RO103624B1 - Complex foliar fertilizer - Google Patents

Abstract

The invention relates to a complex fertilizer foliar usable in the agricultural field for prevention latent nutritional deficiencies in plants grown. the foliar complex fertilizer according to the invention, besides macroelements, and stimulants, includes phenolphthalein in a concentration of 0.001 g / l, vanadium microelement 0.001 g / l and nonionic emulsifier A 64, nonylphenoletoxylate 0.02 g / l, and the complexation of the microelements is done with salt tetrasodium salt of ethylenediaminetetraacetic acid (DETANa4) at a concentration of 20-80 g / l. the fertilizer according to the invention is good absorbed by plants, does not induce side effects unwanted and has good stability over time and at temperature variations.

Description

The invention relates to a complex fertilizer with foliar application, usable in the agricultural field to prevent the latent deficiencies of nutrition in the cultivated plants.

Poor nutrition is known to occur due to insufficient supply of plants with nutrients, these being not fully present in the soil, or being in insufficient quantities. In such situations, in order to favor a normal development of the plants, it is necessary to apply foliar fertilization, this being of equalization when one seeks the compensation of the imbalance between the nutrients in the plants, especially of some microelements, and additional, when it is applied for the rapid satisfaction of the requirements of plants during periods of physiological and climatic stress. The latent deficiencies of nutrition, frequently affect the agricultural production and because they do not have obvious symptoms of manifestation, the growth of the plants appears as normal, but the harvests are affected quantitatively and qualitatively. On the other hand, these symptoms are not typical, they can be attributed to other factors (attacks of fungi, bacteria, viruses, etc.), which makes the inventions made after the diagnosis of these deficiencies ineffective. In the prevention of these deficiencies of nutrition, an effective means is the foliar fertilization with a composition, suitable, which should preferably contain the majority of the elements needed for the plants, to be compatible with pesticides and with water having different degrees of hardness, for simultaneous application. with the phytosanitary treatments and with the irrigation, to maintain the pH of the spray solution in the optimum field of the foliar absorption, to be stable in time and in the variations of temperature.

A wide variety of foliar compositions, simpler or more complex, conditioned in the form of suspensions or as solutions, known for certain plants, different phases of vegetation and even certain types of soil are known. A disadvantage of some of these products is

- - the fact that they are not well absorbed by the plants, and sometimes they induce unwanted side effects; on the other hand, some products are prepared from expensive materials, their production becoming uneconomical.

Thus, foliar fertilizers of type F (411, 141, 231 and 011) are known and applied which have some disadvantages, such as: the lack of important microelements such as Mg, Mn, Co et al .; requires about 10% sugar for preparation, to improve absorption; favors the development of foliar diseases; it is realized at high cost prices.

The object of the invention is to obtain a complex foliar fertilizer with high biological efficiency, high pH buffering capacity, under the conditions of reducing the cost price.

The problem solved by the invention is the association in optimum concentrations of macro elements N, P, and K with a large number of microelements and stimulating substances, obtaining a complex fertilizer for foliar application, suitable to prevent the latent deficiencies of nutrition in most agricultural crops and horticultural.

The foliar complex fertilizer according to the invention removes the above mentioned disadvantages by the fact that in addition to the macroelements, several microelements and stimulants, include phenolphthalein in a concentration of 0.001 g / 1, the microelement vanadium 0.001 g / 1 and the nonionic emulator A 64, nonylphenol. 0.02 g / 1, and the complexation of the microelements is done with the tetrasodic salt of ethylenediaminetetraacetic acid (DETANa.) In concentration of

20 ... 80 g / 1.

The following is an example of an embodiment of the invention and further examples of application.

In a stainless steel reactor with a capacity of 1000 1, provided with stirring means and the heating jacket, 300 1 water and the following substances are introduced in kg: urea 40; potassium nitrate 11.55; ammonium sulfate 3.55; potassium chloride 11.55; ferric chloride solution with 40% Fe 1.45; MgSO ₄ '7 H ₂ O 2.05; H ₃ BO ₄ 0.65; Trilon, 35% tetrasodium salt solution of ethylenediaminetetraacetic acid 37.55; ZnSO ₄ · • 7H ₂ O 0.155; CuSO ₄ -5H ₂ O 0.02;

(NH ₄ ) ₆ Mo ₇ 0 ₂₄ · 4H ₂ O 0.065; Ni (NO ₃ ) ₂ -6H ₂ O 0.0025; CoCl ₂ -6H ₂ O ^f

0.003; NH ₄ VO ₃ 0.0019; K ₂ Cr ₂ O ₇ 0.0012. The mixture is heated to 80 ... 90 ° C and stirred until the components are completely dissolved. Then 65Kg (NH ₄ ) ₂ HPO ₄ is added and stirring is continued until it is completely dissolved. Neutralize with 15% HC1 solution to pH = 6.5 ... 7.0 and add volume to 500 1 by filling with water at ambient temperature. The resulting solution is filtered and transferred to a vessel with stirring means. Next, 0.5 g of procaine, 0.5 g of phenophthalein, 0.5 g of vitamin Bl and 12.5 g of nonionic A 64 emulsifier (nonylphenolethoxylate) are added, followed by stirring for about 2 hours. The foliar fertilizer obtained it is packed in plastic barrels and stored for use.

the foliar complex fertilizer thus prepared, has a concentration of N = 72 g / 1, K = 38 g / 1, P = 25 g / 1, S = 17 g / 1, Fe (III) = 1.0 g, Mg = 0.1 g / 1, Mn = 0.1 g / 1, B = 0.15 g / 1, Zn = 0.1 g / 1, Cu = 0.01 g / 1, Mo = 0.005 g / 1, Ni = 0.001 g / 1, Co = 0.001 g / 1, V = 0.001 g / 1, Co = 0.0008 g / 1, Vitamin B j = 0.001 g / 1, Procaine = 0.001 g / 1, Phenophthalein = 0.001 g / 1, emulsifier A 64 = 0.02 g / 1; 26 g / 1 EDTA Na ₄ was used to complex the microelements.

the foliar complex fertilizer, prepared as above, is applied in. agricultural crops by sprinkling, in different phenophases of plant development, depending on the species and the pedoclimatic conditions.

In the process of industrial preparation of the product, ranges of concentrations of the component elements are provided (table 1).

Table 1

Quality parameters of the composition according to the invention

The nutrient Concentration in g / 1 , Comments N 72 ± 2.5 Urea nitrogen about 38 g / 1, NO ₃ 'about 10 g / 1 and NH ₄ ⁺ about 25 g / 1 P 25 ± l, 0 K 38 ± 2.0 s 17 ± 2.0 Fe (IH) 0.95-1.1 The concentration can be increased Λ to 3 g / 1 in the case of ferric chlorosis mg 0.1-0.15 \ The concentration can increase Mn 0.095 to 0.15 / to 1 g / 1 in the case of reporting the deficiency B 0.15-0.17 Zn 0.07 to 0.10 The concentration can be increased to 1 g / 1 in case of signaling ; ·· < deficiency in this element With from 0.01 to 0.015 Mo 0.005 to 0.009 us 0.001 to 0.0015

Table 1 (continued)

6

The nutrient Concentration in g / 1 Remarks Co. 0.001 to 0.0015 V 0.001 to 0.0015 Cr 0.0008 to 0.001 Vitamin b _t 0.001 to 0.0012 procaine 0.001 to 0.0012 phenolphthalein 0.001 to 0.0012 Nonionic emulsifier For microe- complexation 0.01-0.02 of the elements is used EDETA Na ₄ 20-80 g / 1

the foliar complex fertilizer above, has been tested in several areas of the country on different cultures, between 1978-1988, obtaining very good results. During the testing period, the fertilizer had the name Foliar type Făgăraș.

Thus, by applying in the corn crops in the phase of 6 ... 7 leaves of the plants, the production increased by 22%, representing 5.3 t / ha, compared to the untreated control, also exceeding other types of foliar fertilizers. with which it was compared (table 2).

Table 2

The effect of foliar fertilizers applied to H.D.96 maize on medium forest brown soil. pseudogleised podzolite, at S.C.A. Podu Iloaiei, Lespezi Experimental Center - 1980

Nr. crt. Treatment Production t / ha Concentration of 0.5% % Difference t / ha 1 untreated 23.4 100 2 Foliar type Fagaras 28.7 122 5.3 ^XXX 3 Foliar type F 411 26.3. 112 2.9 ^XXX 4 Foliar type F 231 23.4 100 - 5 Foliar type F 141 21.4. 91 2.0 ° C

MISTER. 5% = in apple plantations from the Măgurele Research and Production Station, Măgurele, Prahova, the application of the complex fertilizer in a concentration of 0.3%, together with 10 with the phytosanitary treatments, led to

1.9 obtaining differentiated varieties according to variety, varying between 2.6 ... 6.7 t / ha, and the quality of the fruits has improved considerably, practically no fruit under STAS (table 3).

Table 3

Results obtained in apple plantations at SCPP, Măgurele, Prahova, 1982 Production obtained in the treated version

variety The average weight of a fruit Nr. fruit on the tree kg / tree t / ha lonathan 143 242 34.6 24.7 Golden Delic. 165 267 44.0 31.5 Starking 166 106 17.6 12.6

Table 3 (continued)

8

The quality of the fruits at the treated version

variety super % Takes % It has % Below is% Total % Jonathan 61.3 23.0 13 2.7 100 Golden Delic. 75.7 14.6 9.7 0 100 Starking 78.3 12.7 9.0 0 100

Production obtained at the untreated version

variety The average weight of a fruit Nr. fruits kg / tree t / ha Jonathan 131 233 30.5 21.2 Golden Delic. 144 236 33.8 23.8 Starking 150 94 14.0 10.0

Fruit quality at untreated version

variety super % Takes % It has % Below is% Total % Jonathan 58.7 24.0 10.3 7 100 Golden Delic. 68.7 12.3 12.0 7 100 Starking 67.7 13.3 9.0 10 100

In the sugar beet grown in Băneasa-Giurgiu, under production conditions up to 13.6 t / ha were obtained and an efficiency of using the composition of 7.8 t increased root production / 1 1 foliar fertilizer (table 4 ).

Table 4

Application time and dosage of foliar complex fertilizer type Făgăraș at the sugar beet Monorom variety, on _agrofound N _I20 P _6Cr between 1980-1982, Băneasa-Giurgiu

Date of application of treatments foliar type Fagaras 1 / ha Roots Sugar productivity thia-t / ha Production increase White sugar Digestion ° S / 100 g t / ha % kg / 1 1 subst. Prod. t / ha Content% untreated - 52.0 witness 7.64 11.7 17.7 1.5 60.6 8.6 16 5763 8.85 11.6 17.7 June 15th 3.0 62.6 10.6 20 3533 9.11 11.6 17.7 6.0 63.1 IU 21 1850 9.15 11.5 17.5 Mediate - 62.1 10.1 19 9.05 11.6 17.6 1.5 62.8 10.8 21 7200 9.11 11.5 17.5 1st of July 3.0 64.0 12.0 2. 3 4000 9.31 11.6 17.6 6.0 65.2 13.2 25 2200 9.58 11.7 17.7

Table 4 (continued)

Date of application of treatments foliar type Fagaras tha Roots Sugar productivity thia-t / ha Production increase White sugar Digestion ° S / 100 g t / ha % kg / 11 substances. Prod. t / ha Content% Mediate 64.0 12.0 2. 3 9.34 11.6 17.6 1.5 63.8 11.8 2. 3 7867 9.31 11.6 17.6 July 15 3.0 65.8 13.8 27 4600 9.67 11.7 17.6 6.0 67.3 15.3 29 2550 9.89 11.7 17.7 Mediate 65.6 13.6 26 - 9.62 11.7 17.6 1.5 62.0 10.0 19 6667 9.05 11.6 17.5 August 1 3.0 62.9 10.9 21 3633 9.18 11.6 17.7 6.0 63.8 11.8 2. 3 1967 9.44 11.8 17.8 Mediate 62.9 10.9 21 - 9.22 11.7 17.7 DL 5% 3.5 0.51

the complex foliar fertilizer, tested in potato crops from the Botosani area, has led to a maximum yield of 36 t / ha, ensuring an increase of 3.9 t / ha compared to the untreated control.

Unlike other preparations with which it has been compared and which have led to lower yields than the control, the Fagaras type leaf product did not cause phytotoxicity to the plants (table 5).

Table 5

Effect of Fagaras Foliar fertilizer on potato and soybean production on. cernoziom changes from OSPA Botosani-Stăuceni, between 1981 and 1985, compared to other foliar fertilizers

Nr. crt. variants Nr. years experi- rim. Prod. t-q / ha Difference ^x) kg increase to 11gr. leaf t-q / ha % I. Potato Ostara and Desiree t / ha 1981-1984 Sprinkled with water once (Mt) 4 31.1 - 100 - Făgăraș 0,3% - 1,5 1 / ha 4 32.7 1.6 105 1066 Făgăraș 0.6% - 3.0 1 / ha 4 35.7 4.6 114 1533 F231 0.6% - 3 1 / ha 3 32.2 1.3 104 433 F231 1.2% - 6 1 / ha 4 33.4 2.3 107 383 Polymer 0.1% - 0.5 1 / ha 2 36.4 4.2 113 8400 Poimage 0.2% - 1.0 1 / ha. 1 36.0 . 4.3. 113 4300 Sprinkled with water 2 times (Mt) 4 32.1 - 100 - Făgăraș 0,3% - 1,5 1 / ha 4 34.8 2.7 108 1800 Făgăraș 0.6% - 3.0 1 / ha 4 36.0 3.9 112 1300

Table 5 (continued)

Nr. crt. variants Nr. years experi- rim. Prod. t-q / ha The difference ¹⁰ kg increase to 1 1gr. leaf t-q / ha % F231 0.6% - 3 1 / ha 3 34.2 2.8 109 933 F231 1.2% - 6 1 / ha '4 31.2 0.9 97 - Polymer 0.1% - 0.5 1 / ha 2 31.4 2.0 94 - Polymer 0.2% - 1.0 1 / ha 1 32.2 1.0 97 - DL 5% = 3.6; DL 1% = 6.4; DL 0.1% = 14.5 t / ha II. soy 1985 Sprinkled with water once (Mt) 1 19.5 - 100 - Fagaras 0,3% - 1,5 1 / ha, · ' 1 . 21.6 2.1 111 140 Făgăraș 0.6% - 3.0 1 / ha 1 .. 22.4 2.9 115 96 Polymer 0.2% - 1.0 1 / ha 1 19.9 0.4 102 40 Polymer 0.4% - 2.0 1 / ha 1 21.2 1.7 109 85 Sprinkled with water 2 times (Mt) 1 19.6 / 100 - Făgăraș 0,3% - 1,5 1 / ha 1 21.7 2.1 111 70 Făgăraș 0.6% - 3.0 1 / ha 1 22.3 2.7 114 45 Polymer 0.2% - 1.0 1 / ha , 1 20.0 0.4 102 20 Polymer 0.4% - 2.0 1 / ha 1' 21.7 2.1 111 52 DL 5% = 1.6; DL 1% = 2.6; DL 0.1% = 5.1 q / ha

It has been reported that, according to the invention, the fertilizers, according to the invention, have the following advantages:

- high biological efficiency, compatibility with plant protection products, high buffering and softening capacity, stability in time and temperature variations (-20 ... + 50 ° C);

- it is well absorbed by plants and has no side effects or toxicity;

- use cheap and available materials;

- the technological phases of preparation are simple and require large investments;

- reduce the cost price.

Claims (4)

complex foliar fertilizer, usable in agriculture consisting of a complex fertilizing composition for foliar application, containing in average concentrations N - 72 g / 1, P - 25 g / 1, K - 38 g / 1, S - 17 g / 1 , Faith 5 (III) - 1 g / 1, Mg - 0.1 g / 1, Mn 0.1 g / 1, B = 0.15 g / 1, Zn - 0.07 g / 1, Cu 0.01 g / 1, Mo = 0.005 g / 1, Ni - 0.001 g / 1, Co - 0.001 g / 1, Cr - 0.001 g / 1, vitamin B, - 0.001 g / 1, procaine - 0.001 g / 1, characterized by 10 that for the purpose of increasing the efficiency of the absorption and the complexity of the fertilizer, it includes phenophthalene in a concentration of 0.001 g / 1, V - 0.001 g / 1, nonionic emulsifier A 64 (nonylphenolethoxylate) - 0.02 g / 1 and salt 15 tetrasodic ethylenediaminetetraacetic acid (EDTA Na ₄ ) in a concentration of 20 ... 80 g / 1, for the microelement complexation.