FR2497065A1 - Plant feeds for application to leaves and seeds - Google Patents

Abstract

Plant feed,for foliar application or application to seeds, contains (a) 0.1-15 wt.% of a titanium ascorbic acid chelate (I) having 14-28 moles ascorbic acid per g atom of Ti and pH 5-7. and also contains (b) 0.1-2.0 parts of one or more biochemically essential nutrients and/or 0.0001-0.001 part of a phytohormone, per part of Ti and (c) at least 0.01%, calculated on total solids, of one or more compounds selected from sorbic acid, benzoic acid, p-nitro benzoic acid and propionic acid and their salts, and hexamethylene tetramine, optionally with wetting agents, adhesive and other conventional additives.- The presence of the additives (c) minimises microbial attack which usually causes insolubilisation of the Ti. These compositions therefore have a longer-lasting effect than conventional Ti-containing feeds.DEAB- DE3151612 C Aq. plant nutrient compsn. comprises a chelate (0.5-15 wt.%) obtd.from a Ti salt (1 mol.) and ascorbic acid (14-28 mol.) at pH 5-7; one or more plant nutrients (10-200 wt.% based on Ti) and/ or phytohormones (0.1-1.0 wt.% based on Ti); sorbic acid and/or benzoic acid and/or 4-hydroxybenzoic acid and/or propionic acid and/or hexamethylenetetramine, or their salts (each 0.1-1.0 wt.% based on total solids); and opt. additives such as wetting agents, adhesives, etc

Description

 The present invention relates to compositions containing titanium for the conditioning of plants, which have an increased physicochemical and biological activity.

 It is well known that titanium plays an important role in the vital processes of plants.

 It is also known that although titanium is present in the soil at high concentrations, it is not available to plants because the water-insoluble titanium salts cannot exercise their biological activity.

 According to the Hungarian patent No 170 693, a solution containing tetravalent titanium ions is reacted with ascorbic acid to give a titanium complex usable for the treatment of plants. Ascorbic acid is present in the solution in excess relative to titanium, at a factor of between 50 and 200.

However, the stability of aqueous solutions containing ascorbic acid in an excess suitable for the treatment of plants is not satisfactory. According to microbiological tests, for example, the Clestridium botulinum, Aspergillus niger, Lactobacillus lactis, Clostridium bytilicum, Thermobacterium mobile strains break down the ascorbic acid used to form the complexes. It is assumed that the presence of titanium increases this effect. Furthermore, the titanium sprayed on the surface of the leaves in the form of a thin layer can be easily inactivated by the effects of the environment and therefore during the vegetation period, the frequency of the treatments must be considerably increased to ensure 1 ' desired effect.

Due to the high labor costs and energy consumption, this has a negative effect on the economics of the process.

 The invention relates to a new composition containing titanium for conditioning plants, which is free from the above drawbacks, that is to say in which tetravalent titanium is resistant to oxidation even in very dilute solution, presence of a significant excess of ascorbic acid, after spraying over a large area. The new compositions are also resistant to microorganisms.

 According to the invention, to solutions containing tetravalent titanium ions and a significant excess of ascorbic acid, at least 0.01% by weight of one or more compounds chosen from the following group is added: sorbic acid and its salts , benzoic acid and its salts, salicylic acid and its salts, propionic acid and its salts, p-nitrobenzolic acid and its salts and hexamethylene tetramine. The percentage amount of the above additives is related to the solids content of the composition.

 Ascorbic acid is used in excess at a factor of between 20 and 200 compared to titanium. The stabilizers indicated above are added to the composition up to a concentration of 25% by weight, but at a concentration exceeding 2% by weight their activity is increased to a relatively small extent and therefore it is generally not economical increase their quantity above this concentration.

 It is a considerable advantage of the compositions according to the invention that, because of their increased stability, the frequency of the treatments can be reduced or, if the frequency of the treatments is not modified, the activity is increased by 5 to 8% compared to known compositions which do not contain stabilizers. The compositions can be stored for a long period without significant loss of activity, despite their high concentration of ascorbic acid, even in very dilute aqueous solutions.

 The compositions according to the invention comprise, in addition to tetravalent titanium ions and an excess of ascorbic acid in a proportion of between 20 and 200 relative to titanium, and possibly other conventional additives, to the minus 0.01% by weight of one or more compounds chosen from the following group: sorbic acid, benzolque acid, p-hydroxy-benzolque acid, propionic acid, salts of these compounds and hexamethylenetetramine optionally in mixture with trace elements and / or plant nutrients. Trace elements include magnesium, iron, manganese, zinc, molybdenum and boron while the term "plant nutrients" is used to refer to conventional fertilizers containing nitrogen, phosphorus and potassium (NPhP), suspensions, etc.

 When the compositions are prepared, a tetravalent titanium salt is dissolved in water at a desired concentration, ascorbic acid is added in a desired excess and the pH of the solution is preferably adjusted to about 5.

 To the solution obtained, one or more of the additives indicated above are added. In the absence of these additives, the surface of the liquid is already covered with colonies of microorganisms after 2 weeks. Microorganisms decrease the concentration of active ingredient in the solution and make normal use of the solutions impossible. The additives according to the invention inhibit the development of colonies of microorganisms and consequently maintain the solutions in a state suitable for use for a long period and at the same time give an increase of 5 to 8% in the yield of the cultures compared to solutions having the same concentration of active ingredient, but not containing the additives according to the invention. This increase in yield is due to the increased microbiological resistance.

 Micro-foods and macro-elements and phytohormones when added in a given amount to the titanium complex tetravalent with ascorbic acid accelerate plant growth.

 Compositions containing macro-foods and micro-foods, when applied to plants at a low dose by foliar application or spraying or used for seed treatment have a considerable influence on plant development, accelerate the absorption of micro-foods, promote the action of phyto-hormones below the toxic threshold.

 The compositions for conditioning plants according to the invention comprise from 0.1 to 15.0% by weight, preferably from 0.5 to 15.0% by weight of a titanium-ascorbic acid chelate which contains from 14 to 28 moles of ascorbic acid per gram atom of tetravalent titanium ions whose pH is adjusted between 5 and 7, from 0.1 to 2.0 parts by weight of a biochemically essential nutritive substance per part by weight d tetravalent titanium ions or a combination of such nutrients and / or from 0.001 to 0.01% of one or more phyto-hormones and at least 0.01% by weight of one or more of the compounds chosen from the group: sorbic acid and its salts, benzoic acid and its salts, p-nitro-benzolic acid and its salts, propionic acid and its salts, hexamethylene tetramine, relative to the total weight of the solid ingredients, possibly in combination with wetting agents , adhesives or other conventional additives.

 As a nutritive substance, the composition preferably contains boron, magnesium, manganese, iron, zinc, molybdenum or a soluble salt of these elements. Macro-foods include water-soluble nitrogen-phosphorus-potassium fertilizers.

 The phyto-hormone constituents of the compositions can be auxins, gibberellins, cycloquinines, hetero-auxins (alpha-naphthylacetic acid-beta-indolylacetic acid), etc. Phyto-hormones include 2,4-dichlorophenoxyacetic acid and its salts. The compositions contain from 1000 to 2000 ppm of ascorbic acid in a liter of solution and the amount of ascorbic acid relative to the tetravalent titanium is between 50,000 and 100,000 ppm. As an additional additive, one or more of the stabilizers indicated above are added to the solution. As regards the trace elements, the compositions may contain, for example, 1000 ppm of boron, 500 ppm of manganese, 500 ppm of zinc, 1000 ppm of magnesium and 500 ppm of iron per 1000 ppm of tetravalent titanium, in the form of water-soluble salts. The compositions can contain for example 25 ppm of 2,4-dichlorophenoxyacetic acid or 10 ppm of giberellic acids or similar additives per 1000 to 2000 ppm of titanium.

 The plant protection compositions according to the invention can be prepared by dissolving a water-soluble salt of tetravalent titanium, for example titanium tetrachloride or sodium titanate and 14 to 28 moles of ascorbic acid per gram atom of titanium in water, adjusting the pH of the aqueous solution to a level of 5 to 7 and adding the aqueous solution of micro- and macro-foods to the solution obtained. Wetting agents or suitable adhesives and stabilizers can be added to this solution. The stabilizers stabilize the concentration of titanium and trace elements on the surface of the plants, which have been sprayed with the compositions.

 The compositions according to the invention are generally applied to plants by spraying. Experimental observations show that the nutrients penetrate into the chloroplasts of the leaves and as a result the photosynthetic and enzymatic activities are increased.

 In field trials and greenhouse experiments under controlled conditions (for example with lighting), it has been established that the use of the compositions according to the invention accelerates the absorption of biochemically essential nutritive substances. The absorption of magnesium, manganese, iron and zinc plays an important role in photosynthesis, has a direct influence on the yield of fruit trees and cereals and also increases the food value.

When spraying papilionaceae and herbs, the presence of molybdenum, and when treating beets the presence of boron increases crop yields, improves the carbohydrate formation conditions and has an advantageous effect on the formation of the cell walls. In the case of nutrient-poor soils, it is also advantageous to include water-soluble nitrogen, phosphorus and potassium compounds in the plant conditioning compositions according to the invention.

 Low concentrations of phyto-hormones and herbicides with hormonal activity considerably increase the growth of young plants, seedlings, and promote the growth of shoots and buds.

 The optimal doses of the compositions for conditioning plants according to the invention depend on the varieties of plants to be treated. When vegetables are treated in their growing season, doses of 5 to 10 liters per hectare can be used 3 or 4 times. To treat cereals after flowering, a single dose of 1 liter per hectare is generally sufficient. If young plants are treated from their 3-4 leaf stage every 10 days, their development is effectively increased.

 The spraying can be carried out by airplanes, helicopters or sprayers. Before use, the compositions are diluted with water to the desired concentration and they are used at a rate of 1 to 5 liters per hectare, depending on the mode of application. From an economic point of view, it is recommended to link the treatments with the present compositions to other plant protection works. The compositions according to the invention are compatible with any neutral or weakly acidic plant protection agents.

 The preparation and use of the compositions according to the invention are illustrated by the following examples.

Example 1
A tetravalent titanium salt corresponding to 1 g of titanium and 100 g of ascorbic acid are dissolved in water.

The solution is made up to 1 liter, the pH is adjusted to 5 and 1 g of salicylic acid is added. The susceptibility of conservation of the above composition is at least 2 years.

 To the above composition, a soluble ammonium salt corresponding to 3% by weight of nitrogen is added, phosphoric acid corresponding to 4% by weight of phosphoric anhydride and a potassium salt corresponding to 5% by weight. weight of K2O, the percentages being taken relative to the total weight of the solution. The susceptibility of preservation of the composition is that of the above composition, but it also contains essential nutritive substances in addition to the constituents used for the conditioning of plants.

 The activity of the composition described above was tested on wheat (Rana-1) in the growing season, at a dose of 3 x 1 g titanium / ha. The yield of the treated plants was compared with that of the untreated control. The following results were obtained.

Yield 102 kg / ha%
Wheat treated with the above composition 47.25 121.4
Untreated witness 38, 93 100, 0
Example 2
A tetravalent titanium salt corresponding to 1 g of titanium and 100 g of ascorbic acid are dissolved in water. The solution is made up to 1 liter and the pH is adjusted to about 5. 2 g of ferrous sulfate are added to the solution. The composition under normal conditions can be stored for approximately 2 years without any loss of activity. The activity of the composition was determined in field trials on corn to be ensiled.

 The corn to be ensiled was treated with the above composition at a dose corresponding to 3 × 1 g titanium / ha. The results obtained are given in the following table.

Yield%
But to ensile treated by the above composition 486.0 119.0
Untreated control 408.0 100.0
Example 3
A tetravalent titanium salt corresponding to 1 g of titanium and 95 g of ascorbic acid are dissolved in 1 liter of water. The solution is made up to 1 liter, the pH is adjusted to approximately 5 and 0.5 g of sodium benzoate is added. The composition obtained can be stored for more than 2 years without any loss of activity.

The activity of the composition was determined in corn germination tests (variety TC 3344 / a). The following treatments were carried out:
Witness 1: untreated witness
Witness II: witness treated with a composition containing the
above ingredients except sodium benzoate
Test solution: the composition prepared according to
present example
The compositions were used at the same dose as in Example 1.

 The results obtained are shown in the following table.

Average length
stems, cm%
Witness 1 4.09 100.0
Witness II 4.65 113.7
Test solution 4.74 115.9
The same test was repeated in the fields on corn to be ensiled. The following results were obtained.

Yield 10kg / ha%
Witness 1,406.0 100.0
Witness II 471.0 116.0
Test composition 484.0 119.2
Example 4
A water-soluble compound of tetravalent titanium corresponding to 1 g of titanium and 105 g of ascorbic acid are dissolved in water. The solution is made up to 1 liter, the pH is adjusted to approximately 5 and 0.1% by weight of magnesium, 0.05% by weight of iron, 0.05% by weight of manganese, 0.05% are added. weight of zinc, 0.02% by weight of molybdenum and 0.05% by weight of boron, in the form of water-soluble salts. The composition retains its initial activity for more than two years.

Example 5
A tdtravalent titanium salt corresponding to 1000 ppm of titanium, 100,000 ppm of ascorbic acid, 500 ppm of manganese, 500 ppm of zinc and 700 ppm of iron in the form of water-soluble salts are dissolved in water. and the solution is made up to 1 liter. The pH is adjusted to 5 and 0.5 g of sodium benzoate and 1000 ppm of sodium ligninsulfonate (wetting agent) are added.

 The composition obtained is diluted to a coefficient of 200 to treat paprika and diluted to a coefficient of 500 to 1000 to treat apple trees. The paprika is treated at a 4 to 5 leaf stage, three times, by spraying. Spray the apple trees when the petals fall and repeat the treatment two more times, in the third and in the sixth week. Peach, apricot, pear and cherry trees can also be treated effectively in a similar manner. The results obtained on paprika and apple trees, respectively, are presented in the following tables.

Paprika essay
Treatment Average weight Pieces / Acid content
kg / plant% 100 plants% ascorbic ing / 100g%
Witness 7.46 100.0 280 280 100 72 72.0
Treaty 9.19 123.5 324 115.7 266 369.4
Test on apple trees
Variety and processing Yield Glucose content
kg / ha %%
Starking Witness 3540 100, 0 9.1
Treaty 5960 168, 3 9.8
Jonathan Témoin 7262 100, 0 8.3
Treaty 11 066 152, 3 10.6
Example 6
A tetravalent titanium salt corresponding to 1000 ppm of titanium, a 28 molar excess of ascorbic acid and 0.5 g of salicylic acid are dissolved in water and the solution is made up to 1 liter. The pH is adjusted to 5 and 10 ppm of gibberellic acid and 2000 ppm of sodium dodecylbenzenesulfonate (wetting agent) are added.

 The composition obtained was tested in wheat germination tests and was used to treat plants of Saintpaulia ionantha. Wheat seeds were treated with a solution containing 0.02 ppm titanium.

The Saintpaulia ionantha plants were treated with a 0.2% dilution of the above solution every ten days, twice in total.

 The results obtained are given in the following tables.

Wheat germination test
Variety and processing Average length
plants, cm%
Lublajnaja Witness 10.46 100.0
Treaty 12.18 116.4
Essay on Saintpaulia ionantha
Treatment Plant diameter Substance Formation
(average of 100 dry bulbs
plants) this%% Witness-15, 75 3.96 23
Treaty 21.20 4, 58 48
The results show that the wheat seeds treated with the compositions according to the invention germinated in a shorter time and that the development of the treated Saintpaulia ionantha plants was accelerated compared with the control seeds and the control plants, respectively. The same growth acceleration effect can be observed when treating ornamental plants.

The treated plants flower earlier and therefore can be sold about 2 weeks earlier than the control plants.

Example 7
A tetravalent titanium salt corresponding to 2000 ppm of titanium and 100,000 ppm of ascorbic acid are dissolved in 1 liter of water. 0.5 g of sodium benzoate and 500 ppm of a water-soluble molybdenum salt and 1000 ppm of polyethylene-polypropylene block copolymer (wetting agent) are added. The pH of the solution is adjusted to 5.

 Alfalfa seedlings at the 5 to 6 leaf stage were treated with the above compositions once before each cut, at a dose of 2 liters per hectare.

Peas were treated with the above composition during the growth and at the first with a dose of 2 liters per hectare, twice in total.

Grass was sprayed with 1 liter per hectare of the above composition, once. The results of the above treatments are presented in
the following tables.

Pea processing
Variety and processing Yield fineness Sucrose
kg / ha% average%
(T)
Witness Puget 4,450 100.0 140.5 5.35
Treaty 5,250 118.0 127.5 5.88
Grune Witness 4 210 100, 0 136.2 5.35
Treaty 5,260 124.9 123.8 5.75
Alfalfa test
Trai-Weight with Protein Content Protein Content in green state crude digestible dry substance starch kg / mg / hgg / kgg / kgg / kg
Witness 1.25 905 128 93 3G1
Treaty 1.87 915 171 124 316
Grass test
Treatment Yield Crude protein Starch content kg / ha gg / kg g / kg
Witness 4300 100, 0 46 110
Treaty 6,500 151.2 47,106
The above results show that the yield and
the fineness of the peas are greatly improved by the treatment according to the invention.

 In the case of alfalfa, in addition to improving the quantitative and qualitative characteristics, the number of roots is also considerably increased and the activity of the nitrogenase enzyme is accelerated. When spraying the grass, a remarkable increase in the green mass can be observed, while the protein and starch contents remain substantially unchanged.

Example 8
A tetravalent titanium salt soluble in water corresponding to 1000 ppm of titanium and 900,000 ppm of ascorbic acid are dissolved in water and the solution is made up to 1 liter. The pH of the solution is adjusted to 5 and 25 ppm of sodium salt of 2,4-dichloro phenoxyacetic acid, 0.5 g of sodium benzoate and of sodium salt of petroleum sulfonic acid (wetting agent) are added. ).

With the composition obtained, after dilution, vine plants are sprayed three times during their growing season. The results are presented in the following table:
Test on the vine
Variety and treatment Glucose Report
g / 100 ml% sugar / acid "Treasure of Pannonia"
Witness 8.0 100.0 13.2
Treaty 9.4 117.5 19.2 "Italian riesling"
Witness 12, 6,100, 0 15.1
Milking 17.6 139.6 28.3
The above results show that the treatment increases the carbohydrate content of the grapes and therefore the sugar / acid ratio is also increased.

Claims (5)

 1. Composition for conditioning plants containing a titanium-ascorbic acid chelate, essentially for foliar spraying or seed treatment, characterized in that it comprises from 0.1 to 15.0% by weight of a titanium-ascorbic acid chelate containing 14 to 28 moles of ascorbic acid per atom of titanium, the pH of which is adjusted between 5 and 7, 0.1 to 2.0 parts of one or more biochemically essential nutrients and / or 0, 0001 0.001 part of one or more phyto-hormones per part of titanium and at least 0.01% by weight of one or more compounds chosen from the following group: sorbic acid and its salts, benzoic acid and its salts, p-nitro-benzoic acid and its salts, propionic acid and its salts, hexamethylenetetramine, relative to the total weight of the solid ingredients, optionally in combination with wetting agents, adhesives and / or other conventional additives.  2. Composition according to claim 1, characterized in that it comprises as biochemically essential nutritive substance a salt soluble in water of boron, magnesium, manganese, iron, zinc or molybdenum.  3. Composition according to one of claims 1 and 2, characterized in that it comprises, as a biochemically essential nutritional substance, a fertilizer containing nitrogen, phosphorus and potassium.  4. Composition according to claim 1, characterized in that it comprises, as phyto-hormones, auxins, gibberellins, cytochinins and heteroauxins, for example alpha-naphthylacetic acid or beta-naphthylacetic acid.  5. Composition according to claim 1 or 4, characterized in that it comprises 2,4-dichlorophenoxyacetic acid or its salts as phyto-hormone.