DE1138581B - Process for promoting the growth of plants - Google Patents

Description

Method of promoting the growth of plants It has already been suggested using means to promote plant growth, such as plant hormones, which are preferably insoluble or sparingly soluble in water, or the plants to treat with heteroauxines, yeast autolysates or substances that promote development prevent from harmful microorganisms. You already have types of sugar, in particular reducing sugars, used as a treatment agent for this purpose.

All of these agents were added to the plants at random, where appropriate mixed with each other at will. Attempts have also been made to increase the Achieve yields of crops by having the seeds before sowing or the young plants before planting out with a mixture of different selected soil bacteria and those fungi and algae that are associated with these soil bacteria live in symbiosis. So here, too, a mixture is different active substances are used.

About the action of mushrooms of the Saccharomyces or Torulopsis group in the form of their extracts, d. H. on the effects of substances after their destruction remaining by a hydrolysis process (autolysis) is also with reference to the growth of plants has been reported in various publications. However, it was found that an extract prepared in the above manner has only a limited and temporary activating effect. Furthermore Such an extract disintegrates when it is brought into contact with the plants in the soil becomes very quickly into simpler chemical compounds, e.g. B. amino acids and ammonium salts, which no longer have a significant activating effect on plant growth.

For example, L u n d e gä r d h about the treatment of seeds reported with such extracts (Akad. Handl. Och. Tiskr., Stockholm, 1934), furthermore Hardness 1 (Phyton, Austria, 1950), Haupt (suppression of flower development at Plants, Ber. of the German Bot. Society, 1954), Warnock (Agric. Journ., 1956), Influence on the growth of pollen tubes, i.a.

L u n d e gä, r d h comes to the following in its publication Conclusion: “The extracts are not very successful in their application in agriculture ", and hardship I concludes:" Their effect on development of barley, corn, spinach and bean seeds is not worth mentioning in the former and in the latter noticeably retarding growth. ”Another fungus, Gibberella fujikuroi, is in the literature as a producer of a substance that stimulates plant growth promotes, has been dealt with in detail. This gibberellic acid o. The like. Is in the Classed group of phytohormones, these are hormonal bodies that stimulate growth of plants and act through the cells of the leaves, stems and roots. The main effectiveness is expressed in a stretching of the cells of the leaves, whereby there is no stronger influence on the development of the roots or an accumulation caused by dry matter (B r i a n, E n d e v o u r, 1957; West (Journ. Chem. Educ., January 1958). Furthermore, W i tt w e r (Michigan State University) reports in his studies of the use of this irritant in horticulture. It is necessary, to water the plants regularly at least once a week in order to keep the Maintain length distance effect. Apart from that it was not possible for him to demonstrate an increase in the yield of harvested fruits.

Another phytohormone, 3-indole acetic acid, has been related to checked for their practical application. H o p k i n s comes in a publication (Can. Journ. Res., 1940) to the following result: “Will barley seeds with this active If the substance is treated in the form of a measured powder, the length increases a 3% increase while the dry weight of the straw increases 100/0. ”Er however, could not favorably influence an increase in stye yields prove. There has now been a method of promoting growth found from plants in which a specific growth promotion is achieved, because the treatment agent creates a biological bond between the microorganisms and the treated material is produced. Through this bond there was growth and the physiological cell functions changed, resulting in faster development cell weight and an increase in crop yields.

The invention relates to a method for promoting plant growth through one-time treatment. of seeds before sowing or of growing plants with aqueous suspensions or powdered preparations of living microorganisms, which is characterized in that the treatment with active live yeasts Saccharomyces or Torulopsis families occurs. The living and active yeasts can be in powder form with a precisely defined grain size and a certain moisture content stored and used so that precise dosing is possible without difficulty is.

For the treatment of plants, the plant to be treated is preferably used sprinkled with an aqueous suspension. You can easily go after a transplantation of z. B. Ornamental and garden plants such Make treatment.

Compared to the methods of conveyance known from the prior art of the growth of plants, the method of the invention shows the. Advantage that the Treatment agent is a single well-defined substance that is critical in Cans can be applied.

The treatment according to the invention results in greater development of the root system and an increase in the chlorophyll content of the leaves of the treated Plants achieved. Furthermore, the treatment increases the biosynthesis of the carbohydrates or the amino acids etc. accelerated. The growth time of the plants is shortened, and yet one gets crop yield increases both in terms of weight as well as usability (e.g. with regard to the carbohydrate yield in sugar beet), that are higher and better than what has been achieved so far. In the treatment according to the invention became a stretching of the cells and also an increase in the weight of the dry matter found in the treated plants. Excessive elongation of the plant shoots could not be observed. However, the plants have sturdier stems and the leaves have a larger surface. As comparative tests show, the treated Plants a deeper green color than the untreated plants. This can be thus explain that the treated plants are eager to be responsible for photosynthesis to enrich the necessary pigments. After the treatment, the leaves of the sugar beet show compared to untreated plants, an average increase of 10% in the level a- and 190% fl-chlorophyll. The leaf surface increases on average by about 29D / 0, and the dry weight of the leaves increases by more than 50%.

On green pea plants (Pisum sativum) treated according to the invention, those who were 45 days old became even more dry weight gain found to be 120%. In addition, the fruits were conspicuously enlarged and the yields also increased greatly. The seed yields were also much higher, Quite apart from the acceleration of vegetative development that affects one Fraction of normal development had been reduced.

The types of yeast according to the invention are expediently in amounts of 0.05 to 2.5% applied, the critical doses, as already stated, depending on of the plants to be treated must be determined in each case by experiments.

The method according to the invention was applied to various types of grain, All kinds of vegetables, forage plants, flowers and other useful plants have been tested. the Effect of the yeast species is independent of their application in powder form or in Form of an aqueous suspension, always the same and regardless of whether the seed is used or the plants are treated as such.

The seeds can be treated according to the invention as follows: A. The seeds are mixed with the active solution or suspension within different periods of time the yeast species brought into contact, the reaction time being inversely proportional the concentration of active yeasts. There were experiments with concentrations between 0.05 and 20 / e and with treatment times of 2 to 15 hours. Such a moist treatment is particularly important in the case of sugar beet seeds or plants particularly effective.

B. After the wet treatment according to the invention, the Seeds moved for varying periods of time in the suspension of the active yeast species. In this case, the treatment time depends on the concentration of the active yeast species independent. Of great importance, however, is the speed at which the liquid flows is moved. It is essential that such a speed is chosen that a there is no abrasive effect on the seed surface. The cycle of fluid movement per minute can vary between 15 and 200; at the concentrations given above between 0.05 and 2%. The reaction time is less than 1 hour. One such Procedure was carried out in particular with pea and bean seeds and thereby found that the suspensions applied once were not used a second time because the seeds split off interfering substances during the treatment.

C. According to a further embodiment of the method according to the invention the moist-treated seeds as described above become after the treatment gently dried. It was found that by such gentle drying the effectiveness of the yeast species is retained and, for example, after 3 months Storage continues unchanged.

D. For the dry treatment according to the invention with the yeast species were Experiments carried out with barley seeds (Hordeum vulgaris). One subjugates the barley seeds a treatment with the powdery active yeast species, some of the remains Types of yeast on the Seed surface adhere and loosen when sowing of the semen produces the desired results under normal conditions. At a In such a dry treatment, the adhesiveness of the yeast powder depends on its moisture content and the grain size. The critical moisture content for such a treatment fluctuates between 6 and 14%, and the yeast grains must be sieved through a sieve Pass through a mesh size of 0.175 mm. The dry treatment according to the invention can be used with all types of seeds that have a rough surface or are surrounded by a fine coat of hair. It is essential that the active living Yeast species are uniform and homogeneous.

E. According to the invention you can the growing plants with aqueous Yeast sprinkling suspensions. Several plant species became apparent after 1 month Growth of a single irrigation with solutions and suspensions of the foregoing Yeast species described, with 25 cbm of yeast solution or yeast suspension per hectare were applied. It was found that such treatment, in particular in ornamental plants, is appropriate. Even a short time after the transplantation flowering can be achieved in plants treated in this way.

For all of the above-described embodiments of the method according to the invention, the soil was prepared in the manner customary for the specially treated plant. In all cases, only a single treatment was required to achieve the desired results. The results obtained according to the invention are listed below, for example in tabular form: Results from the treatment of peas (Pisum sativum) Number of plants Total weight Number of fruits Number of seeds Untreated seeds ........ ... 24 1759 81 284 Treated seeds (wet treatment). . . . . . . . . . 26 (10.8%) 283 g (1600/0) 125 (1540/0) 406 (1430/0) (The numbers in brackets represent the percentage increase.) Results from the treatment of beans (Phaseolus vulgaris) Fruit weight Number of plants Number of fruits Fruit weight in o / o to the control plant Untreated seeds. . . . . . . . . . . 101 174 120 g 100 Wet treatment A of seeds .... 58 271 211 g 307 Wet treatment B of seeds .... 69 357 240 g 378 Wet treatment C of seeds .... 60 314 380 g 535 In the case of sugar beet (Beta vulgaris), the following results were observed after a 4-month growing season: Percentage increase Weight of sugar the sugar content, Beet content compared with un- treated Beets Untreated seed Well . . . . . . . . . . . . . 575 g 16.571 / o 100% Wet treatment A of seeds ..... 901 g 16.24% 1531 / o Wet treatment B of seeds ..... 825 g 16.64% 145% Sprinkling the Plants after 30 days waxing tum. . . . . . . .. ... 658 g 16.59% 128% Wet treatment A of the seeds under connect- the sprinkling after 30 days. . 834 g 16.12 0/0 140% With the increase in the sugar content, an increase in the amino acid content in the sugar juice runs parallel. The figures given show that a considerable increase in yields per hectare is achieved with treated plants.

Furthermore, it could be demonstrated in the case of sugar beets that this after after treatment are essentially insensitive to dryness.

5 month old plants showed the following results: Percentage increase Weight of sugar the sugar content, Beet content compared with un- treated Beets Untreated seed Well . . . . . . . . . . . . . 405 g 18.5% 1000/0 Wet treatment A of seeds ..... 1189 g 16.81 / o 268% Wet treatment B of seeds ..... 1012 g 15.3% 2071 / o From the chemical analysis it can be concluded that due to the increase in photosynthetic power, the larger surface area of the leaves and the stronger development of the roots, the overall metabolism of the treated plants has received growth-promoting impulses, which are not only reflected in the increase in the carbohydrate and protein content of sugar beet, but also has an effect on all otherwise biosynthetically formed plant substances. This explains z. B. that the fat content of treated oilseed is higher than that of untreated. In plants of the Gramineae family, a particularly noticeable weight gain can be observed. In treated barley from 5 months (Hordeum sativum) an increase in weight of the seeds between 30 and 60% was found. Both sugar beet and barley showed a positive frost resistance after the treatment according to the invention.

It is already known from German patent specification 878 355 that Increase the yields of crops by using mixtures of different to reach selected soil bacteria. The treatment mix is what it is soil bacteria mixed with fungi and algae, possibly mixed must be used with growth-promoting substances.

Besides, yeast has not yet been used as a treatment used by plants, and it is also not known that the invention Yeast species live in symbiosis with soil bacteria.

Compared to the older method, the method of the invention has the following advantages: 1. The seed is treated with a single substance; 2. by the treatment according to the invention, the root system is more developed; 3. by the stronger development of the roots and that exerted by the yeast species Effect increases the chlorophyll content of the leaves of the treated plants: 4. At the same time, the biosynthesis of carbohydrates or amino acids and the like is started. accelerated in the treated plants; 5. from features 2, 3 and 4 results that the growth of the plants is accelerated, d. H. the plants develop in less time than untreated plants; 6. the crop yields and the Usability effect (for example the carbohydrate yield in sugar beet) increased compared to untreated plants.

The above statements also apply with reference to the German Patent 123 749. This relates to a method in which an action the liquid takes place on the seed until the act of swelling is complete. According to the invention such swelling is avoided, as it is known that the seed is already swelling suffers damage when drying with respect to its various properties or is even destroyed. In U.S. Patent 1411088 a fertilizer mixture and their application is described. Thereby the yeast or yeast substance becomes the seed or Plants are not added as an active body, but the yeast is made with carbohydrates grown and then mixed and dried. The mixture obtained is added to the soil to increase the CO, content in it, so that supposedly the Growth should be encouraged.

This is not a direct treatment of seeds or plants, as in the subject of the invention, in which not secondary, but primary there is a yeast effect on the seed or on the plant. What results were achieved by the known method is not known. Definitely there is no doubt that the amounts of treatment agent used are significantly larger than the amounts of the agent used according to the invention, which is used in such small quantities that we do not speak of a fertilizing effect can be.

Claims (6)

PATENT CLAIMS: 1. Process for promoting plant growth through a single treatment of seeds before sowing or of growing plants with aqueous suspensions or powdered preparations of living microorganisms, characterized in that the treatment with active live yeasts of the Saccharomyces or Torulopsis families occurs. 2. The method according to claim 1, characterized in that that the possibly gently pre-dried seeds while tumbling with powdery Yeasts, in particular with a grain size G 0.175 mm and with a moisture content from 6 to 14%, is treated. 3. The method according to claim 1, characterized in that that growing plants are sprinkled with an aqueous suspension of the yeast. 4. Process according to Claims 1 to 3, characterized in that the treatment of the seeds or plants is carried out with aqueous yeast suspensions, whose yeast concentration is 0.05 to 2.011 / o. 5. The method according to claims 1, 2 and 4, characterized in that the treatment of the seeds with the yeast is carried out for a period of 2 to 15 hours. 6. The method according to claims 1 to 5, characterized in that the treatment with amounts of yeast from 0.5 to 2.511 / o, calculated on the seed to be treated. Considered Publications: German Patent Nos. 878 355, 123 749; French patents No. 837 978, 842 785; British Patent No. 500,284; U.S. Patent No. 1411088.