SE448142B - EXTRA TREATMENT COMPOSITION INCLUDING A TITANAS CHORBIN ACYLATE AND AS STABILIZING ADDITION OR ANY SUBSTANCES SELECTED BY BENZOIC ACID OR SALTS OF IT AND SALICYLIC ACID AND SALTS OF THEREOF - Google Patents

Description

44sg142 above mentioned disadvantages) i.e. nose which tetravalent titanium is Z resistant to oxidation even in very dilute solution in the presence of a large excess of ascorbic acid after spraying over a large area. The present composition thus also relates to microorganisms. The invention thus relates to a plant treatment composition containing in aqueous solution 0.5-15.0% by weight of a titanium ascorbic acid chelate composed of 14 to 2 moles of ascornic acid per mole of titanium and adjusted to a pH. between 5 and 7, “0.1-2.0 parts of one or more biochemically essential nutrients and / or 0.001-0.01 parts of one or several phytate hormones per part of titanium. possibly together with wetting agent. adhesives and / or other conventional additives. characterized in that it also contains at least ß.0l: weight-t. calculated on the total weight solids, of one or more compounds selected from benzoic acid or salts thereof and salicylic acid and salts thereof as stabilizing additive. The stabilizing additives used are included in the solution in concentrations up to 25% by weight but in a concentration exceeding 2% by weight. -t increases their activity to a relatively small extent and therefore it is generally not economical to increase the amount above this concentration.

It is a great advantage of the composition according to the invention that due to the increased stability the frequency of treatments can be reduced or if the frequency is unchanged the activity increases by S ~ 8% in comparison with the known compositions. which do not contain stabilizers; The compositions can be stored for a long time without any noticeable loss of activity despite the high concentration of ascorbic acid, even in very dilute aqueous solutions. The biochemically essential nutrients include the trace elements magnesium. iron, manganese, zinc. molybdenum and boron as well as plant fertilizers in the form of conventional nitrogen-phosphorus-potassium (NPK) -containing fertilizers, suspensions etc. 4- 15 el 42 In the absence of said additives the surface of the liquid is already covered by colonies of microorganisms after two weeks. The microorganisms reduce the concentration of active ingredient and make the regular use of the solutions impossible. The additives according to the invention inhibit the growth of microorganism colonies and consequently preserve the solutions in a state suitable for long-term application and at the same time result in a »5-8% increase in the yield of fruit or crop compared to solutions with the same concentration of active ingredient but without the additives according to the invention. This increase in yield is due to the increased microbiological resistance.

Micro- and macronutrients and plant hormones accelerate plant growth when added in a given amount to the complex of tetravalent titanium and ascorbic acid. Compositions containing macro- and micronutrients, when applied to low-dose plants as foliar or spray fertilizers or used for seed dressing. a significant influence on the development of plants, accelerates the absorption of micronutrients, promotes the effect of growth hormone below the toxic threshold.

The phytohormone components in the composition may be auxins, giberllines. cycloquinines, heteroauxins (alpha-naphthyl acetic acid-beta-indolyl acetic acid). etc. Phytohormones include p2,4-dichlorophenoxyacetic acid and salts thereof.

The composition contains 1000-2000 ppm ascorbic acid per liter of solution and the amount of ascorbic acid in relation to virgin titanium is between 50,000 and 100,000 ppm. As an additional additive, the solution may include one or more of the above-mentioned stabilizers. Among the microelements, the composition may contain, for example, 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 composition may, for example, contain 25 ppm, 10; 4-dichlorophenoxyacetic acid or 10 ppm of gyrelic acid or similar additives of 1000-2000 ppm of titanium.

The plant treatment composition according to the invention can be prepared by dissolving a water-soluble salt of tetravalent titanium. eg titanium tetrachloride or sodium titanate and 14-28 moles of ascorbic acid pe; moles of titanium in water; adjust the pH of the solution to 5-7 and add the aqueous solution of micro- and macronutrients to the recovered solution. To this solution are added suitable wetting agents or adhesive stabilizers. The stabilizers stabilize the concentration of titanium and microelements on the surface of the plants. which is sprayed with the composition. The composition according to the invention is generally applied to the plants by spraying. Experimental observations show that the nutrients penetrate into the chloroplasts of the leaves, with the result that the phytosynthetic effect and the enzyme activity increase.

In field trials and greenhouse experiments under controlled conditions (i.e. luminescence) it has been found that the use of the composition according to the invention accelerates the absorption of biochemically essential nutrients. The absorption of magnesium; manganese, iron and zinc, which play an important role in photosynthesis, have a direct influence on the yield of fruit trees and cereals and also increase the value of food. When spraying pea plants and grass with molybdenum and when treating beets in the presence of boron, the yield has increased, the conditions for carbohydrate formation have been improved and a favorable effect on the formation of the cell pathways has been observed. In the case of nutrient-poor soils, they are suitable for satisfying the plant-bonding composition according to the invention with also water-soluble nitrogen-phosphorus and potassium compounds. 448i142 activity significantly increases the growth of young plants and promotes the growth of shoots and buds.

The optimal dose of the herbal treatment composition according to the invention depends on the type of plant to be treated.

When treating vegetables during their growing season, you can use 5 - 10 1 / ha three or four times. When treating grain after brazing, a single dose of 1 l / ha is generally sufficient. If young shoots, starting from the time they have three to four leaves, are treated every ten days, their growth will increase considerably.

The spraying can be performed from airplanes, helicopters or other spraying devices. Before use, dilute the composition with water to the desired concentration and apply in an amount of lp-5 1 / ha depending on the application method. For economic reasons, it is advisable to combine the treatment with the present composition with other plant protection works. The composition according to the invention is compatible with all neutral or slightly acidic plant protection products.

The preparation and use of the compositions according to the invention are illustrated in the following examples. Example 1 A tetravalent titanium salt corresponding to 1 g of titanium and 100 g of ascorbic acid was dissolved in water. The solution was made up to 1 liter, its pH was adjusted to 5 and 1 g of salicylic acid was added. The shelf life of the resulting composition was at least 2 years.

To the above-prepared composition was added a soluble ammonium salt corresponding to 3% by weight of nitrogen, phosphoric acid corresponding to N% by weight of phosphorus pentoxide and a potassium salt corresponding to 5% by weight of KQO, the percentages relating to the total weight of the solution. The storage stability of the composition obtained in the untreated control sample corresponded to the storage stability of the above-prepared composition, but the latter also contained essential nutrients in addition to the components useful for the treatment of plants.f 41.? The activity of the composition described above was tested on wheat (Rana-1) during the growing season ice dose of 3 x 1 g titanium / ha. The yield of treated plants was compared with the yield of untreated control plants. The following results were obtained. yield 102 kg / ha p%; wheat treated with the above composition I 47.25 121.4 38.93 100.0 7 Example 2 A tetravalent titanium salt corresponding to leg titanium and 95 g of ascorbic acid was dissolved in 1 liter of water. The solution was made up to 1 liter, its pH was adjusted to about 5 and 0.5 g of sodium benzoate was added. The resulting composition could be stored for more than 2 years without any loss of activity. The activity of the composition was tested in maize germination experiments (TC SBHU / one variety); the following treatments were performed: untreated control sample treatment_performed with a composition with Control I: Control II: V? above ingredients but without sodium benzoate: I Test solution: the composition prepared according to this example.

The same test was repeated during field trials on silage corn. The compositions were used in the same dose as in Example 1. The results obtained are shown in the following table; stem agent "" 0 length (cm)% control I0 0 0 0 4.09 100.0 control11: IIe 0 ~ P ~ 'h, 65 1 -' * fï'ï113; 7 "test solutionÉ0 ^ 00 1 l ~ 0 1 ü, 7H ïïfïjande results were obtained. 0 by ubyce el; _, 102 kg / ha% gg control I l .. "0 .ll 0 ll. ~ H06,0._ ll _, _ ¿00, Q _ ~ ._l control IIV - ffè - ~ ï¿ Ä7l, 0¿- ¿= F, .l16¿9¿f- ~ f test composition _,;. 48ü, O _: -; -119,2 0 0 '0 0 0 0 0 see Example 3 0 A tetravalent titanium salt corresponding to 1000 ppm titanium, l0O 000 fi pm ascorbic acid, 500 p manganese, 500 ppm zinc and 700 ppm iron in the form of water-soluble salts were dissolved in water and the solution was made up to 1 liter, its pH was adjusted to 5: * and 0.5 g sodium benzoate and 1000 ppm Sodium lignosulfonate (wetting agent) was added. The resulting composition was used after dilution 200 times for treatment of papyrus after dilution 50 DEG to 10 times for treatment of apples. Paprika was treated by broaching in one stage with 4 to 5 leaves three 11 times. The apple trees were sprayed when the petals fell off and the treatment was repeated twice more during the third and sixth week thereafter. Peach, apricot, pear ap44sp142 10 15 20 25 30 35 and cherries can also be successfully treated in the same way; D @ The results obtained on peppers and apples are shown in the following tables; . 7 'Paprika testp 3 pep ¿p number / 0 p treat' with fi ltäï aa "100 0 ascorbic acid content lingp _ kg / plant" weight-% plants% mg / loog% - _ / xqntrollp '' 7,1 »6, -ff 'a 100,6 e 280 l1oo, o 72 ioo, o ibehandlat 9, ^ i9 123,5 3214 115,7 266 369,11 ___! i Äpple-test _ ». putbyte glucose content" variety and treatment e kg / ha% _.% "star-king" control.- 351m 100.0 _ 9.1 ebenanalate 5960 - 168.3 9.8 "Jonathan" control 72627 ^ l00.0 7 8.3 "-treated 110660 ~ 152.3 ' 10.6 Example 4 A tetravalent titanium salt corresponding to 1000 ppm titanium, a 28-fold molar excess of ascorbic acid and 0.5 g of salicylic acid was dissolved in water and the solution was made up to 1 liter; its pH was adjusted to S and 10 ppn_giberellic acid and 2000 ppmi ~ sodium dodecylbenzenesulfonate (wetting agent) were added.

The resulting composition was tested in wheat germination test and used to treat plants of Saintpaulis íonantha. Wheat grains were trained with a solution containing. 0.02 ppm titanium. The plants of Saintpaulis ionantha were sprayed with 0.2% solution of said solution every ten 3 days, together twice.

IN!! LN 10 15 o20j 25 'so 55 Example 5 448 1420 The results obtained are given in the tables below.

Wheat germination test medium length variety and treatment V 'ihos plant, cm% "Lublajnaja" control 5' 10.46 100.0 "treated, 12.18 ll6, U Saintpaulisdionantha test plant diameter (cm) (average for 100 -dry sub-0 formation of treatment of plants) _ 5 punch% buds% icon control 15.75 - 3.96 23 treated 21.20 4.58 48 The results show that wheat grains treated with the composition according to the invention germinated in a shorter time and the growth of the treated plants of Saintpaulis ionantha was accelerated in comparison with the respective control grains and control plants.The same growth-accelerating effect can be observed when ornamental plants are treated.The treated plants -flowered earlier and could consequently be sold about two weeks earlier than the control plants.Ä 5 A four-valued titanium salt corresponding to 2000 ppm titanium and 100,000 ppm ascorbic acid was dissolved in 1 liter of water, 0.5 g of sodium benzoate and 5050 ppm of a water-soluble molybdenum salt and 1000 ppm polyethylene-polypropylene segments were added. graft polymer (wetting agent). The pH of the solution was adjusted to 5. 5- to 6-leaf alfalfa plants were treated with the above position once again. The results of the treatments appear ld44sa142 5105 saved compositions before each mowing once in a dose of 2 l / ha. Green peas were treated with the above-prepared composition during the budding period and first with a dose of 2 l / ha, together twice; Grass was sprayed with 1 l / ha of com- (54 e of the following tables. 'K tTreatment of green peas average 5 - 5 yield 5 delicacy sucrose variety øcn, treatment akg / has 5% oa (T)% npugebu Control' ¿Hu5o '1oo, od 1ho, 5_ 5,35 treated 5250 118,0 127,55 75,88 e fl erüne "control _ .Melo 100,05 136; 2. 5,55 treated 5 5260 _12u; 9 5d123,8e 5,75 Lucern -test dry 5 up- 5 5 green * substance- removable starch- 5 5 mass content 5 protein protein value dÅ treatment kg / m3 g / hg '' g / kg g / kg g / kg control dd1.25 Eat 905 128 55 93 5 301 treated 1.87 5915 '5 171 l2 fl 316 Å Grass: est _ f 5 e'd'utbvte crude protein starch value treatment _- kg / ha' _% E / kg 5% / RE control 4300 ~ lÛQ, 0 - us 110 treated 151.2 H75 106 6500 * AW fr. 10 .p 15 720 25 30, 0055 0449 142 101 - The results obtained above show that the yield and deliciousness of obtained green peas was greatly improved by the document according to the invention.

In the case of lu1, in addition to quantitative and qualitative improvements, a considerable increase in the number of rots was achieved and nitrogenase enzyme activity was accelerated. When spraying grass, a sharp increase in the green mass could be observed, while the crude protein and starch values remained largely unchanged.

Example 6 A water-soluble, tetravalent titanium salt corresponding to 1000 ppm titanium and 900,000 ppm ascorbic acid was dissolved in water and the solution was made up to 1 liter. The pH of the solution was adjusted to 5 and 25 ppm 2, U-dichlorophenoxyacetic acid sodium salt, 0.30 g of sodium benzoate and petroleum sulphonate sodium salt (wetting agent) were added; The results are shown in the following table.

Grape test_ glucose _ sugar / acid variety and treatment g / 100 ml 0% ratio "Treasure of Pannonia" _ contfoll * 8.0 100.0 13.2 treated 0 0 9.4 117.5 19.2 "Italian ríesling "I control _l2,6 loo, o 0 15,1 treated _ 0 f 17,6 0 139,6 0 28 = 3 44sÉ142lll 1í2l i Above obtained. results show that the treatment increases the carbohydrate content of grapes and thus also increases the sugar-acid ratio. _ I .ff / la (ät d]

Claims (4)

1. * Than (Te-s 10 15 20 25 30 ig44s 142i 13 Claim 1. Plant treatment composition containing in aqueous solution_ OLS-15) 0% by weight of a titanium scorchic acid chelate composed of 14-28_mol ascorbic acid per mole of titanium and adjusted to a pH 7 between 5 and 7. 0.1-2.0 parts of one or more biochemically essential nutrients and / or 0.001-0.01 parts of one or more phytohormones per part of titanium. possibly together forging wetting agent. adhesives and / or other conventional additives, characterized in that it also contains at least 0,0% by weight, based on the total weight of solids, of one or more compounds selected from benzoic acid or salts thereof and salicylic acid and salts thereof as a stabilizing additive. Composition according to Claim 1, characterized in that it contains a water-soluble salt of boron as a biochemically valuable nutrient. magnesium, manganese. iron. zinc or molybdenum. 3. A composition according to claim 1 or 2, characterized in that it contains a biochemically valuable nutrient containing a nitrogen-phosphorus-potassium fertilizer. Composition according to Claim 1, characterized in that it contains auxins as phytohormones. guberellins, cytoquinines and heteroauxins such as alpha-naphthylacetic acid or beta-indolylacetic acid. S. Composition according to claims 1-4. characterized in that it comprises 2, aedichlorophenoxyacetic acid or salts thereof as a phytohormone.