TH22945A - Methods for inhibiting plant diseases - Google Patents

Abstract

The invention focuses on methods of inhibiting the growth of pathogens on plants and In plants by introducing an aqueous solution containing at least one urea and soluble salt A type of cation that contains two weles with an anionic ion is applied directly to the seeds, branches, bark, leaves, seed bunches or subsurface regions of such plants. The ratio of the percentage by weight of urea to the two wavelength cation in each substance. These patterns should be in channels ranging from approximately 0.25 - 10.0 per 1.0 of the cationic ions. The two lanes proposed for use include alkaline earth and transition metal ions. The most specifically proposed metals are calcium, magnesium, zinc, manganese, copper, iron, cobalt, The proposed negative ions include nitrates, chlorides and bromides, and their mixtures of these ions in the proposed solution. The ratio of urine to the cation containing Wellwenzi two equals approximately 2.0 - 7.0 per 1.0. The proposed solution is special. Fractions include calcium chloride as a soluble salt. May choose to include each salt The watermark has a second type of cation ion that has two wavelengths with one wavelength ion.

Claims (6)

1. Method to inhibit the growth of pathogenic bacteria on plants. And in plants consisting Direct distribution of seeds, tree branches, bark, leaves, bunches, seeds or soil at the roots under the soil surface The amount yielded an aqueous solution containing approximately 1 to 40% by weight of Urea, a type one soluble salt with anionic ion containing welenis And cation of Two valence alkaline earth metals selected from the group containing calcium, magnesium and their mixtures. And a second type of soluble salts with anionic ion with one wavelength and two valence-containing cation ions selected from the group containing zinc, manganese, copper, iron, cobalt, Kegle and a mixture of these substances Ratio of percentage by weight of urea to cation. Two wavelengths The soluble salts are from approximately 0.25 -10.0 per 1.0. The aqueous solution has a pH between approximately 2.5 and 8.0 and is supplied at a rate of approximately 2 to 100 gallons per acre. So that the cation concentration of at least one alkaline ions and at least one transition metal cation in the tissues of such plants. It will rise to approximately 2 to 4 times the normal level before being treated with aqueous solution. For prosperity 2. The method of claim 1, where the first salt was selected from the group containing Calcium chloride Calcium nitrate Magnesium chloride Magnesium nitrate 3. Method of claim 2, where the second salt is selected from the group containing Zinc chloride Zinc nitrate Manganese chloride Manganese nitrate Copper chloride, copper nitrate and their mixtures 4. Method of claim 1, where the concentration of at least one type of ions There are the following two valence metal cations in the tissues of such plants. The calcium level in plant tissues is approximately 2 to 3 times the normal level prior to the It was treated with 1000-4000 ppm of such aqueous solution, about 100-300 ppm of manganese, about 60-160 ppm of zinc, about 20-60 ppm of copper, about 100-300 ppm of iron, about 0.1-0.3 ppm of cattle. Balt and approximately 0.1-0.2 ppm of nickel. 5. Methods to inhibit the growth of pathogens on plants and in plants consists of Preparation of an aqueous solution containing urea The first type of soluble salt of Anionic ion with a valence And cation of alkaline earth metals with two valence Choose from a group that contains calcium, magnesium, and their mixtures. And dissolved salt Water has a second type of anionic ion with a valence. And cation of the transition metal with Second valence is selected from a group consisting of zinc, manganese, copper, iron, cobalt, nickle and their mixtures. Where the ratio of the percent by weight of urea to cationic ions with second valence is from approximately 0.25-10.0 to 1.0 and directly administered to the seeds, tree branches, bark, leaves, bunches, seeds or subsurface regions of plant Such with aqueous solution at the And a sufficient quantity to increase the ion concentration of ions. Plus one of the alkaline earth metals. And cation of the transition metal as Little of a kind In this plant tissue, up to approximately 2 to 4 times the normal level prior to exposure. Treated with aqueous solution to inhibit the growth of pathogens on plants. 6. Method according to claim 5, where anionic ions are selected from groups containing nitrates, chlorides, bromides and mixtures of these substances. 6th right, where the first salt is selected from the group Contains calcium chloride Calcium nitrate Magnesium chloride Magnesium nitrates and their mixtures And the second salt was selected from the group containing zinc chloride, zinc nitrate, manganese chloride. Manganese nitrate Copper chloride, copper nitrate and their mixtures 8. Method of claim 7 where the first salt is calcium chloride and the second salt is copper chloride 9. Method Proposition 5 also includes modifying or stabilizing the pH of the aqueous solution between approximately 2.5 and 8.0 1 0. The method of claim 5 where aqueous aqueous solution consists of approximately 1 to 40% by Heavier of urea and from about 1 to 60 percent by weight of soluble salt 1 1. The Claim 10 Method, where the percentage-by-weight ratio of urea Per second valence cation is from approximately 2.0-7.0 to 1.0 1 2. Method according to claim 5, where dissolved in water to such plants at a rate of approximately 2 to 100 gallons per acre 1. 3. Method according to claim 5, where the concentration of at least one type of ion There are the following two valence metal cations in the tissues of such plants. Calcium levels in plant tissues are approximately 2 to 3 times that of normal prior to It was treated with 1000-4000 ppm of magnesia, about 100-300 ppm of manganese, about 60-160 ppm of zinc, about 20-60 ppm of copper, about 100-300 ppm of iron, about 0.1-0.3. ppm of cobalt or approx. 0.1-0.2 ppm of nickel 1. 4. Methods for inhibiting the growth of pathogens on plants and in plants consists of Aqueous solution feeding Urea-containing The first type of soluble salt of Anionic ion with a valence And the cation ions of the alkaline earth metals with two valence are Choose from a group that contains calcium, magnesium, and their mixtures. And dissolved salt Water has two types of anionic ions that have one valence. And cation of the transition metal with The Wellness II was selected from a group containing zinc, manganese, copper, iron, cobalt, nickle and a mix of them. Where the ratio of percentage by weight of urea to cation The second valence was approximately 0.25 -10.0 to 1.0, and the solution pH was between approximately 2.5 and 8.0, and directly administered to the seeds, tree branches, bark, leaves, seed bunches, or subsurface root zones of plants. Such with aqueous solution at the And an amount sufficient to increase the ion concentration of the ions. Plus at least one alkali earth metal And the cation of the transitions like At least one species in plant tissue reached approximately 2 to 4 times the normal level prior to treatment. With aqueous solution to inhibit the growth of pathogens on plants or in plants 1 5. Method according to claim 14, where anionic ions are selected from a group containing nitrates, chlorides, bromides and their mixtures 1. 6. Claim Method 15, where the intravenous solution consists of approximately 1 to 40% by weight of urea and from approximately 1 to 60% by weight of urea. Soluble salt And the percentage by weight ratio of urea to cation containing wa The second lane is from approximately 2.0-7.0 to 1.0.