DE2815505A1 - Cotton plants growth regulation - within N,N-di:methyl-piperidinium salt applied from the air and/or at blossom time - Google Patents

Abstract

In a process for regulating the growth of cotton plants, the plants are treated with an N,N-dimethylpiperidinium salt applied at a rate of 5-490 g./ha. with the aid of an aircraft or of a ground-effect machine (i.e. hovercraft). Regulation of growth of cotton plants by application of 5-490 g./ha. of an N,N-dimethylpiperidinium salt as soon as 2-20 white or yellow blossoms are present per 10 metre run of cotton plants is new irrespective of the method of application. Application at a precise but easily recognisable stage of development enables the active ingredient to be used at a relatively low rate of application. Application at the specified stage of development inhibits vegetative growth and promotes generative development, resulting in an increased crop. The strength of the cotton capsule epidermis is increased, thus increasing resistance to capsule rot. Surprisingly, application from above by means of aircraft or ground effect machines (which could be expected to be inefficient because active ingredient does not fall directly onto lower leaves) is effective even with low application rates of 5-490 g./ha.

Description

Regulating the development of cotton plants

The present invention relates to the use of an N, N-dimethylpiperidinium salt to regulate the development of cotton plants with an application rate of 5 Up to 490 g of active ingredient per hectare and application of the active ingredient with the help of a luxury vehicle or a vehicle with ground effect or at a physiologically defined stage of development or both.

It is known to use N, -dimethylpiperidinium salts in amounts of Use 0.5 to 8 kg per hectare to influence the growth of cotton plants (DT-OS 22 07 575).

Typical effects of plant growth regulators include the reduction in length growth. Similarly, germ or flower induction can be used take place, i.e. an influence on the plant's annual rhythm. The training too of side shoots can be promoted or inhibited by growth regulators.

Characteristic of N, -dimethylpiperidinium salts are among others the following biological effects: inhibition of height and width, the growth of non-reproductive branches, the formation of nodes. Promoting development Capsule-bearing branches, the capsule maturity, early harvest, increased yields with better Fiber quality. More intensive chlorophyll synthesis, shift of chlorophyll A: B Ratio, increased content of calcium in the leaf and potassium in the root, lower Water consumption, reinforced palisade and parenchymal tissue in the leaf, thicker leaf. Less infestation with Verticillium albo atrum and capsular rot. Less infestation with capsule caterpillars. Reduced by decreased late development of flowers and capsules the population of insect pests such as Anthonomus sp. and Pectinophora sp.

Better maturation of vegetative and generative plant organs. By more compact growth facilitates manual and mechanical harvesting.

It has been found that the growth of cotton plants can be strong affected if this is treated with 5 to 490 g of an N, N-dimethylpiperidinium salt, that is deployed with the help of an aircraft or a vehicle with ground effect, or if the treatment is given at the time of the flowering of the cotton plants, as soon as, in Depending on the type and type of cotton, 2 to 20 white or yellow flowers each 10 m of cotton plants are present in a row of plants, or if treatment with the help of an aircraft or a vehicle with ground effect at the time of the flowering of the cotton plants as defined above.

It is surprising that the beneficial effect is specifically at Application at a certain flowering stage shows the effect of known growth regulators is usually not specially tailored to such a special application time. It is known that the treatment will be stronger at an earlier point in time Caused stunted growth, which, however, can lead to reduced yields. Later Treatments are less effective. It is therefore surprising that through the the precisely defined application time described above, a physiological readiness The cotton plant was found to be subject to treatment via an inhibition of the vegetative development to a direct promotion of generative development leads. This is particularly due to the acceleration of the ripening of the vegetative Plant organs as well as expressing premature maturity. It is also surprising that the treatment at this precisely defined stage of development removes the cotton bolls by strengthening the epidermis, making it more resistant to the pathogens causing the capsular rot power. The particular advantage of using N, N-Diiziethylpiperidiniumsalzen At this point, the appointment is clearly defined and easy it can be determined that tank mixes with insecticides are possible and that this early treatment is possible with a basis for sufficient time for the active ingredient to break down naturally is in the plant. The application rate of 5 to 490 g / ha of active ingredient is very small compared to other known plant treatment products. By spreading this small amount of active ingredient with the help of an aircraft or a vehicle with the ground effect there is also, to a large extent, another strong one Dilution, as the active ingredient, in contrast to application with ground equipment, is only after a large volume of air has penetrated the cotton plants to be treated hits. Losses occur due to drift and evaporation of the active ingredient.

Another part of the falling from above onto the vegetation Active ingredient does not hit the plant, but gets directly to the ground and comes only delayed and reduced in effect through absorption through the roots to the effect.

In addition, the application technology addressed here applied active ingredient in contrast to the usual technique with ground equipment in the crop worse distributed. The active substance falls from above onto the uppermost layers of the leaves and is prevented by this shield from falling through to the lower leaf levels. Only through the systemic effect (distribution of the active ingredient in the conduction pathways of the plants) the N, N-dimethylpiperidinium salts become these after the distribution effective throughout the plant tissue. It is therefore surprising that despite this difficult conditions for the application of such small amounts of active substance by aircraft or vehicles with ground effect still have a sufficiently good biological effect is achieved.

In practice, the cotton plants are grown in rows. To determine the correct application time, one measures in a row from any point 10 m and counts all white or yellow flowers that are located are on the cotton plants. By repeating this procedure many times one obtains the average number of flowers on the cotton plants and can so precisely determine the correct application time.

The application of N, N-dimethylpiperidinium salts with luxury vehicles or vehicles with ground effect is of great economic and business management Interest. Regardless of the moisture level of the soil can be done in a very short time the largest possible area can be treated without direct cotton plants Damaging or destroying contact or solidifying the ground.

Aircraft is understood to mean movable aircraft which Can be lighter or heavier than air and rigid or non-rigid wings own, for example, normal airplanes, helicopters or balloons. Under vehicles with ground effect, for example, hovercraft are understood.

The following 15 examples from field tests show that the application rates of active ingredient cited here for an application within a precisely described development phase in cotton is the biological development regulate in a desired direction.

Example 1 Seed: May 25th, 1976 Treatment: July 21st, 1976 (3 white flowers / 10 m row) Measurement of height: September 24th, 1976 Harvest: September 24th, 1976 Gossypium hirstum, var. "Hancock" g / ha of N, N-dimethylpiperidinium chloride 0 24.7 49.4 Height of growth 120.5 cm = 100 99.2 82 92.8 77 Yield 3381 kg / ha = 100 3532 104 3505 104 Example 2 Seed: May 25, 1976 Treatment: August 17, 1976 (18 white flowers / 10 m row) Measurement of the height of growth September 24, 1976 Harvest: September 24, 1976 Gossypium hirstum, var. "Hanckock" g / ha of N, N-dimethylpipridinium chloride 0 24.7 49.4 Height of growth 120.5 cm = 100 78.5 65 73.5 61 Yield 3381 kg / ha = 100 3996 106 3847 114 Example 3 Seed: 02/12/1976 Treatment: 06/02/1976 (2 white flowers / 10 m row) Harvest: 10/25/1976 11/05/1976 Gossypium hirsutum, var. "Acala 1517 Br 2" g / ha of N, N-dimethylpiperidinium chloride 0 50 75 Yield 1st picking 1070 kg / ha = 100 1246 116 1229 115 2. Picking 402 kg / ha = 100 456 113 466 116 1st + 2nd Pick 1472 kg / ha = 100 1702 116 1695 115 Early harvest (Comparison of 1st picking 0 + 176 kg / ha 16% + 159 kg / ha 15% Treated: Untreated) Example 4 Seed: 02/12/1976 Treatment 06/02/1976 (20 white flowers / 10 m row) Harvest: 11/05/1976 Gossypium hirsutum, var. "Acala 1517 Br 2" g / ha of N, N-dimethylpiperidinium chloride 0 25 50 75 Yield 1st picking 1070 kg / ha = 100 1301 122 1269 119 1330 124 2. Picking 402 kg / ha = 100 305 76 375 93 354 88 1st + 2nd Pick 1472 kg / ha = 100 1606 109 1644 112 1684 114 Early harvest (Comparison of 1st picking 0 +231 kg / ha 22% +199 kg / ha 19% +260 kg / ha 24% Treated: Unbandled Example 5 Seed: 03/26/1976 Treatment: 06/16/1976 (2 white flowers / 10 m row) Harvest: 12/8/1976 Gossypium hirsutum, var. "DPL 61" g / ha of N, N-dimethylpiperidinium chloride 0 24.7 49.4 Yield 5871 kg / ha = 100 6194 106 6456 110 Example 6 Seed: 03/26/1976 Treatment: 06/30/1976 (10 white flowers / 10 m row) Harvest: 12/08/1976 Gossypium hirsutum, var. "DPL 61" g / ha of N, N-dimethylpiperidinium chloride 0 24.7 49.4 74.1 98.8 Yield 5871 kg / ha = 100 6617 113 7067 120 6467 110 7159 122 Example 7 Seed: 03/26/1976 Treatment: 06/30/1976 (10 white flowers / 10 m row) 07/19/1976 (20 white flowers / 10 m row) Harvest: 12/8/1976 Gossypium hirsutum, var. "DPL 61" g / ha of N, N-dimethylpiperidinium chloride 0 24.7 74.1 24.7 + 24.7 07/19/1976 07/19/1976 06/30 + 07/19/1976 Yield 5871 kg / ha = 100 6375 108 6241 106 6785 116 Example 8 Seed: 05/09/77 Treatment: 06/14/77 (6 white flowers / 10 m row) Measurement of the height: 07/08/77 Harvest: 10/27/77 Gossypium hirsutum, var. Lankart 57 gr / ha N, N-dimethylpiperidinium chloride 0 5.7 11.3 22.7 Height of growth 96.7 cm = 100 81.1 84 84.4 87 76.7 79 Yield 5590 kg / ha = 100 6098 109 5735 102 5663 101 Example 9 Seed: May 9th, 1977 Treatment: July 6th, 1977 (10 white flowers / 10 m row) Measurement of height: October 4th, 1977 Harvest: October 4th, 1977 Gossypium hirsutum, var. "DPL 16" g / ha of N, N-dimethylpiperidinium chloride 0 49.4 74.1 Height of growth 161.5 cm = 100 109.0 67 96.8 60 Capsule rot 28% 9.3% 4.7% Yield 2421 kg / ha = 100 2771 114 3203 132 Example 10 Seed: 04/01/1975 Treatment: 07/16/1975 (13 white flowers / 10 m row) Measurement of the height: 10/20/1975 Harvest: 10/20/1975 Gossypium hirsutum, var. "SJ 3" g / ha of N, N-dimethylpiperidinium chloride 0 24.7 49.4 74.1 Height of growth 108.0 cm = 100 100.8 93 100.0 93 96.2 89 Defoliation 60% 70% 80% 73% Maturity d. Plant 73% 80% 88% 85% Mature capsules / m 62.0 pcs = 100 60.7 99 63.5 102 68.7 111 Capsule weight 7.58 g = 100 7.82 103 7.64 101 8.02 106 Yield 4402 kg / ha = 100 5120 = 116 5059 115 5120 116 Example 11 Seed: May 28, 1974 Treatment: August 14, 1974 (8 white flowers / 10 m row) Measurement of the height: November 15, 1974 Harvest: November 15, 1974 Gossypium hirsutum, var. "Stoneville 213" g / ha of N, N-dimethylpipridinium chloride 0 112 Height of growth 141 cm = 100 115 = 82 Yield 1568 kg / ha = 100 1830 = 117 Example 12 Seed: May 10th, 1974 Treatment: July 20th, 1974 (6 white flowers / 10 m row) Measurement of height: November 17th, 1974 Harvest: November 17th, 1974 Gossypium hirsutum, var. "Stoneville 213" g / ha of N, N-dimethylpipridinium chloride 0 112 224 Height 72.0 cm = 100 71.2 = 99 69.0 96 Yield 1738 kg / ha = 100 1890 = 109 2004 115 Example 13 Seed: May 12th, 1975 Treatment: July 31, 1975 (8 white flowers / 10 m row) Measurement of height: October 13, 1975 Gossypium hirsutum, var. "Coker Caroline Queen" g / ha of N, N-dimethylpiperidinium chloride 0 120 250 480 Height 84.5 100 69.3 82 62.8 74 61.7 73 Example 14 Seed: 04/15/1974 Treatment: 06/10/1974 (2 white flowers / 10 m row) Harvest: 09/16/1974 Gossypium hirsutum, var. "SJ 2" g / ha of N, N-dimethylpiperidinium chloride 0 224 Mature capsules / m 67.6 pieces = 100 77.6 115 Yield 2951 kg / ha = 100 3342 = 113 Example 15 Seed: 04/16/76 Treatment: 07/12/76 (19 white flowers n / 10 m row) Measurement of height: 08/12/76 Measurement of shoot length: 08/12/76 Harvest: 11/14/76 Gossypium hirsutum, var.SJ 2 gr / ha N, N-dimethylpiperidinium chloride 0 23.0 Height of growth 119.2 cm = 100 107.2 = 90 Shoot length 50.3 cm = 100 40.3 = 80 Yield 4605 kg / ha = 100 4849 = 105 The salts can also be used together with other crop protection agents, ie together with herbicides, insecticides, synergists, antidotes, other growth regulators, but in particular also with fungicides. The use of the salts together with fertilizers, in particular mixing with urea, is also advantageous in practice.

The effectiveness of the salts is due to the cation, so the choice of the anion is arbitrary. However, anions of phytotoxic acids should not be used will. Suitable acids are, for example, hydrochloric acid, hydrobromic acid, sulfuric acid, Carbonic acid, nitric acid, phosphoric acid, acetic acid, propionic acid, benzoic acid, Sulfuric acid monomethyl or ethyl ester, 2-ethylhexanoic acid, acrylic acid, maleic, Succinic, adipic acid, formic acid, chloroacetic acid, p-toluenesulfonic acid, benzenesulfonic acid, Dodecylbenzenesulfonic acid. The salt of hydrochloric acid is preferred.

The salts can be given to the plants by spraying over the leaf though also.be fed through the floor. The salts can be given in one dose or divided be applied in several partial doses (i.e. at different times).

The salts can be used as solutions, emulsions, suspensions, granulates, Foams or dusts are used. The forms of application depend entirely according to the purposes of use; they should in any case have a fine distribution of the ensure effective substance.

The solution is used to produce solutions that can be sprayed directly in water. But it can also use dispersions in hydrocarbons Boiling points higher than 1500C and one or more functional groups, e.g. the keto group, the ether group, the ester group or the amide group, these Group as a substituent on a hydrocarbon chain or part of a heterocyclic ring can be used as syringes.

Aqueous application forms can be obtained from emulsion concentrates, pastes or wettable powders (wettable powders) can be prepared by adding water. To produce emulsions, the substances can be used as such or in a solvent dissolved, by means of wetting or dispersing agents, e.g. 3. Polyethylene oxide addition products concentrates consisting of water or organic solvents are produced, which are suitable for dilution with water.

Dusts can be created by mixing or grinding together the effective Substances with a solid carrier, e.g. kieselguhr, talc, clay or fertilizers getting produced. Mixtures with fertilizers are preferred for granulates.

Claims (3)

Claims .1. Procedure for regulating the development of Cotton plants, characterized in that they are treated with 5 to 490 g of an N, N-dimethylpiperidinium salt per hectare that is obtained with the aid of an aircraft or a vehicle with ground effect. 2. procedures for regulating the development of cotton plants, characterized in that the cotton plants are treated with 5 to 490 g of one N, N-dimethylpiperidinium salt per hectare at the time of the flowering of the cotton plants, as soon as 2 to 20 white or yellow flowers per 10-m cotton plants in a row of plants available. 3. procedures for regulating the development of cotton plants, characterized in that the cotton plants are treated with 5 to 490 g of one N, N-dimethylpiperidinium salt per hectare that you can use an aircraft or a vehicle with a ground effect at the time the cotton plants are in bloom, as soon as 2 to 20 white or yellow flowers per linear meter of cotton plants in one Row of plants are present.