PL114375B1 - Plant growth regulator - Google Patents

Description

The present invention relates to an agent and for regulating plant growth based on 2-chloroethanephosphonic acid or a mixture of 2-clyloroethanophosphonic acid and cMoiixx * hoilin chloride. This agent can be used in horticulture and agriculture and to regulate the processes of growth and transformation of plant imaiteria.

Characteristics of known technical solutions. It is known that by the use of synthetic regulators of plant growth and development processes, such as di-chloroethanoline chloride, 2-chloroethanephosphonic acid, succinic acid di-dimethyl hydrazide, maleic acid hydrazide, di-chloro-chloro-diurea-chloride, -phosphonic acid, decenyl succinic acid and others can be influenced by the growth and metabolism of plant organisms.

It is also known that Asian regulators can affect a variety of receptors and by interaction with the nephrotic cphyshormones depending on the plant species and species, timing of application in terms of plant development stage, sitezenia and form of the formulation of the active ingredient can elicit a wide variety of size reactions.

From this result the multifaceted possibilities of use. It is known, then, that in addition to general morphological changes, it is possible to control longitudinal and secondary growth, and also to influence seed germination, growth of vegetative and respiratory organs, rooting of seedlings, 'formation of buds, process of flowering, determination (drinking and fruit formation. - With the help of growth regulators, it is possible to achieve the effect of paritenoikairpiji and the fall of leaves and fruit at a specific point in time.

It is of great importance to use such regulators to control and absorb substances. and water, transport and itranisipiration, to regulate the production and substance and resistance to harmful biotic and abiotic agents. Increasingly, in addition to graduation certificates, synthetic regulators are also used to accelerate the growth and differentiation processes in (tissue) cultures.

Also of note is the use of growth regulators to improve the storage and transport capacity of vegetative organs and plant parts. There are also known combinations of 2-chloiroethanopho-siphonic acid with other growth regulators, for example chloroquoline chloride. The disadvantage, however, is that such mixtures have only single effects and cannot generally be used in a very varied crop.

Object of the invention. The object of the invention is the development of new growth regulators based on 114 375 114 375 1 of active substances, such as 2-oMoroethanophosphonic acid or a mixture of 2-chloroethanophosphonic acid and oMoocholine chloride, especially those which, by stimulating sparing fwode f types of construction, evoke the maxim! - B for the production of feather substances / minimum water consumption.

Presentation of the essence of the invention. This aim is achieved by means of an agent for regulating the growth of plants based on 2-H -doroethane-phosphonic acid or a mixture of 2H-chloroethane-phosphonic acid and chlorohol-chlorofluorine (which, in addition to the usual auxiliary substances for carriers, contains as an additional active ingredient) cyclic * 'rjesjprsptitiaflibo, simple derivatives, for example, acetyl isallylic acid.

Depending on the ratio of the components of the mixture, the dose and the moment (the application of the agents in the form of a slug, the flat liner is especially suitable for controlling the germination, growth of vegetative permanent organs, for accelerating (the influence of the resin, the influence of on the process of quilting and maturation, for deti mation of pfllci, for defoMation and defoMation, for influencing Iworeende with content, for nutrient uptake, for transport of nutrients, for water management, to induce morphological changes, to increase the resistance to extreme temperatures, drought, salt salt and biotic harmful factors, and to increase the yield of crops.

It is particularly advantageous to use the agents according to the invention in (cereal crops. With only one application it is possible to achieve several intended functions. The delaying action of the agent leads to and replaces a permanent tooth, thus preventing loss due to lodging and facilitating the implementation of a modern solution. Harvesting technique. By stimulating water-saving types (construction yields yield with minimal water consumption. Both in the absence of water and on additional sprinkling, the yield is significantly increased. It is also important that According to the invention, they reduce the water content of the harvest, which is of great importance in the crops of, for example, fodder crops, sugar beet and sugar beet, because the expenditure on fttransport is considerably reduced, and significantly increases the ability to breathe. 80 years.

Examples. The examples given below illustrate the properties of the source of the invention.

EXAMPLE 1 In a test carried out in a greenhouse, the barley spring of Galina Gaitunl is treated with 55 mixtures of active substances according to the invention with 2-H-chloroethanophosphonic acid, chlorocholine chloride and (isalicifylic acid in various doses, post-dipping method. 4 weeks after the start of germination, the longitudinal growth is estimated, after which (measured (the length of the stem section between the first and second leaves and compared * with the untreated control).

The results are summarized in (Table 1.) If the effective dose is determined, which compared to the control sample, reduces the reduction of 2-hiloroethanophosphonic acid by 26% by 100, then the mixture of active substances according to the invention in the ratio of 3; 22% dose (2-chloroethaniphosphonic acid.

If (for example, the complex effect of this mixture ratio is investigated according to Golba, then, according to the properties of Table 3, there is a clear synergy here. The same experiment also assesses the effect on the green mass heat. According to the values of amd from Table 4, despite the significant effects of shortening) the effect on the formation of the distance weight is not negative, but even positive.

Example II. In order to determine the yield-enhancing activity of the present invention, the chemical substances of 70% of 2-HCl-ethanediphosphonic acid, 20% of chlorocholine chloride and MP / of saucylic acid are tested in various plots on various sites. environments in winter barley of Vogedisainger Gold, in winter wheat of Mironowiskaja 808 and in winter life of Dankowskde Zlote.

The size of the plot is 116.5 m2. The active compounds are applied in the form of a SO 2 emulsion concentrate in 300 liters of water per hectare with the aid of a plot sprayer on the crops of the Feekes 7 stage.

(The results (Table 5) show a similar increase in the piles.

Example III. The pot test investigates the effect on the yield and isourage of water and some water management criteria in spring barley of the Trumipf species. The active compound mixture according to the invention, consisting of 3.10-2 µm. Acetylsalicylic acid, 5 µl. 0-3 moles / liter of α-methane-phosphonic acid, is applied at a dose of 8 m to the pot at stage 5 of the main shoot. The total harvest of the plant occurs in the Feekes 10 stage. As can be seen from the data in Table 6, the coefficient of transpiration (water consumption without evaporation from the moment of application to harvest in md per g dry weight) decreases in comparison with the control test does not. negatively affecting the yields. It can be reduced to the fact that the relative water flow (iWA) is reduced k The value of ^ 7A is calculated according to the following equation: a— WA = o - ba = weighed weight of leaves after 12 hours of drying with a suction force of 12.5 atoll b = dry weight (TM) c = fresh weight and (FM). * ». - This reduction in the relative water output is also shown by the values of the relative water content of the leaves according to the Stocker (RWC), which increase under stress conditions compared to the control.

Example IV. The active compound mixture consisting of 2.2 (kg of acetylsalicylic acid, 0.37 kg of B-ohloyoro-ethanophosphonic acid and 1 kg of c-morocholline catholine) is tested with additional sprinkling to determine the yield-enhancing effect of the agents according to the invention. hectare in spring barley of Truimif species in field tests The size of the plot is 15 ns 2. 6 experiments are performed The nectar in 500 liters of water is applied per nectar in Feekes stage 7-8 barley. The results collected in Table 7 show that with the use of this measure, both with an additional dampening of 60 m and a suboptimal soil moisture, as well as (and without additional use of water, the yield of grain and straw is increased). . shuffling.

Example 5 A pot test investigates the impact on piles and water use, as well as some water management criteria for Mona sugar beet.

The active ingredient mixture according to the invention, consisting of t3-ylO-s maSL / Hylitibacetylsalicylic acid and S-10-8 imodirfliltter of 2-dblo- iroethanophosphonoic acid apflilicylic acid, is formed at a dose of 8 ml per 6 pot. Harvesting takes place 11 weeks after sowing.

Tables. The following notations are used in the tables: A = acid 2 ^ ohQOiroethanoiphoaphonic B = chloride chloride nxahoQiine • C = salicitic acid D = acetylsaiiciflic acid Table 1 Effect on longitudinal growth of jecizmdenda spring agents according to the invention 0 ml / ltenie 50 100 1 200 1400 800 A 88 85 82 79 76 B 93 91 89 86 83 | C 100 99 99 98 91 i Length in P / t 1 ratio to sample 1 Control room 2: 1: 1 93 90 06 81 74 1 1 1: 3: 1 3 * 1: 1 86 04 80 78 74 88 79 75 70 05 | Tlablioa 2 ED2s (25% reduction in relation to the control test) in the case of spring barley with the use of iSTodics according to the invention Active substances AB • (C A + B + C 2: 1: 1 1; 3: 1 3 : 1: 1 HDk in mgi / 100 ml 000 5000 I25O0 m> 450, aoo (Concentration (in mg / 100 mil / in relation to A 100 555 278 94 94 '22 | Table 3 Combination effect of the agent according to the invention xryi-izi) El = '1 ^ 000 10 19 20 Ui yi zi A + B + C 1 * 3: 1: 1 concentration in | mg / 100 ml 100 .200 400 aoo Length w * / • in the sample stand (control Xl 87 84 81 78 yi 98 98 97 95 El 100 100 99 99 Ei 85 82 73 73 Eri 79 75 70 65 (El— - ^ Eri +6 •; + n + B + ® Ei = 111 xi yi Zl - theoretical operation of the combination - actual action of the combination = action A action C ¦ Table 4 Influence of measures according to the formula on and generation of green mass 45 iSubsItions Active control test ABC A + B + C 0: 1: 1 1): 2: 1 1: 3: 1 i3: 1 : 1 Concentration in mg / 100 ml *, 100 100 100 100 100 l 100 l 100 l 100 • 100 Yield of allil mass in Vo in relation to and sample koai- - fcroUnej 100 1013 04 1012 112 103 1124. 1016 | —I Table 6 Effect of the measures according to the invention on the use of water and water management in spring barley. «5 Ozone of experiments, non-triclated test A + D 'Yield TM (acc. To and ionic - 13.0 12, 5 Consumption / water acc. To dondcz- 3H0O 23T70 Transit coefficient 040 210 t 70 46 RIWC 76 ^ 84114 375 Table 5 Impact of measures according to zmalaizfou ma iplom imam a) still winter ittolon experience testmiertffajktowama> 70 20f »/ # | B \ + i liO ^ / d C 1 Tw dose (kg AS / ha 1.5 2.0 2.5 Grain yield in dt / ha Birodowiisiko A 65.9 * - 66.2 68.4 60.1 (B '"" C (63.7 73.0 74.0 74.6 D 71.5 7 * 6.6 73.8 7) 2.7 E 154 ^ 3 .- ifII, 4 64, 6 62.9 to) Ozlon winter wheat Experiences non-hitting test f 70% A + i 20tyoi B -h 10 ^ / t O {i Darwik I.-in lkg AlS / ha ^^ ll, 5 i (2.0 2, 5 A 44.2 49.8 J 48.7 47.3 Yield of grain in dt / ha environment B 45.9 47.8 193.0 61.2 O 42.5 153.3 i 53j4 D 44.2 5Q> 3 (91.7 v34J3 c) zyto oatiime Ciziom doiswiadezemia try mafaaiktowaina 1 70Mi A + 120P / oi B + 1 0Vu C 1 1 # ¦ "Dose (in (kg AS / ha l 1 £ (2.0 (2.5 Feed yield in dlt / lha, 33.4 464 45.3 ^ 46 ^ 5% Taibldroa 7 Influence of Isrodik according to yield size with additional sprinkling in spring jerusalem lOzlon dosfwdati- (dzenda Iprólba mde-fbraikrtowa- ma A + JB + D- fPlton of grain in dt / ha nonisra- szaina 46.3 49.6 sprinkles 46.4 58.8 (Elom of straw in dt / ha | todezra- rsizany 39.2 46.2 sprinkles 41.5 Table 8 Effect of measures according to the design of water and water management in buraikas 6f fOzlon idoislwiad- ^ azemia and a trial of A + D iPlon beet according to ma domaiczke (64 «, 4 Water consumption per unit in ml ^ € 60 1 (240 'Common-' tramispi- iraisian joint 275 286 • <(Water content in rooms 85. 81 114 375 9 10 ¦Z astr iz eze no and ate ohloirochoilin, characterized by the fact that, in addition to vivid auxiliary substances and carriers, as an additive to regulate plant visor, the active substance contains isailicilic blood, fresh 2 ^ chloiroetano acid 'Phosphonium or mixed salts or simple derivatives thereof, such as the prizins of 2H-chloroethane-phosphoric acid and chloride-5, clade' aceityylsailiicylic acid.