ω-hydroxyemodin-8-methyl ether questionol ????OH ????H ????CH 2OH ????H ????OH ????H ????OCH 3
????4 Archen-8-methyl ether questin ????OH ????H ????CH 3 ????H ????OH ????H ????OCH 3
????5 2-acetyl group archen 2-acetylemodin ????OH ???COCH 3 ????CH 3 ????H ????OH ????H ????OH
????6 Obtusin obtusin ????OCH 3 ????OH ????CH 3 ????H ????OCH 3 ????OCH 3 ????OH
????7 Archen-1,6-dimethyl ether E modin-1,6-dimethylether ????OCH 3 ????H ????CH 3 ????H ????OCH 3 ????H ????OH
????8 Archen-6-ether Emodin-6-ether ????OH ????H ????CH 3 ????H ????OCH 2CH 3 ????H ????OH
????9 ????Xanthorin-5-methylether ????OH ????H ????CH 3 ????OCH 3 ????OCH 3 ????H ????OH
????10 Blunt foline obtusifolin ????OCH 3 ????OH ????CH 3 ????H ????H ????H ????OH
The present invention obtains above-mentioned 10 kinds of anthraquinone derivatives by known organic solvent extraction, extraction, column chromatography, high pressure liquid chromatography in this technical field from Rumex patientia Linn. Rumex patientia, fleece-flower root Polygonum mutiflorum, cassia seed Cassiaobtusifolia, ventilago leiocarpa Ventilago leiocarpa.
From various plants, extract above-mentioned 10 kinds of anthraquinone class derivative compounds, by a large amount of indoor and outdoor tests, find that these anthraquinone-derivative compounds have tangible prevention and therapeutic action to plurality of plant diseases, can be used for preventing and treating various cereal crops, economic crops, vegetables, fruit tree, melon grade is comprised by fungus-caused disease: Sphaerotheca Sphaerotheca, white powder belongs to Erysiphe, the Bu Shi white powder belongs to Blumeria, Fusarium Fusarium, Sclerotinia Sclerotinia, Pyricularia Sacc. Pyricularia, Rhizoctonia Rhizoctonia, colletotrichum Colletotrichum, Botrytis Botrytis, Verticillium Verticillium, the fungus-caused plant disease of Alternaria Alternaria.
For example: (compound 1) archen-6,8-dimethyl ether Emodin-6,8-dimethylether, (compound 7) archen-1,6-dimethyl ether Emodin-1,6-dimethylether, (compound 9) Xanthorin-5-methylether etc. has significant antibacterial activity to wheat powdery mildew (Blumera graminis f.sp.tritici).The histological stain observed result shows, the spray medicine is handled and can obviously be suppressed the conidial sprouting of powdery mildew, handle that conidium can not sprout but the clear water contrast can normally be sprouted at back 4 hours of inoculation spray medicine, inoculation back 8, the spore germination rate of 24,48 and 72 hours spray medicines processing significantly is lower than clear water control treatment germination rate more than 2 times; The germ tube that the spray medicine forms after handling and sprouting almost can not form and normally adhere to spore, and the deformity that shows as elongated tubular product such more than 80% is adhered to spore; The formed spore that normally adheres to almost can not further form haustorium, and established haustorium obviously diminishes.After spraying was handled, single bacterium colony sporulation quantity significantly was lower than the clear water control treatment.
Anthraquinone-derivative compound of the present invention also can be used as the agricultural chemicals of control wheat powdery mildew, cucurbits powdery mildew (powdery mildew of cucumber, edible gourd powdery mildew), gray mold of cucumber, rice blast, rice sheath blight disease, cotton wilt, cotton verticillium wilt, sclerotinia rot of colza, tomato damping off, pepper anthracnose, Alternaria alternate.
10 kinds of anthraquinone-derivative compounds of the present invention have significant antibacterial activity, and they are secondary metabolites of plant, can be from plant, or the synthetic material.
When manufacturing is the antimycotic agricultural chemicals of active ingredient with anthraquinone-derivative compound of the present invention, add that agricultural goes up auxiliary agents such as acceptable carrier, surfactant, can be made into various carriers and various formulations such as the general solid phase of agricultural chemicals known in this technical field, liquid phase and emulsification, dispersant.As wetting powder, missible oil, microemulsion, aqua, suspending agent, water dispersible granules etc.Above-mentioned each anthraquinone-derivative compound can be singly with or multiple (containing two kinds) use with, the proportioning of effective ingredient is 5-90% by weight in each preparation, also can suitably increase and decrease according to different application targets.
The applications of pesticide of the present invention are suitable for using 1 time before disease is about to take place, and re-use 1-2 time every 7-10 days according to disease generation development then.
Beneficial effect of the present invention is, is that the medicament of effective ingredient is the secondary metabolite that plant produces in growth and development process with the anthraquinone derivative, is a kind of novel antimycotic medicament that infects, and can successfully stop fungi infecting plant.Have characteristics such as low toxicity, low-residual and environmentally compatible, belong to novel biopesticide, to plurality of plant diseases particularly corps diseases have tangible prevention and therapeutic action.
Embodiment
In order to understand the present invention better, below in conjunction with embodiments of the invention, furthermore bright essentiality content of the present invention, but content of the present invention is not limited thereto.
Embodiment 1: (archen-1,6-dimethyl ether Emodin-1 is 6-dimethylether) to the research of wheat powdery mildew in seedling stage development impact for derivative compound 7 of the present invention.
1, bacterial classification: wheat powdery mildew (Blumeria graminis f.sp.tritici) bacterial strain No14, this bacterial strain is planted wheat breed with the 10 parts of masters in Hubei and is determined as pathogenic by force.
2, wheat breed: Zheng 98 (affine) with the No14 strains expressed.
3, wheat seedling is cultivated: cultivate the consistent wheat seeding of growing way with bore 30cm flowerpot 18 ± 1 ℃ of illumination boxs in, every alms bowl 15 strains treat that wheat seeding grows to a leaf and tests wholeheartedly the time, the microscopy of taking a sample after dividing potted plant and stripped leaf section dual mode to inoculate respectively.The leaf section vaccination ways that exsomatizes is: first leaf is cut into 3cm leaf section respectively, places on the 0.5% water agar plate that contains the 50ug/ml benzimidazole, every dull and stereotyped 8 leaf sections.
With dissolving of derivative compound 7 usefulness 0.1ml benzene and 20ul emulsifier 656H emulsification, water is mixed with soup again, places in the micro-electronic rotating spraying tower and wheat seeding and the stripped leaf section got ready is handled each 3 repetitions, total spray amount 3ml treats to inoculate the white powder germ behind the soup airing.
Inoculation: the inoculation of above dual mode, all adopt blown joint.Breed powdery mildew No14 number with susceptible wheat breed " Zheng 98 ", cell age 14 days, inoculating spores concentration are 400/cm 2, leave standstill 10min after the inoculation, put 18 ± 1 ℃, RH=90%, cultivate the illumination cultivation chamber of 160001x.
The processing of sample and observation: the rapid dyeing method that adopts Wolf, sampling leaf section is placed on the ethanol that contains 0.15% trichloroacetic acid---chloroform (75: 25v/v) in the mixed liquor, in 70 ℃ of decolouring 20min, make the leaf section transparent, use 15% trichloroacetic acid solution and 0.6% Coomassie brilliant blue R-205 (being dissolved in 99% methyl alcohol) mixed liquor (1: 1 then, v/v) dyeing 20min, leaf section after the dyeing is stored in glacial acetic acid after with the running water rinsing: glycerine: water (5: 20: 75, v/v/v) in, under light microscope, observe the conidium germination rate, the appresorium formation rate, abnormal rate, haustorium substance and haustorium development condition.
The influence that 7 pairs of wheat powdery mildews of derivative compound are grown
Handle Spore germination rate % (24 hours) Deformity appresorium formation rate % (48h) Haustorium generation rate % (48h) Each bacterium colony secondary haustorium produces number 120h Every leaf sporulation quantity 15d (* 10 5Individual)
??100ug/g ????16.0 ????95.2 ????0 ????0 ????0
??20ug/g ????35.4 ????88.9 ????5.7 ????0 ????0
The clear water contrast ????90.0 ????8.3 ????73.9 ????8.3 ????166.5
Embodiment 2, derivative compound of the present invention are to the inhibitory action research of wheat powdery mildew
Adopt embodiment 1 same method to carry out the powdery mildew bacterial classification and wheat seedling is cultivated, (100ug/g~1.25ug/g) surveys its EC to be diluted to the variable concentrations gradient after derivative compound 1-10 is dissolved with ethanol, benzene respectively respectively 50Value, and use 6.25ug/g concentration to survey its potted plant seedling activity.To exsomatize leaf section and plant seedling places the ulv spraying tower, every concentration spray value 3ml, repeat for 3 times, the spray medicine was inoculated powdery mildew after 6 hours, inoculum concentration is with embodiment 1, place 18 ± 1 ℃ of illumination cultivation indoor cultivation then, the powdery mildew after 6 days on each leaf section of record and the blade infects counts, and calculates the fungistatic effect (%) that each is handled.The result proves that compound 1-10 all has fungistatic effect preferably, and (compound 1) archen-6 wherein, 8-dimethyl ether, (compound 7) archen-1,6-dimethyl ether, (compound 9) Xanthorin-5-methylether have excellent control efficiency.
Numbering The compound name of an article ??EC 50Value ug/g The potted plant bacteriostasis rate % of seedling application concentration 6.25ug/g
????1 Archen-6, the 8-dimethyl ether ????0.659 ????78.5
????2 ω-hydroxyemodin ????5.925 ????42.4
????3 ω-hydroxyemodin-8-methyl ether ????3.661 ????40.7
????4 Archen-8-methyl ether ????38.459 ????47.5
????5 2-acetyl group archen ????5.076 ????49.2
????6 Obtusin ????4.534 ????28.8
????7 Archen-1, the 6-dimethyl ether ????0.656 ????74.6
????8 Archen-6-ether ????3.871 ????33.9
????9 ????Xanthorin-5-methylether ????0.605 ????84.7
????10 Blunt foline ????18.332 ????11.9
Embodiment 3: derivative compound of the present invention is to the inhibitory action research of rice blast fungus
1, bacterial classification: Pyricularia grisea w02-1 (affine) with Lijiang xintuanheigu
2, rice varieties: Lijiang xintuanheigu (not containing any anti-pest gene)
Adopt the spore germination method to measure the inhibition activity of 1-10 derivative compound to rice blast fungus.Use tomato oat juice medium culture w02-1, every liter of medium contains tomato juice 150ml, oat juice 750ml (30g oats flakes adds water 1000ml and boils 20min, and double gauze filters), agar 18g.The w02-1 mycelia is inserted in the sterilization back, under 25 ℃ of illumination conditions, cultivates after 2 days, interrupts aerial hyphae with the sterilization cotton swab, continues to cultivate after 1-2 days to wash spore with sterile water, after the filtered through gauze, spore suspension is diluted to 1 * 10 6Individual/ml is stand-by.After the 1-10 compound dissolves respectively with ethanol, benzene, be diluted to variable concentrations gradient 100ug/g-2ug/g respectively, bacterium liquid is mixed with the spore suspension equal-volume, drug concentration is 50ug/g-1ug/g, taking liquid spore mixed liquor 40ul puts on the concave slide, 3 repetitions, and 25 ℃ of lucifuges are cultivated 18h, spore germination rate is respectively handled in investigation when treating that blank spore germination 90% is above, calculates bacteriostasis rate and EC 50Value.
Adopt the inhibition effect of leaf section method mensuration that exsomatize to rice blast.The presoaking and germinating basin is broadcast the paddy rice Lijiang xintuanheigu, when paddy rice 5 leaves 1 heart, the 5th leaf haircut is truncated, getting the 5cm section of coming into leaves is positioned over and respectively handles in the culture dish, every ware 5-7 section is sprayed the drug concentration of 1-10 compound 24ug/g earlier to the leaf section, spray amount is 5ml, 3 repetitions of every processing, the leaf section that will exsomatize again after 24 hours inoculation 1 * 10 6The spore liquid of individual/ml concentration, the every processing 5ml bacterium liquid of quantitatively spraying is preserved moisture under 25 ℃ of dark conditions and is cultivated 36h, and illumination 36h investigates incidence then again, calculates control efficiency.Control efficiency %=(contrast scab number-processing scab number)/contrast scab number * 100.The result proves that compound 1-10 has fungistatic effect preferably equally to rice blast.Remove compound 1; 7; 9 still have outside the excellent control efficiency; (compound 2) ω-hydroxyemodin wherein; (compound 3) ω-hydroxyemodin-8-methyl ether; (compound 4) archen-8-methyl ether, (compound 5) 2-acetyl group archen, (compound 8) archen-6-ether also has good control efficiency.
Numbering The compound name of an article ??EC 50Value ug/g Excised leaf fungistatic effect % application concentration 24ug/g
????1 Archen-6, the 8-dimethyl ether ????2.01 ????87.6
????2 ω-hydroxyemodin ????8.75 ????72.5
????3 ω-hydroxyemodin-8-methyl ether ????7.95 ????75.1
????4 Archen-8-methyl ether ????9.15 ????70.7
????5 2-acetyl group archen ????8.65 ????69.8
????6 Obtusin ????98.54 ????40.6
????7 Archen-1, the 6-dimethyl ether ????2.14 ????83.9
????8 Archen-6-ether ????7.45 ????74.9
????9 ????Xanthorin-5-methylether ????1.89 ????88.4
????10 Blunt foline ????32.7 ????46.8
Embodiment 4:5% wetting powder
With arbitrary compound and 10 parts of WPA-9503 compound auxiliaries of 5 parts of 1-10 of the present invention, 85 parts of diatomite mix by weight, pulverize and promptly get 100 parts of wetting powders.
Embodiment 5:5% emulsion
With arbitrary derivative compound and 75 parts of benzene of 5 parts of the present invention 1,7,9,10,20 parts of 656H compound auxiliary mixed dissolutions promptly get 100 parts of emulsions by weight.
By weight with 5 parts of 2-6 of the present invention, arbitrary derivative compound of 8 and 75 parts of ethanol, 20 parts of 656H compound auxiliary mixed dissolutions promptly get 100 parts of emulsions.
Embodiment 6: derivative compound 7 of the present invention (archen-1,6-dimethyl ether) is to wheat powdery mildew, powdery mildew of cucumber control test
Use 5% wettable powder of present embodiment 4, before powdery mildew shows disease, begin to use, use again after 10 days once totally 2 times, can effectively suppress the generation of land for growing field crops wheat and greenhouse cucurbits powdery mildew disease.
Handle Powdery mildew of cucumber (greenhouse, Wuchang) Erysiphe cucurbitacearum ﹠ Sphaerotheca cucurbitae Wheat powdery mildew (Gucheng city) Blumeria graminis f.sp.tritici
Use multiple The average preventive effect in field Use multiple The average preventive effect in field
5% archen-1, but 6-dimethyl ether wet-milling 1000 times ????99.0 ????1000 ????75.2
1600 times ????97.5 ????1600 ????67.2
3300 times ????80.4
Embodiment 7: derivative compound 2 of the present invention (ω-hydroxyemodin) is to withered bacterium indoor biometrics of rice line and field controling test
Indoor biometrics rice banded sclerotial blight bacterium Rhizoctonia solani AG5 (Hubei Province advantage mycelia is merged the group), go up activation 72h at PDA (potato glucose agar medium) earlier, adopt 2 times of concentration gradient dilution methods to set up 2000ug/ml~7.8125ug/ml drug concentration earlier separately derivative compound 2 then, (i.e. each 10 times of concentration handling), then, PDA is dissolved, by soup and PDA medium mix at 1: 9 (v/v) back the pastille medium of 200ug/ml~0.78125ug/ml, 4 flat boards of every processing (diameter 9cm), insert 6mm bacterium cake in dull and stereotyped central authorities after cooling, putting 25 ± 1 ℃ cultivates down, when treating blank bacterium cake length to plate edge, respectively handle colony diameter with slide measure right-angled intersection method mensuration, calculate and respectively handle bacteriostasis rate.Bacteriostasis rate %=(blank colony diameter-processing colony diameter)/(blank colony diameter-bacterium cake diameter) * 100, and calculate EC 50Value and EC 95Value.5% emulsion of present embodiment 5 is used in the field, and contain after date in rice tillering and begin to use, 10 days 1 time at interval, totally 3 times, in banded sclerotial blight typing " Invest, Then Investigate ".The result proves that derivative compound 2 can effectively suppress the generation of field rice banded sclerotial blight.
Handle Rice banded sclerotial blight bacterium Rhizoctonia solani
Use multiple The average preventive effect in field ???EC 50ug/g ????EC 95ug/g
ω-hydroxyemodin emulsion 500 times ????80.2 ????53.31 ????103.88
1000 times ????61.8
Embodiment 8: derivative compound 3 of the present invention (ω-hydroxyemodin-8-methyl ether) is to cotton wilt fusarium indoor biometrics and field controling test
Employing has been carried out indoor biometrics and field controling test with the method for embodiment 7 to cotton wilt Fusarium oxysporium f.sp.vasinfectum.Cotton Fusarium oxysporum is given birth to survey behind the activation 96h earlier.Field control is beginning dispenser in 10 days after cotton transplantation of seedlings, and per 10 days 1 time, totally 3 times.Proof compound 3 can effectively be controlled fusarium wilt of cotton development.
Handle Cotton wilt fusarium Fusarium oxysporium f.sp.vasinfectum
Use multiple The average preventive effect in field ???EC 50ug/g ????EC 95ug/g
5% ω-hydroxyemodin-8-methyl ether emulsion ????500 ????81.7 ????51.23 ????109.81
????800 ????65.2
Embodiment 9: derivative compound 5 of the present invention (2-acetyl group archen) is to the indoor biometrics and the field controling test of Sclerotinia sclerotiorum
Employing has been carried out indoor biometrics and field controling test with the same method of embodiment 7 to Sclerotinia sclerotiorum Sclerotinia sclerotiorum.Sclerotinia sclerotiorum is given birth to survey behind the activation 72h earlier.Field control is used in the rape initial bloom stage, and 7 days 1 time at interval, totally 3 times, confirmation derivative compound 5 can effectively be controlled the generation of sclerotinia rot of colza.
Handle Sclerotinia sclerotiorum Sclerotinia sclerotiorum
Use multiple The average preventive effect in field ???EC 50ug/g ???EC 95ug/g
5%2-acetyl group archen emulsion 500 times ????85.6 ????10.28 ????37.48
1000 times ????80.7
Embodiment 10: derivative compound 8 of the present invention (archen-6-ether) is to indoor biometrics and the field controling test of the upright withered bacterium of tomato
Employing has been carried out indoor biometrics and field controling test with experimental example 7 same methods to the upright withered bacterium Rhizoctonia solani of tomato, gives birth to behind the upright withered bacterium activation of the tomato 72h and surveys.Field control begins after coming up 7 days 1 time, totally 2 times, proves that compound 8 can effectively control tomato damping off development.
Handle Tomato founds withered bacterium Rhizoctonia solani
Use multiple The average preventive effect in field ??EC 50ug/g ???EC 95ug/g
5% archen-6-ether emulsion ????500 ????87.6 ????27.46 ????78.95
????800 ????69.4
Embodiment 11: derivative compound 9 of the present invention (Xanthorin-5-methylether) is to the indoor biometrics and the field controling test of pepper anthracnose
Adopt embodiment 7 same methods that capsicum anthrax-bacilus Colletotrichum capsici has been carried out indoor biometrics and field controling test, give birth to behind the capsicum anthrax-bacilus activation 120h and survey.First medication is taked in field control, and inserting concentration after 24 hours is 10 6The conidium of/ml, and preserved moisture 3 days, the scab of investigating on the fruit in the 7th day calculates control efficiency compared with the control.Proof derivative compound 9 can effectively be prevented and treated pepper anthracnose.
Handle Pepper anthracnose Colletotrichum capsici
Use multiple The average preventive effect in field ???EC 50ug/g ???EC 95ug/g
5%Xanthorin-5-methylether emulsion ????1000 ????92.3 ????12.15 ????40.32
????1500 ????80.0
Embodiment 12: derivative compound 4 of the present invention (archen-8-methyl ether) is to indoor biometrics and the field controling test of the red star bacterium of tobacco
Adopt the conidia germination method to carry out indoor bioassay, earlier the red star bacterium of tobacco Alternaria alternata is activated 4 days at the PDA flat board, with containing 2% glucose aseptic water washing conidium, be diluted to 10 then 6Spore/ml is stand-by, compound 4 is formulated as the 400ug/ml-3.125ug/ml series concentration, after mixing with 1: 1 equal-volume of conidium liquid then, get 40ul with liquid getting device and place on the concave slide, putting preserves moisture under 25-28 ℃ cultivates 16h, microscopy conidia germination rate, calculate the conidium inhibiting rate, convert the conidium inhibiting rate to probit value, probit value and concentration logarithm are carried out linear regression, obtain EC 50Value and EC 95Value.The field is used medicament earlier in a tobacco leaf group after date, and inoculum density is 10 after 24 hours 5The spore liquid of individual/ml, and preserved moisture 3-4 days.Investigation result proof derivative compound 4 can effectively be controlled Alternaria alternate.
Handle The red star bacterium of tobacco Alternaria alternata
Use multiple The average preventive effect in field ?EC 50ug/g ???EC 95ug/g
5% archen-8-methyl ether emulsion ????500 ????79.2 ????57.4 ????104.46
????800 ????61.7
Embodiment 13: derivative compound 6 of the present invention (obtusin) is surveyed and field control effect giving birth to of verticillium dahliae
Earlier verticillium dahliae Verticillium dahliae is gone up activation 120h at potato agar medium (PDA), after waiting to produce conidium, give birth to survey according to embodiment 12 same methods.The field is beginning dispenser in 10 days after cotton transplantation of seedlings, and 10 days 1 time at interval, execute altogether 3 times, can effectively control the generation of cotton verticillium wilt.
Handle Verticillium dahliae Verticillium dahliae
Use multiple The average preventive effect in field ???EC 50ug/g ??EC 95ug/g
5% obtusin emulsion ????300 ????70.2 ????105.4 ????232.6
????500 ????52.8
Embodiment 14: derivative compound 1 of the present invention (archen-6,8-dimethyl ether) is surveyed and field control effect giving birth to of botrytis cinerea pers.
Earlier botrytis cinerea pers Botrytis cinerea is activated 96h on PDA, after photograph 48h brings out the product spore under uviol lamp then, give birth to survey according to embodiment 12 same methods.The field is elder generation's dispenser agent when 4-5 sheet true leaf appears in cucumber seedling, and inserting concentration after 24 hours is 105/ml spore liquid, the 48h that preserves moisture, and investigation result proves that this derivative compound 1 can effectively control gray mold and take place.
Handle Botrytis cinerea pers Botrytis cinerea
Use multiple The average preventive effect in field ?EC 50ug/g ?EC 95ug/g
5% archen-6,8-dimethyl ether emulsion ????1000 ????85.4 ??15.45 ??28.15
????1500 ????78.6
Embodiment 15: derivative compound 7 of the present invention (archen-1,6-dimethyl ether) and derivative compound 10 of the present invention (blunt foline) combination control field rice blast
Derivative compound 7 has carried out field controling test with 4: 1 by weight proportion couples of rice blast Puricularia grisea of derivative compound 10, evidence, and this combination preparation can effectively be controlled the generation of rice blast, is better than contrasting medicament Isoprothiolane (east, river insecticide factory).
Handle Rice blast Pyricularia grisea
Use multiple The average preventive effect in field
5% archen-1,6-dimethyl ether+blunt foline wetting powder ????1000 ????80.0
????3000 ????63.4
40% Isoprothiolane missible oil ????1000 ????66.1
Embodiment 16: derivative compound 7 of the present invention (archen-1,6-dimethyl ether) and derivative compound 6 (obtusin) combination control greenhouse edible gourd powdery mildew
Derivative compound 7 is 4: 1 with the weight ratio of derivative compound 6, prevents and treats when the greenhouse first meeting is sick in early June, uses 1 time in 7 days at interval, totally 3 times, prove that said composition can effectively control the generation of edible gourd powdery mildew.
Handle Edible gourd powdery mildew Erysiphe cucurbitacearum ﹠ Sphaerortheca cucurbitae
Use multiple The average preventive effect in field
5% Physcion+obtusin wetting powder ????1000 ????91.2
????2000 ????87.5

Claims (16)

1, anthraquinone derivative is characterized in that as the application of controlling plant diseases agricultural chemicals the anthraquinone derivative agricultural chemicals contains any or multiple anthraquinone-derivative compound among the following 1-10:
Its chemical structural formula is:
Compound The compound name of an article ????R 1 ????R 2 ????R 3 ????R 5 ????R 6 ????R 7 ????R 8 ????1 Archen-6,8-dimethyl ether E modin-6,8-dimethylether ????OH ????H ????CH 3 ????H ????OCH 3 ????H ????OCH 3 ????2 ω-hydroxyemodin citreorosein ????OH ????H ????CH 2OH ????H ????OH ????H ????OH ????3 ω-hydroxyemodin-8-methyl ether questionol ????OH ????H ????CH 2OH ????H ????OH ????H ????OCH 3 ?????4 Archen-8-methyl ether questin ????OH ????H ????CH 3 ????H ????OH ????H ????OCH 3 ????5 2-acetyl group archen 2-acetylemodin ????OH ????COCH 3 ????CH 3 ????H ????OH ????H ????OH ????6 Obtusin obtusin ????OCH 3 ????OH ????CH 3 ????H ????OCH 3 ????OCH 3 ????OH ????7 Archen-1,6-dimethyl ether Emodin-1,6-dimethylether ????OCH 3 ????H ????CH 3 ????H ????OCH 3 ????H ????OH ????8 Archen-6-ether Emodin-6-ether ????OH ????H ????CH 3 ????H ????OCH 2CH 3 ????H ????OH ????9 ????Xanthorin-5-methylether ????OH ????H ????CH 3 ????OCH 3 ????OCH 3 ????H ????OH ????10 Blunt foline obtusifolin ????OCH 3 ????OH ????CH 3 ????H ????H ????H ????OH
2, by of the application of the described anthraquinone derivative of claim 1 as the controlling plant diseases agricultural chemicals, it is characterized in that described anthraquinone-derivative compound is used to prevent and treat various cereal crops, economic crops, vegetables, fruit tree, melon grade is comprised by fungus-caused disease: Sphaerotheca Sphaerotheca, white powder belongs to Erysiphe, the Bu Shi white powder belongs to Blumeria, Fusarium Fusarium, Sclerotinia Sclerotinia, Pyricularia Sacc. Pyricularia, Rhizoctonia Rhizoctonia, colletotrichum Colletotrichum, Botrytis Botrytis, Verticillium Verticillium, the fungus-caused plant disease of Alternaria Alternaria.
3, press the application of claim 1 or 2 described anthraquinone derivatives, it is characterized in that the agricultural chemicals of described anthraquinone-derivative compound as control wheat powdery mildew, cucurbits powdery mildew, gray mold of cucumber, rice blast, rice sheath blight disease, cotton wilt, cotton verticillium wilt, sclerotinia rot of colza, tomato damping off, pepper anthracnose, Alternaria alternate as the controlling plant diseases agricultural chemicals.
4, press the application of claim 1 or 2 described anthraquinone derivatives as the controlling plant diseases agricultural chemicals, when it is characterized in that described anthraquinone-derivative compound is the antimycotic agricultural chemicals of active ingredient, add that agricultural goes up auxiliary agents such as acceptable carrier, surfactant, can be made into various carriers and various formulations such as the general solid phase of agricultural chemicals known in this technical field, liquid phase and emulsification, dispersant, comprise wetting powder, missible oil, microemulsion, aqua, suspending agent, water dispersible granules.
5, by the described anthraquinone derivative of claim 4 as the application of controlling plant diseases agricultural chemicals, it is characterized in that described each anthraquinone-derivative compound can be singly with or multiple using with, the proportioning of effective ingredient is 5-90% by weight in each pesticidal preparations.
6, press the application of claim 1 or 2 described anthraquinone derivatives as the controlling plant diseases agricultural chemicals, it is characterized in that described archen-6,8-dimethyl ether (compound 1), archen-1,6-dimethyl ether (compound 7) or Xanthorin-5-methylether (compound 9) are as the agricultural chemicals of preventing and treating powdery mildew of cucumber, wheat powdery mildew, rice blast.
7, press the application of claim 1 or 2 described anthraquinone derivatives, it is characterized in that the agricultural chemicals of described Xanthorin-5-methylether as the control pepper anthracnose as the controlling plant diseases agricultural chemicals.
8, press claim 1 or 2 described anthraquinone derivatives as the application of controlling plant diseases agricultural chemicals, it is characterized in that archen-1,6-dimethyl ether and the combination of blunt foline are as the agricultural chemicals of control field rice blast.
9, press the application of claim 1 or 2 described anthraquinone derivatives, it is characterized in that the agricultural chemicals of ω-hydroxyemodin-8-methyl ether as the control cotton wilt as the controlling plant diseases agricultural chemicals.
10, press claim 1 or 2 described anthraquinone derivatives as the application of controlling plant diseases agricultural chemicals, it is characterized in that archen-1,6-dimethyl ether and obtusin combination are as the agricultural chemicals of control greenhouse edible gourd powdery mildew.
11, press the application of claim 1 or 2 described anthraquinone derivatives, it is characterized in that the agricultural chemicals of described 2-acetyl group archen as the control sclerotinia rot of colza as the controlling plant diseases agricultural chemicals.
12, press claim 1 or 2 described anthraquinone derivatives as the application of controlling plant diseases agricultural chemicals, it is characterized in that described archen-6, the 8-dimethyl ether is as the agricultural chemicals of control gray mold of cucumber.
13, press the application of claim 1 or 2 described anthraquinone derivatives, it is characterized in that described ω-hydroxyemodin is as preventing and treating the agricultural chemicals of rice sheath blight disease as the controlling plant diseases agricultural chemicals.
14, press the application of claim 1 or 2 described anthraquinone derivatives, it is characterized in that the agricultural chemicals of described ω-hydroxyemodin-8-methyl ether as the control cotton wilt as the controlling plant diseases agricultural chemicals.
15, press the application of claim 1 or 2 described anthraquinone derivatives, it is characterized in that the agricultural chemicals of described archen-8-methyl ether as the control Alternaria alternate as the controlling plant diseases agricultural chemicals.
16, press the application of claim 1 or 2 described anthraquinone derivatives, it is characterized in that the agricultural chemicals of described obtusin as the control cotton verticillium wilt as the controlling plant diseases agricultural chemicals.
CN 03125346 2003-08-29 2003-08-29 Application of antraquinone derivative as pesticide for controlling plant diseases Expired - Lifetime CN1248578C (en)

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