JP2015519044A - Mixtures for promoting plant growth - Google Patents

Abstract

When applied exogenously to citrus trees whose growth and development has been inhibited by a citrus greening disease or condition called HLB, trehalose or trehalose-6-phosphate overcomes the deadly effects of this problem Can do. The regeneration of tree tissue by trehalose or trehalose-6-phosphate is recorded as a document immediately after 72 hours applied exogenously to a tree that is about to die. Tissue regeneration continues with complete regeneration of the leaf canopy, development of fruit buds, flowering and fruiting into flower-rich and healthy fruits. Many of the suspected dead tissue could be covered with healthy new leaves within 2 to 4 months after application. When applying trehalose or trehalose-6-phosphate to soil, the addition of defined hormones further promoted the development of new canopies and root tissues.

Description

  The present invention relates to crop plants, particularly those of the citrus family that have been devastated by a global epidemic termed citrus greening or Huanglonbing (HLB or yellow dragon disease). It relates to the signaling effect of the non-reducing sugar trehalose applied exogenously in member plants. The present invention also relates to the signaling effects of other exogenously applied non-reducing sugars or similar materials or metabolites, particularly referred to as citrus greening disease or HLB and caused by Candidatus Liberibacter bacteria It relates to signaling effects on member plants of the citrus family that have been devastated by global epidemics. Candida ribiberacter bacteria are transmitted by Asian citrus and citrus white lice and cause resrcition in the phloem of citrus trees. This clearly induces a large plant hormone imbalance in citrus trees.

Prior art The undercurrent, which can be abiotic or biological, further exacerbates the conditions of citrus greening and the general “health” of trees because citrus greening induces “more easily” infection There are obstacles that occur next to / with it.
In addition, any other crop plant or other bacteria on other plants may be affected in plants by similar or other forms of disruption of the phytohormonal balance, resulting in impaired growth and development. It is suggested that there is. Similarly, even without bacterial infection, other trees or plants that simply lost the optimal hormonal balance decline, but this occurs more rapidly in citrus greening diseases and can occur with aging of the organism. It ’s actually happening.

  Traditionally, the majority of crop plants have been well-studied and nurtured based on state-preferred production practices, with a focus exclusively or primarily on, among other things, major minerals, nitrogen, phosphorus, potassium, and sometimes Is devoted to supplying other minerals sufficiently or in excess. This approach is widespread throughout agricultural production but can be non-productive and, in addition, over-use signaling molecules that can be used to maximize crop plant productivity, It is an approach that is not in line with the overall reality of the biological world to express (currently there are many unknown signaling molecules, and for many others, the hormones in plants Very little is known about the possibility of exogenously using well-known plant growth regulators to help optimize the balance). To counter the challenges in citrus greening diseases, ie, the imbalance of hormone balance and metabolic signaling in crop growth, produce an optimal balance of hormones, signaling or regulatory molecules, and the growth and development of the entire crop plant The application of these signal metabolites and / or regulatory hormones exogenously to provide optimal transport and distribution of metabolites. A citrus greening disease that leads to the ultimate death of crop trees, also called HLB, but the unfavorable features that this “disease” brings to plant growth and crop production are photosynthetic product transport systems, Or, it seems to be dysfunctional in the “pipeline” part, which is anatomically called “the phloem” in the plant tissue. At least two major systems required for crop production signaling and “food” transport are basically partly affected, followed by death and then eventually completely shut down. The first crisis aspect is the critical transport crisis for plant regulatory hormones and metabolites for the proper signaling of gene expression for growth and development.

  The crisis in this transfer is not only the downward transfer of these signaling or regulatory molecules from the tip of the stem to the tip of the root, but also the upward transfer from the tip of the root to the tip of the stem and either Or in other transports. In addition, the above crisis then secondarily caused congestion of transport of photosynthetic products from other parts of the leaf or photosynthetic chloroplast or blockage of the transport pathway, and concomitantly excessive sugar in the leaves. To produce starch that does not appear to migrate. As a result, it also makes it difficult to transport sugars and metabolites that are absolutely essential for the proper growth and development of crop plants. Such deficiencies, as described above, result in a slow and bent death of the crop plant as a whole.

Objects of the present invention One object of the present invention is to provide chemical compositions or mixtures that provide stimuli that synthesize regulatory hormones and / or signaling metabolites more efficiently and transport them abundantly. Said regulatory hormones and / or signaling metabolites increase overall plant productivity, including from stem tips to root tips and from root tips to stem tips and all relevant tissues of growing crop plants To optimize or even maximize gene expression.

  Another object of the present invention is to provide a chemical composition or mixture that stimulates more efficient and abundant transport of sugars, amino acids and other photosynthetic products from the metabolite synthesis site to the tissue site. Yes, these molecules are necessary for crop growth and development, especially when they are in a critical state similar to that caused by citrus greening diseases.

  Another object of the present invention is to provide a chemical composition or mixture that stimulates the development of new tissue throughout the crop plant to replace dysfunctional tissue.

Other objects of the present invention are as described herein or by any other disease causing bacteria or organisms or any other stress or crisis condition in crop plants. Provide a chemical composition or mixture that stimulates the development of new tissue throughout the crop plant to replace the dysfunctional tissue by disrupting the balance of hormones and signaling molecules across the plant caused by factors That is.
Another object of the present invention is to provide a chemical composition or mixture that promotes cell division and differentiation and thereby the development of a new “transport tissue” pipeline, called conduit tissue in plant science, Tissue includes phloem, woody extracellular space, and other related tissues for the transfer of regulatory hormones and signaling molecules for the development of new and all related tissues in crop plants.

  Another object of the present invention is to develop new tissues throughout the crop plant in order to newly synthesize and transport regulatory hormones and signaling molecules for normal and optimal growth and development of the crop plant. It is to provide a method of applying exogenously signaling molecules and / or exogenously regulatory hormones to “restart” crop plants that are falling into the slow death.

  Another object of the present invention is not only to “restart” crop plants that are in danger and slowly dying, but also to use regulatory hormones and signaling molecules for normal and optimal growth and development of the crop plants. These molecules can be newly synthesized and transported to develop new tissues throughout the crop plant, and also to continue to “healthy” growth over a relatively long and productive period. In order to continue to synthesize and transport an exogenously signaling molecule and / or exogenously regulated hormone.

  Another object of the present invention is to newly synthesize and transport regulatory hormones and signaling molecules for normal and optimal growth and development of crop plants, develop new tissues throughout the crop, and fall into crisis. Not only does it “restart” the crops that are slowly dying, but also a “healthy” growth over a relatively long and productive period that continues to synthesize and It provides a way to apply exogenously signaling molecules and / or exogenously regulatory hormones for transport, and such applications have previously been endangered by citrus greening diseases Resolve tissue clogging and recycle and use metabolic materials that were previously in a critical pattern by autophagy and / or other means to create new and effective To enable the growth of the organization.

  Another object of the present invention is to newly synthesize and transport regulatory hormones and signaling molecules for normal and optimal growth and development of crop plants and to develop new tissues throughout the crop plants, In addition to “restarting” crops that are slowly dying in crisis, continue these molecules to continue “healthy” growth over a relatively long and productive period. It provides a method for applying exogenously signaling molecules and / or exogenously regulating hormones for synthesis and transport, which has previously been put in a state of crisis by citrus greening diseases. Re-circulate and use metabolic materials that were previously in a critical pattern by eliminating the clogging of the tissue that was previously lost, and by autophagy and / or other means, and To enable the development of new and functional tissue.

While the invention is shown by way of example and not limitation, the invention is described in detail herein below with reference to the accompanying drawings. The results of applying trehalose to the leaf canopy or to the bottom of the trunk of the tree leading to the leaf canopy and the root in the ground, as well as the growth hormone regulator and / or other molecules and / or minerals are shown.
FIG. 1 shows the state of the orange tree before applying trehalose to the leaves. Fig. 2 shows the tree of Fig. 1 as of March 22, 2012, after the leaf canopy was treated with trehalose once and then four months later on November 30, 2011. Shows the state. FIG. 3 shows new leaves formed on branches that appeared dead after 4 months after treatment. FIG. 4 shows, in close-up, a state in which new leaves have grown on a tree that has become serious due to a citrus greening disease, even after 4 months of treatment, a branch that seems to have withered and died. FIG. 5 shows a state in which a large number of flowers have bloomed on the trees shown in FIGS. 1 and 2 after 3 months from the treatment. FIG. 6 shows treatment by irrigating trehalose on the foliage and also a mixture of trehalose and hormones on the bottom of the citrus tree trunk, and the remainder of the chemical mixture on the soil and roots at the plant crown site. Shows another tree soaked with minutes. FIG. 7 is the treated tree shown in FIG. 6 and shows three new leaves attached to a small branch that appeared to have withered and died 72 hours ago. FIG. 8 shows a new leaf attached to the tip of a small branch 72 hours after the treatment as shown in FIG. FIG. 9a shows a fruit that is an orange tree 12 months after treatment. FIG. 9b shows the fruit being an orange tree 14 months after treatment. And FIG. 9c shows the initial state of the new leaves of the tree of FIG. 9b.

  The objects of the invention described above are incorporated into the invention as describing a plant growth promoting mixture, along with other features and advantages of the invention. Said mixture exhibits at least the same effect as the signaling molecule trehalose, preferably trehalose or trehalose-6-phosphate, or two listed compounds, in order to transfer the photosynthetic products to newly developing plant tissues. Including other compounds.

  The present invention relates to the signaling effect of the non-reducing sugar trehalose exogenously applied to crop plants, in particular in this particular example of the present invention referred to as citrus greening disease or Huanglonbing (HLB or yellow dragon disease), It relates to member plants of the citrus family that are devastatingly affected by diseases that are prevalent worldwide.

  The present invention also relates to the signaling effects of other exogenously applied non-reducing sugars or similar materials or metabolites, in particular in this particular example of the present invention referred to as citrus greening disease or HLB, And it relates to the signaling effects on member plants of the citrus family that are devastatingly affected by the global epidemic caused by Candida riviberacter bacteria. Candida ribiberbacter bacteria are transmitted by Asian citrus and citrus white lice and cause restriction of the phloem in citrus trees. This problem clearly induces a very large imbalance of plant hormones in citrus trees. Citrus greening induces “easier” infections, resulting in undercurrent, which may be abiotic or biological, further exacerbating citrus greening conditions and general “health” of trees , There are obstacles to accompany. In addition, any other crop plant or other bacteria on other plants are affected in the plant by similar or other forms of disruption of the phytohormonal balance, resulting in impaired growth and development. It is suggested that there is a fear. Similarly, even without bacterial infection, other trees or plants that simply lost the optimal hormonal balance decline, but this occurs more rapidly in citrus greening diseases and can occur with aging of the organism. It ’s actually happening.

  In a preferred application in foliar application where trehalose or trehalose-6-phosphate is applied to the canopy of the affected citrus tree leaf, the concentration in the aqueous solution is 0.0002% in 100 gallons of water per acre. To 2%, preferably 0.02% in a volume of 100 gallons of water per acre.

At the preferred concentration of 0.02% in 100 gallons of water per acre, other plant hormones such as cytokinin and gibberellin may be added to further promote new tissue development, but not necessarily cytokinin and gibberellin. It is not limited to.
It has been observed that plant growth-promoting mixtures greatly promote plant nutrient uptake and development through massive cell division and differentiation induced by trehalose stimulation, as well as concomitant or citrus greening disorders. Some diseases that affect trees can be further promoted by the application of hormones such as cytokinin and gibberellins, in which the hormones are limited to these hormones by effective epigenetic methods And create a more robust, healthier and more economically productive part of the crop plant.

  In a preferred application method in soil application, the surplus is dripped into the soil and applied to the lower part of the trunk of the tree affected by trehalose or trehalose-6-phosphate that penetrates the roots of the citrus tree. The concentration of the aqueous solution should be 0.0002% to 2% in 100 gallons of water per acre, preferably 0.02%. In addition, in a preferred application method in soil application, the surplus is dripped into the soil and applied to the lower part of the trunk of the tree affected by trehalose or trehalose-6-phosphate that penetrates the roots of the citrus tree The concentration of the aqueous solution is 0.0002% to 2% in a volume of 100 gallons of water per acre, and preferably 0.02% trehalose or trehalose-6-phosphate to promote new tissue development And other plant hormones such as cytokinin and gibberellin may be used, but the hormones are not necessarily limited to cytokinin and gibberellin. The signaling molecule trehalose or trehalose-6-phosphate is preferably applied to the plant by means of an aqueous solution with or without other components such as the mineral cobalt or manganese. These other components are combined with trehalose or trehalose-6-phosphate to reduce the harmful effects of ethylene when crop plants suffer from biological or abiotic stress conditions such as high temperatures, water shortages.

  Plant growth-promoting mixtures have been observed to be stimulated by hormones such as cytokinin and gibberellin to greatly enhance plant nutrition and development through massive cell division and cell differentiation, making it more robust and healthy in crop plants Produced a productive and more economically productive part. However, hormones are not limited to cytokinins and gibberellins.

  Plant growth-promoting mixtures have been observed to be stimulated by hormones such as cytokinin and gibberellin to greatly enhance plant nutrition and development through massive cell division and cell differentiation, making it more robust and healthy in crop plants And more economically productive parts, and in particular, increased sugar transport and efficiency of crop plants, resulting in greatly improved crop productivity. However, the hormone is not limited to cytokinin and gibberellin.

  It has been observed that the use of a plant growth-promoting mixture greatly develops the buds that connect the fruits. These shoots subsequently become fruit tying flowers and produce a rich and healthy fruit product. There was no evidence that the plant growth-promoting mixture impaired its growth in the previous stages of citrus tree and citrus fruit production, and it was observed to significantly increase crop plant yields.

  A plant growth-promoting mixture overcomes the phenotype disabled by citrus greening by forming a new healthy canopy and root system, and increases crop plant yield by applying the signaling reducing sugar trehalose An increase was observed. In that case, trehalose is sprayed at a volume of at least 100 gallons of water per acre, but is not limited to spraying on the peripheral leaves that appeared dead or sprayed on the remaining leaves or buds. . In this case, it is important to cover the dying trees as completely as possible with the mixture. Furthermore, as described above, by placing on “soil”, it is possible to remedy a difficult situation related to other disorders other than citrus greening disease, regardless of whether it is abiotic or biological.

In a preferred embodiment where trehalose is applied to the soil or a sufficient amount of material is applied to the trunk of the tree that enters the roots in the soil, the chemical composition or plant growth promoting mixture comprises two plant hormones, namely cytokinins. And an aqueous mixture of gibberellins. Or as mentioned above, it is also applied as foliar spraying to the “ground” part of the tree. As is known to those skilled in the art, cytokinins and gibberellins can be obtained from a variety of natural sources, or they can be chemically synthesized. Gibberellins are preferably selected from one or more of the following:
GA ₁ , GA ₂ , GA ₃ , GA ₄ , GA ₅ , GA ₆ , GA ₇ , GA ₈ , GA ₉ , GA ₁₀ , GA ₁₁ , GA ₁₂ , GA ₁₃ , GA ₁₄ , GA ₁₅ , GA ₁₆ , GA ₁₇ , GA ₁₈ , GA ₁₉ , GA ₂₀ , GA ₂₁ , GA ₂₂ , GA ₂₃ , GA ₂₄ , GA ₂₅ , GA ₂₆ , GA ₂₇ , GA ₂₈ , GA ₂₉ , GA ₃₀ , GA ₃₁ , GA ₃₂ , GA ₃₃ , GA ₃₄ , GA ₃₅ , GA ₃₆ , GA ₃₇ , GA ₃₈ , GA ₃₉ , GA ₄₀ , GA ₄₁ , GA ₄₂ , GA ₄₃ , GA ₄₄ , GA ₄₅ , GA ₄₆ , GA ₄₇ , GA ₄₈ , GA ₄₉ , GA ₅₀ , GA ₅₁ , GA ₅₂ , GA ₅₃ , GA ₅₄ , GA ₅₅ , GA ₅₆ , GA ₅₇ , GA ₅₈ , GA ₅₉ , GA ₆₀ , GA ₆₁ , GA ₆₂ , GA ₆₃ , GA ₆₄ , GA ₆₅ , GA ₆₆ , GA ₆₇ , GA ₆₈ , GA ₆₉ , GA ₇₀ , GA ₇₁ , GA ₇₂ , GA ₇₃ , GA ₇₄ , GA ₇₅ , GA ₇₆ , GA ₇₇ , GA ₇₈ , GA ₇₉ , GA ₈₀ , GA ₈₁ , GA ₈₂ , GA ₈₃ , GA ₈₄ , GA ₈₅ , GA ₈₆ , GA ₈₇ , GA ₈₈ , GA ₈₉ , GA ₉₀ , GA ₉₁ , GA ₉₂ , GA ₉₃ , GA ₉₄ , GA ₉₅ , GA ₉₆ , GA ₉₇ , GA ₉₈ , GA ₉₉ , GA ₁₀₀ , GA ₁₀₁ , GA ₁₀₂ , GA ₁₀₃ , GA ₁₀₄ , GA ₁₀₅ , GA ₁₀₆ , GA ₁₀₇ , GA ₁₀₈ , GA ₁₀₉ , GA ₁₁₀ , GA ₁₁₁ , GA ₁₁₂ , GA ₁₁₃ , GA ₁₁₄ , GA ₁₁₅ , GA ₁₁₆ , GA ₁₁₇ , GA ₁₁₈ , GA ₁₁₉ , GA ₁₂₀ , GA ₁₂₁ , GA ₁₂₂ , GA ₁₂₃ , G A ₁₂₄ , GA ₁₂₅ , GA ₁₂₆ .
Cytokinin is selected from one or more of the following:
Zeatin, various forms of zeatin, N6-benzyladenine, N6- (δ-2-isopentyl) adenine, 1,3-diphenylurea, thidiazuron, CPPU (forchlorphenuron), kinetin, or others with cytokinin activity Chemical formulations.
A preferred gibberellin is gibberellic acid, GA3, present in the aqueous mixture in an amount such that GA3 is between about 0.1 and 10 percent by weight, more preferably from about 0.5 to about 5% by weight. And most preferably from about 0.075% to about 0.125% by weight. A preferred cytokinin is kinetin, which is present in the aqueous mixture in an amount between about 0.003% and 0.3% by weight, more preferably from about 0.0015% to 0.15%, most preferably Preferably from about 0.01% to about 0.05% by weight.

  The ratio of plant hormone, cytokinin and gibberellin is preferably 1:10 to 1: 300 and more preferably 1:20 to 1:40. A ratio of about 1:30 is most preferred. However, to obtain the best results, the absolute amount of cytokinin and gibberellin needs to be varied in proportion to the volume / weight of the plant to be treated and its fruits. The absolute amount of cytokinin preferably varies between 1 and 300 mg per hectare of growing plants, but more preferably varies between 20 and 80 mg per hectare of growing plants. The absolute amount of gibberellin preferably varies between 100 and 10,000 mg per hectare of growing plants, but more preferably varies between 500 and 2500 mg per hectare of growing plants.

Examples The drawings show some examples of the results of applying a plant growth promoting mixture to citrus trees and plants. For example, FIGS. 1 and 2 show the state before and after applying trehalose to the leaves of an orange tree, respectively. In the example shown in FIGS. 1 and 2, the aqueous solution was prepared by combining water and trehalose at a concentration of 1 gram trehalose per gallon of water. The aqueous solution was then applied to the leaves of citrus trees at a rate of 100 gallons per acre. FIG. 2 shows a tree 4 months after being treated once with an aqueous solution. FIG. 3 shows new leaves formed even on branches that appear dead even after 4 months of treatment. FIG. 4 shows a close-up of new leaves growing on a branch that appeared to be dead after 4 months of treatment of a tree suffering from a heavy citrus greening disease. Similarly, FIG. 5 shows a state three months after the aqueous solution is applied once to the same tree, and the tree is in bloom.

6-8 show another example of the result of applying the aqueous solution according to the embodiment of the present invention. For example, FIG. 6 shows a tree treated with a solution containing 1 gram trehalose per gallon of water and the plant hormones cytokinin and gibberellin. Cytokinin accounted for about 0.0015% by weight of the solution, and gibberellin accounted for about 0.5% by weight of the solution. In this example, the aqueous solution was applied to the soil immediately around the base of the tree trunk at a rate of 1 gallon per tree. The solution soaked into the soil. Figures 7 and 8 show new leaves on the branches that appeared to have died, about 72 hours after application of the solution.
FIG. 9a shows a fruit that has become an orange tree after 12 months of treatment.
FIG. 9b is a diagram showing fruits that have become orange trees after 14 months of treatment. And
FIG. 9c shows the natural state of the new leaves of the tree of FIG. 9b.

  The appearance of the leaves and fruits of the treated tree indicates that there are no citrus greening diseases and HLB pathogens. The absence of such bacteria is also demonstrated by real-time PCR, molecular biological techniques for determining Ct values. Ct values in the 40s were found for the treated trees and Ct values in the 20s were found for the infected trees.

Claims (9)

A method for promoting plant growth, comprising mixing an aqueous solution containing trehalose or trehalose-6-phosphate, and applying the aqueous solution to a tree affected by a citrus greening disease. The method of claim 1, wherein the aqueous solution is applied to a canopy of tree leaves. The method of claim 1, wherein the aqueous solution is applied to a tree root system. The method of claim 1, wherein the aqueous solution is applied to the bottom of a tree trunk and the aqueous solution leaches into the root system of the tree. A plant growth promoting mixture comprising an aqueous solution comprising trehalose or trehalose-6-phosphate. The plant growth promoting mixture of claim 5, wherein the aqueous solution further comprises cytokinin and gibberellin. The plant growth promoting mixture of claim 5, wherein the aqueous solution further comprises a plurality of plant hormones comprising at least cytokinin and gibberellin. 7. The plant growth promoting mixture of claim 6, wherein the aqueous solution comprises about 0.003 to 0.3 weight percent cytokinin and about 0.1 to 10 weight percent gibberellin. The plant growth promoting mixture of claim 6, wherein the aqueous solution comprises from about 0.0015 to about 0.15 wt% cytokinin and from about 0.5 to about 5 wt% gibberellin.

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