FI67533C - VAEXTBEHANDLINGSKOMPOSITION INNEHAOLLANDE TITAN - Google Patents

Description

1 67533

Titanium-containing plant treatment combination

The invention relates to a plant treatment combination containing titanium / ascorbic acid-5 chelate, which is mainly used for the treatment of leaves or seeds, and which has increased physicochemical and biological stability.

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

In addition, it is known that although titanium is present in high concentrations in the soil, it is not available to plants because titanium salts insoluble in water cannot make their biological activity available.

According to Hungarian Patent No. 170,693, a solution containing tetravalent titanium ions is reacted with as-15 corbic acid to give a titanium complex suitable for plant treatment. Ascorbic acid is present in solution in a 50 to 200-fold excess over titanium. However, the stability of aqueous solutions containing an excess of ascorbic acid and suitable for plant treatment is also unsatisfactory. According to microbiological tests, for example, the strains Clostridium botulinum, Aspergillus niger, Lactobacillus lactis, Clostridium bytilicum and Thermobacterium mobile degrade ascorbic acid, which is used to form complexes. The presence of titanium is thought to increase this effect. On the other hand, titanium sprayed on the surface of the leaves into a thin film is easily inactivated by the environment and thus the frequency of treatments during the growing season should be considerably increased to ensure the desired effect. Due to the high labor costs and energy requirements, this has a negative effect on the economics of the method.

The invention relates to a new plant treatment combination containing titanium and which does not have the above-mentioned disadvantages, i.e. in which tetravalent titanium is resistant to oxidation - even in a very dilute solution in the presence of a large excess of ascorbic acid, to a wide extent. _ 2 67533 area after spraying. This new combination is also stable against microorganisms.

According to the invention, to solutions containing tetravalent titanium ions and a large excess of ascorbic acid, at least 0.01% by weight of one or more compounds selected from the group consisting of sorbic acid and its salts, benzoic acid and its salts, salicylic acid and its salts, propionic acid and its salts, p-nitrobenzoic acid and its salts and hexamethylenetetramine. The percentage of the above-mentioned additives is proportional to the dry matter content of the combination.

Ascorbic acid is used in an excess of 20-200 times that of titanium. The stabilizers listed above are added to the solution up to a concentration of 25% by weight, but at a concentration exceeding 15% by weight their activity increases relatively little and therefore it is generally not economical to increase their amount above this concentration.

A significant advantage of the combination of this invention is that due to its increased stability, the density of treatments can be reduced or, if the treatment frequency is constant, the activity is increased by 5-8% compared to known combinations which do not contain stabilizers. The new combination can be stored for a long time without any noticeable loss of activity despite its high ascorbic acid content, even in very dilute aqueous solutions.

The combination according to the invention contains an excess of tetravalent titanium ions and a 20 to 200-fold excess of ascorbic acid relative to titanium and, in addition to optional conventional additives, at least 0.01% by weight of one or more compounds selected from the group consisting of: p-hydroxy-benzoic acid, propionic acid, salts of these compounds and hexamethylenetetramine, optionally in admixture with trace elements and / or plant nutrients. The trace elements include magnesium, iron, manganese, zinc, molybdenum and boron while the term "plant nutrients" is used to mean 3,67533 conventional nitrogen-phosphorus-potassium (NPK) fertilizers, suspensions, etc.

In preparing this combination, the tetravalent titanium salt is dissolved in water to the desired concentration, the desired excess of ascorbic acid is added, and then the pH of the solution is preferably adjusted to about 5.

One or more of the additives listed above are added to the resulting solution. In the absence of these additives, the liquid surface is covered with colonies of microorganisms as early as 2 to 10 weeks. Microorganisms reduce the concentration of the active ingredient and make normal use of the solutions impossible. The additives according to the invention inhibit the growth of microorganism colonies and thus preserve the solutions in a space suitable for long-term application and at the same time provide a 5-8% increase in crop yield compared to solutions with the same active ingredient content but not containing the invention. additives in accordance with This increase in yield is due to increased microbiological resistance.

20 Micronutrients, macronutrients and plant hormones accelerate plant growth when added to a complex of tetravalent titanium and ascorbic acid.

Combinations of macro- and micronutrients have a significant effect on plant development when applied to plants in small doses as foliar or spray fertilizers or when used to fertilize seeds; they accelerate the absorption of micronutrients and promote the action of growth hormones below the toxic threshold.

The plant treatment combination according to the invention contains 0.1 to 15.0% by weight, preferably 0.5 to 15.0% by weight, of titanium / ascorbic acid chelate containing 14 to 28 moles of ascorbic acid per mole of tetravalent titanium ions, and its pH is set at 5 to 7, 0.1 to 2.0 parts by weight of one or more biochemically relevant nutrients and / or 0.0001 to 0.001 parts by weight of one or more plant hormones in a ratio of 1 to 7% by weight. part of tetravalent titanium- _ L ..

4,67533 ions and at least 0.01% by weight of one or more compounds selected from the group consisting of sorbic acid and its salts, benzoic acid and its salts, p-nitrobenzoic acid and its salts, propionic acid and its salts and hexamethyl-5-tetretetramine calculated on the solid the total weight of the ingredients, optionally together with wetting agents, adhesives and / or other conventional additives.

As a nutrient, the combination preferably contains boron, magnesium, manganese, iron, zinc, molybdenum or a water-soluble salt thereof. Macronutrients include water-soluble nitrogen-phosphorus-potassium fertilizers.

The plant hormone component of this combination may be auxin, gibberellin, cycloquinine, heterouxin (alpha-naphthylacetic acid-beta-indolylacetic acid), etc. Kas-15 hormones include 2,4-dichlorophenoxyacetic acid and its salts. The combination contains 1000-2000 ppm ascorbic acid per liter of solution and the amount of axorbic acid relative to tetravalent titanium is between 50,000 and 100,000 ppm. As other additives, one or more of the above-mentioned stabilizers are added to the solution. For example, the combination of trace elements may contain 1000 ppm boron, 500 ppm manganese, 500 ppm zinc, 1000 ppm magnesium and 500 ppm iron per 1000 ppm tetravalent titanium, in the form of water-soluble salts. The combination may contain, for example, 25 ppm of 2,4-dichlorophenoxyacetic acid or 10 ppm of gibberellic acid or similar additives per 1000-2000 ppm of titanium.

The plant protection combination according to the invention is prepared by dissolving a water-soluble salt of tetravalent titanium, for example titanium tetrachloride or sodium titanate and 14-28 moles of ascorbic acid per mole of titanium in water, adjusting the pH of the aqueous solution to 5-7 and adding micro- To this solution are added 35 suitable wetting agents or adhesives and stabilizers. Stabilizers stabilize the concentration of titanium and trace elements on the surface of plants sprayed with these combinations.

The combination according to the invention is generally applied to the plants by spraying. Experimental findings indicate that nutrient-5 teas penetrate the leaf green particles and as a result, phytosynthetic and enzyme activity increase.

In field experiments and greenhouse experiments under controlled conditions (e.g. lighting), it has been found that the use of a compound of the invention biochemically accelerates the absorption of essential nutrients. The absorption of magnesium, manganese, iron and zinc, which play an important role in photosynthesis, has a direct effect on the yield of fruit trees and cereals, as well as increasing their nutritional value. When spraying pea plants and grass, add molybdenum and when treating beets, the presence of boron increases plant yield, improves carbohydrate formation conditions and has a beneficial effect on cell wall formation. In the case where the soil is low in nutrients, it is also advantageous to add water-soluble nitrogen, phosphorus and potassium compounds to the plant treatment combination according to the invention.

Low levels of plant hormones and herbicides with hormone activity significantly increase the growth of young plants and seedlings and promote the growth of vesicles and buds.

The optimum doses of the plant treatment combination according to the invention depend on the plant species to be treated. When treating vegetables during their growing season, doses of 5-10 l / ha can be applied 3 or 4 times. For the treatment of cereals after swinging, a single dose of 1 l / ha is usually sufficient. If young seedlings are treated starting from their 3- or 4-leaf stage every 10 days, their growth is effectively increased.

Spraying can be done by airplanes, helicopters or sprayers. Prior to application, the compounds are diluted with water to the desired concentration and applied at a rate of 1-5 l / ha, depending on the application method. Economy- 6 67533

For many, it is advantageous to combine the treatments with these combinations with other plant protection work. The combination according to the invention is compatible with any neutral or slightly acidic plant protection products.

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

Example 1

The tetravalent titanium salt corresponding to 1 g of titanium 10 and 100 g of ascorbic acid is dissolved in water. Make up to 1 liter, adjust the pH to 5 and add 1 g of salicylic acid. The resulting combination has a shelf life of at least 2 years.

To the above combination is added a soluble ammonium salt corresponding to 3% by weight of nitrogen, phosphoric acid corresponding to 4% by weight of phosphorus pentoxide and a potassium salt corresponding to 5% by weight, the percentages being calculated on the total weight of the solution. The storability of the obtained combination is similar to the storability of the above-mentioned combination 20, but the latter also contains essential nutrients in addition to the components used for plant training.

The activity of the combination described above was tested on wheat (Rana-1) during growth at doses of 3 x 1 g titanium / 25 ha. The yield of treated plants was compared to the yield of untreated control. The following results were obtained.

Yield _102 kg / ha_% 30 wheat treated with the combination shown above 47.25 121.4 untreated control_38.93_100.0

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Example 2

The tetravalent titanium salt corresponding to 1 g of titanium and 100 g of ascorbic acid is dissolved in water. Make up to 1 liter and adjust the pH to about 5. 2 g of ferrous sulphate are added to solution li-5. The combination can be stored under normal conditions for about 2 years without loss of activity. The activity of the combination was tested in field experiments with silage maize.

Silage maize was treated with the above combined dose corresponding to 3x1 g / titanium / ha. The results obtained are given in the following table.

_Yield_% of silage maize treated with this combination 486.0 119.0 unprocessed control_408.0_100.0

Example 3

The tetravalent titanium salt corresponding to 1 g of titanium 20 and 95 g of ascorbic acid is dissolved in 1 liter of water. Make up to 1 liter, adjust the pH to about 5 and add 0.5 g of sodium benzoate. The resulting combination can be stored for more than 2 years without loss of activity.

The activity of the combination was tested in maize germination tests (TC 334 / a variant). The following treatments were performed:

Comparison I: untreated control

Comparison II: the treatment was performed with a combination containing the above ingredients except sodium benzoate.

Test solution: Combination prepared according to this example.

The combinations were used in the same dose amounts as in Example 1. The results obtained are given in the following Table 35.

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Average% arm length _ (cm) ______ comparison I 4.09 100.0 5 comparison II 4.65 113.7 test solution 4.74 115.9

The same test was repeated in field experiments with silage maize. The following results were obtained

Yield 10 102 kg / ha% comparison I 406.0 100.0 comparison II 471.0 116.0 test combination 484.0 119.2 15 Example 4

A tetravalent, water-soluble titanium compound corresponding to 1 g of titanium and 105 g of ascorbic acid is dissolved in water. The solution is made up to 1 liter, the pH is adjusted to about 5 and 0.1% by weight of magnesium, 0.05% by weight of iron, 0.05% by weight of manganese, 0.05% by weight of zinc, 0.02% by weight are added. % by weight of molybdenum and 0.05% by weight of boron in the form of water-soluble metal salts. The combination retains its original activity for more than 2 years.

Example 5 A tetravalent titanium salt corresponding to 1000 ppm titanium, 100,000 ppm ascorbic acid, 500 ppm manganese, 500 ppm zinc and 700 ppm iron in the form of water-soluble salts is 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 lignin sulfonate (wetting agent) are added.

The resulting combination is used as a 200-fold dilution for pepper processing and as a 500-1000-fold dilution for apple processing. The peppers are treated in a 4-5-leaf-35 step by spraying three times. The apple trees are sprayed when the bays fall, and the treatment is repeated 9 67533 two or more times in the third and sixth weeks. Peaches, apricots, pears and cherries can also be successfully treated in the same way. The results obtained with peppers and apples, respectively, are shown in the following tables.

Pepper Test Processing Avg. Weight Pieces / Ascorbic acid- kg / plant% 100 plants% nitric acid mg / 100 g% 10

Comparison 7.46 100.0 280 100.0 72 100.0 Processing 9.19 123.5 324 115.7 266 369.4

Apple test 15 Species and treatment Harvest Glucose content kg / ha%%

Star control 3540 100.0 9.1 king handling_5960 168.3 9.8_

Jonat- 20 he control 7262 100.0 8.3 processing 11066 152.3 10.6

Example 6

The tetravalent titanium salt corresponding to 1000 ppm of titanium-25, a 28-fold 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 dodecylbenzene sulfonate (wetting agent) are added.

The resulting combination was tested in wheat germination tests and used to treat Saintpaulis ionantha plants. Wheat grains were fertilized with a solution containing 0.02 ppm titanium. Saintpaulis ionantha plants were sprayed with a 0.2% dilution of the previous solution every 10 days for 35 days, a total of twice.

The results obtained are given in the following tables.

I _____ 10 67533

Wheat germination test

Species treatment Average plant length, _cm_

Lublajnaja comparator 10.46 100.0 5 _processing_12.18_116.4

Saintpaulis ionantha test Treatment Plant diameter Dry nodules (100 plant medium% formation- ^ g _value) cm_mis -% _ control 15.75 3.96 23 treated_21.20_4.58_48_

The results show that the wheat grains treated with the compounds of the invention germinated in a shorter time and that the growth of the treated Saintpaulis ionantha plants was accelerated compared to the control grains and the plants, respectively. The same growth-accelerating effect can be observed when treating ornamentals. The treated plants flower ai-20 earlier and thus can be sold 2 weeks earlier than the control plants.

Example 7

The tetravalent titanium salt, corresponding to 2000 ppm of titanium and 100,000 ppm of ascorbic acid, is dissolved in 1 liter of 25 ml of water. 0.5 g of sodium benzoate and 500 ppm of water-soluble molybdenum salt and 1000 ppm of polyethylene-polypropylene block polymer (wetting agent) are added. The pH of the solution is adjusted to 5. 5-6-leaf alfalfa seedlings were treated with the above compounds before each mowing, at a dose of 2 l / ha. Green peas were treated with the above combination during bud formation and initially at a dose of 2 l / ha, a total of twice. The grass was sprayed with 1 liter of the above compound per hectare. The results of these treatments 35 are shown in the following tables.

11 67533

Treatment of green peas

Species and treatment Yield% Fine sucrose avg. _kg / ha_TT) _% _

Puget control 4450 100.0 140.5 5.35 5 processing 5250 118.0 127.5 5.88

Green control 4210 100.0 136.2 5.35 _processing 5260 124.9_123.8 5.75_

Bluegrass test 10 Treatment Fresh Dry Raw Extractable Starch weight substance protein protein value k-cr / m3 Pitoin nia g / kg g / kg g / kg _9 / hg_

Comparison 1.25 905 128 93 301 15 Processing 1.87 915 171_124_316_

Grass test Treatment Yield Raw- Starch- kg / ha% protein value of yin 20 _g / kg_g / kg_

Control 4300 100.0 46 110 Treatment 6500 151, 2 47_W6_ 25 The above results show that the yield and deliciousness of green peas are greatly improved by the treatment according to the invention.

In the case of alfalfa, in addition to the improvement in quantitative and qualitative properties, the number of roots also increased significantly and the activity of the nitrogen enzyme was accelerated. When spraying the grass, a strong increase in green mass can be observed, while the crude caprotein and starch values remain essentially unchanged.

_ 'I: 12 67533

Example 8

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

The resulting combination sprayed, after dilution, the vines three times during their growing season.

10 The results are shown in the following table.

Wine-test

Type and treatment Glucose% Sugar / acid-_g / 100 ml_ratio _ "Treasure of Pannonia 15 Control 8.0 100.0 13.2 Treatment 9.4 117.5 19.2" Italian Riesling "

Control 12.6 100.0 15.1 _Treatment 17.6 139.6_28.3 _ 20 The above results show that the treatment increases the carbohydrate content of the grapes and thus also increases the sugar / acid ratio.

Claims (5)

13 67533 Plant treatment combination containing titanium / ascorbic acid chelate, mainly for the treatment of leaves or seeds, characterized in that it contains 0.1 to 15.0% by weight of titanium / ascorbic acid chelate with 14 to 28 moles of ascorbic acid per mole of titanium and its pH is adjusted to between 5 and 7, and 0.1 to 2.0 parts of one or more biochemically essential nutrients 10 and / or 0.0001 to 0.001 parts of one or more plant hormones per part of titanium and at least 0.01 by weight -% of one or more compounds selected from sorbic acid and its salts, benzoic acid and its salts, p-nitrobenzoic acid and its salts, propionic acid and its salts and hexamethylenetetramine, calculated on the total weight of the solids, optionally together with wetting agents, and / or other conventional additives. Combination according to Claim 1, characterized in that it contains, as a biochemical essential nutrient, a water-soluble salt of boron, magnesium, manganese, iron, zinc or molybdenum. Combination according to Claim 1 or 2, characterized in that it contains a nitrogen / phosphorus / potassium fertilizer as biochemically essential nutrient. Combination according to Claim 1, characterized in that it contains auxins, gibberellins, cytokinins and heterouxins, e.g. alpha-naphthylacetic acid or beta-indolylacetic acid, as plant hormones. Combination according to Claim 1 or 4, characterized in that it contains 2,4-dichlorophenoxyacetic acid or its salts as a plant hormone.