TH120054A - Suppression of pathogenic flora and fauna by auxin from use or induction. - Google Patents

Abstract

DC60 (17/09/47) The current invention is directed towards a method for inhibiting the growth of pathogenic microorganisms, especially fungi and bacteria. On plant tissues, the present invention has also been Moving to the wrinkle method Resists the infection of plant parasites by insects and pupae. Especially Ying mal, oral-sucking and chewing type These methods Has been accomplished by using Useful auxin or diacritic Plant growth (PGR), which will have an effect on the auxin levels in Plant tissues to seeds or tubers prior to planting or to roots, leaf clusters, flowers, or fruit after transplantation, auxin, or PGR, has been utilized in effective quantities. In order to inhibit the growth of Organisms that are pathogens or insects, but in insufficient quantities to cause negative growth effects of plant tissue. Auxin may have been used Utilities as natural auxin, synthetic auxin, oxin metabolite, auxin precursor, oxin derivatives Xin or Mixture Of those things Desirable auxin Currently, a dol-3-acetate soil acid (IAA) auxin, or PGR, may be utilized to the seeds, tubers, or plant tissues. The seed or head may have been Spray with or have been soaked in Aqueous solutions containing auxin or PGR, conventional spray or drip-drip systems may be used with aqueous solutions. Oxin, or PGR, to plant tissue Oxin, or PGR, may also be utilized to plant pulp as a powder, or it may be encapsulated within the material. Biologically compatible in order to Prepare for the release at Slowly to the roots of the plant The plant tissue may be dusted with powder, including auxin or PGR. It has been placed in the root zone for the uptake of auxin, or PGR, with the present artifact roots being directed to a method for inhibiting the growth of pathogenic microorganisms, especially fungi and bacteria. On plant tissues, the present invention has also been Moving to the wrinkle method Resists the infection of plant parasites by insects and pupae. Especially Ying mal, oral-sucking and chewing type These methods Has been accomplished by using Useful auxin or diacritic Plant growth (PGR), which will have an effect on the auxin levels in Plant tissues to seeds or tubers prior to planting or to roots, leaf clusters, flowers, or fruit after transplantation, auxin, or PGR, has been utilized in effective quantities. In order to inhibit the growth of Organisms that are pathogens or insects, but in insufficient quantities to cause negative growth effects of plant tissue. Auxin may have been used Utilities as natural auxin, synthetic auxin, oxin metabolite, auxin precursor, oxin derivatives Xin or Mixture Of those things Desirable auxin Presently, dol-3-acetate soil acid (LAA) auxin, or PGR, may be utilized to the seeds, tubers, or plant tissues. The seed or head may have been Spray with or have been soaked in Aqueous solutions containing auxin or PGR, conventional spray or drip-drip systems may be used with aqueous solutions. Oxin, or PGR, to plant tissue Oxin, or PGR, may also be utilized to plant pulp as a powder, or it may be encapsulated within the material. Biologically compatible in order to Prepare for the release at Slowly to the roots of the plant The plant tissue may be dusted with powder, including auxin or PGR. It is placed in the root zone for suction of oxin or PGR by roots.

Claims (4)

Disclaimer (all) which will not appear on the advertisement page: EDIT 09/02/2017 1. Methods for increasing the germination of dried beans which include the procedure of Formation of a growth-regulating solution of water-based plants Water And 0.015% indole-3-acetic acid, 0.005% indole-3-butyric acid, 0.009% cytokinin, and 0.005% gibberellic acid. A solution that regulates plant growth with water as a component to the seeds of Dry pea plants are sprayed with a water-based solution on the seeds at the rate of 200 ml of solution per 100 kg of seed prior to planting. 2. Method of claim 1 which is further incorporated by the procedure of, Use of solution Water-based calcium containing 10% calcium was added to seeds at the rate of 200 ml of aqueous calcium solution per 100 kg of seed. 3. Method for reducing the number of thrips. And aphid larva on onion plants, which consists of a procedure of Formation of a growth-regulating solution of water-based plants Water And indole-3-acetic acid 0.015%, indole-3-butyric acid 0.005%, cytokinin 0.009% and gibberellic acid 0.005% and spray. Aqueous solution was applied to onion plants growing at a rate of 12 ounces per acre. 4. Methods for reducing the number of mature red mite, immature red mite. And yolk on the plant, which consists of the process of Formation of a growth-regulating solution of water-based plants Water And indole-3-acetic acid 0.015%, indole-3-butyric acid 0.005%, cytokinin 0.009% and gibberellic acid 0.005% and spray. The aqueous solution was applied to plants growing at a rate of 12 ounces per acre, where the number of mature red mite, immature red mite, was found. 5. Method of claim No. 4, where plants are melon plants 6. Method of claim No. 4, where plants are eggplant plants. 7. Method for reducing numbers. Of lettuce aphids on cabbage plants, which consists in the process of forming a growth-regulating solution of water-based plants Water And indole-3-acetic acid 0.015%, indole-3-butyric acid 0.005%, cytokinin 0.009% and gibberellic acid 0.005% and spray. The aqueous solution was applied to cabbage plants that were grown at a rate of 12 ounces per acre. ----------------------------------- 1. Methods for inhibition of disease on and in plant tissue, including The utilization of auxin to seeds or tubers for plants before Transplant or reach the root, leaf, flower or fruit of the plant after planting. In effective quantities in order to inhibit the growth of Dangerous life that causes plant diseases, but where Such quantities are not sufficient to produce the negative effects of such plant pulp. 2. Method of claim 1, in which auxin. Was chosen from among which With natural auxins, synthetic auxins, auxin metabolites, auxin precursors, auxin derivatives and their mixtures. 3. Method of claim clause. 2 in which the auxin Is natural auxin 4. Method of claim No. 3 Where natural auxin Clause 2 in which auxin is synthetic auxin 6. Method of claim 5, where Synthetic auxin Was chosen from among which Contains indole-propionic acid, indole-3-butyric acid, phenylacetic acid, naphthalene acetate (NAA), 2,4- acid. Dichlorophenoxytic, 4-chloroindole-3-acetic acid, 2,4,5-trichlorophenoxamine, 2-methyl acid -4-chlorophenoxyacetic, 2,3,6-trichloro-benzoic acid, 2,4,6-trichlorobenzoic acid, 4-amino-3 acid. , 4,5-tri Chloropicholinic and their mixtures 7. Method of claim No. 6, in which synthetic auxin Is indole-3-butyric acid 8. Method of claim No. 2 in which auxin is said Has been taken advantage of Seeds or tubers at a rate of approximately 0.0028 to approximately 0.028 g of auxin / 100 kg of seed weight. 9. Method of claim 2, where auxin is mentioned. Has been taken advantage of Nuts at a rate of approximately 0.0028 to approximately 0.028 g of auxin / 100 kg of seed weight. 1 0. Method of claim 9, where auxin is mentioned. Has been utilized as well The rate is approximately 0.016 to approximately 0.112 g of auxin / 100 kg of grain weight. 1 1. Method of claim 2, in which the auxin is applied. Has been taken advantage of Potato seed is converted at a rate of approximately 0.0125 to approximately 2.8 g of auxin / ha of the planted plot 1 2. Method of claim 11, where the auxin is located. Has been utilized as well The yield rate is approximately 0.125 to approximately 0.28 g of auxin / ha of the planted plots. 1. 3. Clause 2 method of claim, where the auxin. It was utilized to roots, leaf clusters, flowers or plants at a rate of approximately 0.0002 to approximately 0.06 g of oxin / ha / day 1 4. Method of claim 2, where Auxin such Has been exploited in As a aqueous solution of the said auxin 1 5. Method of claim 14 where the solution is In addition, it contains The metal was chosen from among which Contains alkaline earth metals. Boron transition metals and their mixtures 1 6. Method of claim 15, where the metal It was chosen from a group consisting of calcium, zinc, copper, manganese, boron and their mixtures. 1 7. Method of claim 15, where the metal Appears in the solution as In the range, it is approximately 0.001 to approximately 10.0 percent by weight 1. 8. Method of claim No. 2 in which the auxin is said. Has been exploited by Spray the seeds or tubers with a solution. 1 9. Methods of claim 2, where the organisms are present in the aqueous solution of such auxin or by soaking the seeds or tubers in the aqueous solution of the auxin. As pathogens were chosen from among which Contains fungi, bacteria and their mixtures 2 0. Method of claim 19 where the fungi are These were chosen from a group consisting of Fusarium, Rhizoctonia, Pythium and Phytophthora, and their mixtures and bacteria were selected from a group consisting of Erwinia, Pseudomonas and their mixtures. 2 1. Methods. Of claim 2, where the plant is Selected grain crops These consist of dried beans, soybeans, onions, corn, cotton, potatoes and their mixtures. 2. 2. Method of claim 2, where auxin is mentioned. Has been exploited in As a dry powder, including auxin. Or as an aqueous solution of the aforementioned auxin 2 3. Method of claim 2, where auxin is It has been utilized to the seed, tuber or root of the plant. It is said in an encapsulated form in order to provide the slow release of the auxin. 2 4. Method of Clause 23, whereby said auxin. Has been encapsulated in the material entering Biological compatibility, which provides Prepare for a slow release of said auxin. Such material can Pick from moo These include clays, lignite, resins, silicones and their mixtures. 2 5. Methods for inhibition of disease on and in plant tissues, consisting of Management of auxin levels in plant tissues using Hormone benefits for Plant growth Or pre-cursor Or the conjugate of such hormones to the seeds or tubers of plants Before transplantation or to reach the root, leaf, flower or fruit of the plant after transplanting in the fruitful quantity so that Will adjust the oxygen in the tissues Such plants go to levels sufficient to inhibit the growth of Life Is dangerous, which causes such disease, but in Where such levels are not sufficient to adversely affect the growth of the membranes 2 6. Method of claim 25 where hormones for The growth of such plants Choose from a group consisting of oxin, ethylene, cytokinin, gibberylin, absinic acid, brasin steroid, jasmonate, Salicylic acid and pre-cursor And their derivatives 2 7. Method of claim 25, where hormones for The growth of such plants is auxin 2. 8. Method of claim 25 where hormones or pre The cursor or The conjugate of such hormones is obtained The combination of metals was chosen from among which Contains alkaline earth metals, transition metals, boron and their mixtures. 2 9. Methods for inhibiting the growth of Fusarium and Rhizoctonia on dried pea plants composed of fusarium and rhizoctonia. By utilizing auxin to the pea for the above plant. Growing in fruitful quantities In order to inhibit the growth of things There is such a life on and in the tissues of the plant where such quantities are insufficient to produce negative growth effects. 3 0. Method of claim 29 in which auxin Is indole-3-acetic acid 3. 1. Method of claim 30, where auxin is said Has been utilized as well The rate is approximately 0.0028 g of auxin / 100 kg of grain weight. 3. 2. Method of claim 31, where auxin is mentioned. Has been utilized by Spraying the seeds with a solution 3 3. Method of claim 32, where solvents other than This contains the metal obtained Select from a group consisting of calcium, zinc, copper, manganese, boron and their mixtures. 3 4. Methods for inhibiting plant parasitic infection by insects. And the pupae of such insects, which consist of The utilization of auxin to seeds or tubers for plants before Transplant or reach roots, leaf clusters, flowers or plants after planting in fruitful quantities in order to inhibit parasitic infection by insects and pupae, but where they are not enough. Just to cause negative tissue effects 3 5. Method of claim No. 34 in which auxin Was chosen from among which Contains natural auxin, synthetic auxin, auxin metabolite, auxin precursor, auxin derivatives and their mixtures. 3 6. Method of claim Article 35 where the auxin is said Natural auxin 3 7. Method of claim 36, where natural auxin It is an indole-3-acetate acid 3. 8. Method of Clause 35 in which the auxin. Synthetic auxin 3 9. Method of claim 38, where auxin Synthesizer was chosen from among which Contains indole-propionic acid, indole-3-butyric acid, phenylacetic acid, naphthalene acetate (NAA), 2,4- acid. Dichlorophenoxytic, 4-chloroindole-3-acetic acid, 2,4,5-trichlorophenoxamine, 2-methyl acid -4-chlorophenoxyacetic, 2,3,6-trichloro-benzoic acid, 2,4,6-trichlorobenzoic acid, 4-amino-3 acid. , 4,5-tri Chloropicholinic and their mixtures 4 0. Method of claim 39, where auxin It is synthesized to indole-3-butyric acid 4. 1. Method of claim 35, where auxin is Has been utilized as well The rate of which is greater than approximately 0.0002 g of auxin / ha / day 4 2. Clause 41 of the method in which the auxin. Has been utilized as well The rate is approximately 0.0002 to approximately 0.06 g of oxin / ha / day 4 3. Clause 42 of the method in which the auxin is applied. Has been utilized as well The rate is approximately 0.002 to approx. 0.01 g of oxin / ha / day 4 4. Clause 35 of the method in which the auxin. It has been utilized to roots, leaf clusters, flowers or such fruits as dried powder including the aforementioned auxin or as a water-containing solution of the aforementioned auxin. Of claim 44 in the presence of such auxin Has been exploited by Dry dust, including the aforementioned auxins, 4 6. Method of claim 44, where the auxins are Has been exploited in As an aqueous solution by Let the water flow through drips or by utilizing the spray. 4 7. Method of claim 46 where the solution is This includes metals that Was chosen from among which With alkaline earth metals Boron transition metals and their mixtures 4 8. Method of claim 47, where the metal They were chosen from a group consisting of calcium, zinc, copper, manganese, boron and their mixtures. 4. 9. Method of claim 35 where the insect Was chosen from among which With mouth-sucking insects, chewing insects 5 0. Method of claim 49, where vermin. Such a sucker was chosen from. A group consisting of mites, aphids, thrips, white flies, leaf-eating locusts The flea-like jumping insects and those that suck plant tissues. And mixtures of things They and the chewing insects were chosen from a group consisting of Lepidoptera and Helidoceras, and their mixtures. 5 1. Method of claim 35, where the plants Is a type of cereal that has been chosen From a group consisting of dried beans, soybeans, onions, corn, cotton, potatoes and their mixtures 5 2. Methods for inhibiting plant infection by fighting animals. Stirred or destructive animals, including insects and their pupae, consisting of Management of auxin levels in plant tissues of such plants by Hormone utilization For the growth of plants or pregers or conjugates of such hormones to seeds or tubers of plants prior to planting or to roots, leaf clusters, or fruit after planting in quantities. to Effect in order to adjust the auxin in the meat Such pulp has reached a level sufficient to inhibit the Growth of things Life is dangerous which causes loud diseases Say, but where such levels are not sufficient to produce results The growth of such membranes 5 3. Method of claim 52 where hormones for The growth of such plants Choose from a group consisting of oxin, ethylene, cytokinin, gibberylin, absinic acid, brasin steroid, jasmonate, Salicylic acid and pre-cursor And their derivatives. 5 4. Method of claim 52, where hormones for The growth of such plants is auxin 5. 5. Method of claim 52 where plant hormones Or that pre-cursor, or The conjugate of such hormones They were combined with selected metals from the group consisting of alkaline earth metals, transition metals, boron and their alloys. 5 6. Methods for inhibition of adhesion. Parasites of onion trees By Thrips and Chrysalis Of the said thrips Which consists of The utilization of auxin to the leaf clusters of the onion in Quantity that is effective in order to Inhibit parasitic infection by Thrips 5 7. Method of Clause 56, where auxin is said to be indispensable to the negative growth of such plant tissues. 5. Indole-3-acetic acid 5. Method of claim 57, in which the auxin Has been utilized as well The rate is approximately 0.0002 g to approx 0.06 g of oxin / ha / day 5 9. Clause 56 of the method in which the auxin is applied. Has been exploited in As an aqueous solution by Use of spraying to the group 6 0. Method of claim 59 where the solution is In addition, it contains The metal was chosen from among which Contains calcium, zinc, copper, manganese, boron and their mixtures. 6 1. Method of claim 56, where auxin is applied. Has been exploited by Dry dust sprinkling including auxins 6 2. Seeds or plots containing seeds for crop production which are highly efficient. Increased disease resistance, which consists of plant seeds or plots containing granules and auxins that have been distributed on the surface of the seed or plots containing Such seeds, such auxins - are present in fruitful quantities. In order to inhibit the growth in or on the plant tissues of such disease-causing harmful organisms. 6 3. Seeds or plots of claim 62, where the auxin is obtained, but where it is not sufficient to induce negative growth of such plant tissues. select From a group consisting of natural oxins, synthetic auxins, oxin metabolites, auxin precursors, oxin derivatives and their mixtures. Containing the seed of claim 63, where the auxin is Indole-3-acetate 6 5. Seeds or plots containing the seed of claim 63, where the auxin is present. In the amount of 0.0028 to approximately 0.028 g of auxin / 100 kg of seed weight 6 6. Kernels or kernels of claim 63, where they are peas. And the said auxin appears The amount is approximately 0.0028 to approximately 0.028 g of oxin / 100 kg of seed weight. Plots with potato seeds and Such auxins were present in amounts resulting in approximately 0.0125 to approximately 2.8 g of oxin / ha of the plots containing the seeds containing the Has been planted 6 8. Seeds or plots containing the seeds of claim 63 where the pathogenic organism Chosen from among which Contains fungi, bacteria and their mixtures 6 9. Seeds or seed plots of claim 63, in which they are plants. The type of cereal that was chosen from the group These include dried beans, soybeans, onions, corn, cotton, potatoes and their mixtures. 7 0. Kernels or plots containing the kernels of Clause 63. Distribution on the surface of the seed or Plots containing such seeds Among the metals chosen by the alkaline earth Boron transition metals and their mixtures 7 1. seeds or plots that contain seeds for the production of plants that are Increased disease resistance, which consists of plant seeds or plots containing seeds and hormones for plant growth, can produce a level of effect. Popular plant auxin It is said that it has been distributed on the surface of the seed. Or plots containing such seeds Such hormones appear in effective amounts to inhibit the growth of pathogens. Of harmful plants and The disease occurs, but in the place Which was not sufficient to cause negative growth of the plant 7 2. The seed or plots containing the seed of claim 71, where the growth hormone Of the plants were chosen from among which Contains auxin, ethylene, cytokinin, gibberelin, absisicic acid, brass steroid, jasmonate, salicylic acid. And pre Cursors and their derivatives 7. 3. The seed or plots containing the seed of claim 71, where the growth hormone Of the above plants is auxin 7 4. The seed or plot containing the seed of Clause 71 additionally consisting of received. Distribution on the surface of the seed or Plots containing such seeds A group of selected metals containing alkaline earth metals, transition metals, boron and their mixtures.