DE1023058B - Method of stimulating plant growth - Google Patents

Description

GERMAN

PATENT OFFICE

kl. 16 15

INTERNATIONAL KL.

C 05f; AOIn

P 9962IVa / 16 REGISTRATION DAY: 17 JU NI 19 <5 3

NOTICE
THE REGISTRATION
AND ISSUE OF THE
EDITORIAL: 23 YES NU AR 1 9 5 8

The invention relates to a method for stimulating the growth of plants or seeds and Plant tissues with solutions of antibiotics.

With a large number of organic compounds, plant growth has stimulating effects been observed. The best known of these substances are the plant growth hormones, such as indole acetic acid, Naphthaleneacetic acid, phenoxyacetic acid, naphthoxyacetic acid and other compounds belonging to this class. Some antibiotics, particularly fungicidal antibiotics, are useful in treating plant diseases been used. However, while the diseases can be cured, the antibiotic is inhibited Treat either plant growth seriously or at least cause no stimulation of the * 5 Plant growth.

So z. B. in "Nature", London, Vol. 167 (1951), pp. 347 to 349, on the treatment of growing plants various types reported with griseofulvin. However, this was not a growth stimulation, but rather, a certain inhibition of growth of the root and a burning of the leaf tips were found.

It has now been found that achieves a stimulation of plant growth by treating the plants with a solution of an antibiotic in ² S which comprises treating the plants or the seeds with the solution of an antibiotic, whose solubility is at least 1 part by weight per million in water, which has a marked antibacterial effect against gram-positive and / or gram-negative bacteria and which is present in the solution in a concentration of at least 0.005 and not more than 25 parts by weight per million, preferably from 0.5 to 10 parts by weight per million, in particular with solutions of Oxytetracycline, rimocidin, thiolutin, streptomycin, penicillin, aureomycin and the like or their salts, chlorohydrates, sulfates or complexes. Why antibiotics promote plant growth at certain low concentrations and why higher concentrations have an inhibitory effect is unknown. The value of stimulating the growth of plants, especially in their early stages of growth, is obvious. The most economical use of the available culture soils requires fast-growing, vigorous plants that start growing early. This is especially the case when it is desired ⁴ ^ to achieve more than one crop on a given area in a growth period. Furthermore, by postponing planting until there is no longer any risk of frost, and then using an antibiotic under the conditions according to the invention, the lost time can be made up for, and there is no risk of the plants freezing to death. A head start in the ripening time of the plants by as little as 1 week can add significantly to the process of stimulation
of plant growth

Applicant:

Chas. Pfizer & Co., Inc.,
Brooklyn, NY (V. St. A.)

Representative: Dr. W. Beil, lawyer,
Frankfurt / M.-Höchst, Antoniterstr. 36

Claimed priority:
V. St. v. America June 17, 1952

Louis G. Nickell, Brooklyn, NY,
and Alexander Carpenter Finlay,
Long Island City, NY (V. St. A.),
have been named as inventors

Contributing to the success of an agricultural business. This is especially true for plants that grow in Greenhouses are drawn, in which the maximum utilization of the available space is very much important is. If the time required to develop a given generation of plants is reduced this represents a substantial saving.

When seeds of various plants, including monocotyledonous and dicotyledonous plants, appear in trays porous paper are given, which with an aqueous solution of an antibiotic of a concentration of moistened no more than 25 parts to 1 million parts by weight of the solution, and then cover the dishes and placed in a warm room, it has been found that these seeds are much faster none other than those in bowls with water alone without an antibiotic solution. Also is the percentage of the seeds treated with the antibiotic that germinate are significantly higher. The seedlings are vigorous and healthier. The effect of the antibiotic on the seeds is not on the inhibition of any on the seeds or the microorganism present in the environment due to the use of the antibiotic Solution with sterilized seeds and under sterile conditions produces the same effect.

When sowing seeds in ordinary soil or sand, and when watering with a solution

709 850/301 '

containing no more than 25 parts / million tetracycline, penicillin, streptomycin or bacitracin Contains antibiotic, it is shown that the seed-sided.

seeds germinate much faster than seeds that have a large number of antibiotics, such as B. penicillin,

. sown under the same conditions and only on usual streptomycin, thiolutin (trademark), oxy tetracycline, Kind to be watered. This applies to a large number of 5 Rimocidin, Aureomycin, etc., can according to the invention different plants and also be used in different procedures in accordance with this. The antibiotics Soil and water types, various. Sunbeams can be used in many biologically active forms ment etc. too. will. Raw materials, partially purified concentrate

Although it is useful on seeds, seedlings or treads, salts (those antibiotics that contain acids or bases young plants are an aqueous solution of antibiotics to io) and various other derivatives can easily use, the antibiotic can also be used in others. The terms »an oxytetracycline form, z. B. as a solid, applied to antibiotic «,» a penicillin antibiotic «,» a strepden the soil surrounding the seedlings or plants in tomycin antibiotic "and the like are therefore here Such an amount is applied that the used in the soil, not only the free compounds, which are present in the sun Moisture the antibiotic to a condensation 15 also salts, such as. B. chlorohydrates, sulfates, alkali metal concentration of no more than about 25 parts / million metal salts, complexes and other biologically active dissolves. The invention therefore relates to a form to designate. A useful oxytetra process to stimulate plant growth, after cyclin antibiotic consists z. B. from raw precipitates which on the plant or its seeds an anti-quaternary ammonium salt complex of the Oxybioticum in such an amount that a 20 tetracycline.

Solution with a concentration of no more than. In order to be of practical value, this must be sufficient

25 parts / million comes into contact with the plant. Selected antibiotic according to the invention has a solubility homely will have contact with the roots or seeds in water of at least 1 part / million. The Verder Plant produced, however, absorption may also be given in their effectiveness at any given bindings going on on the trunks and leaves. Sub early in the 25 kinds of a plant tissue, seed or seedling Stages of plant growth are the anti-different. This is how the optimal practical concentrabiotics lie most useful. It is to be noted that the tion of a compound is for a particular species of plant relative solubility of a given antibiotic in 2 parts by weight per million of that used for casting Water to some extent takes the form of water, whereas another antibiotic in which the antibiotic is used. Will require 30 10 parts / million. The skilled person can z. B. If sodium penicillin is used, its high includes easily determine the appropriate conditions. Im all-solubility using a large amount of the base, about 0.5 to 10 parts per million are used. Product close to the seed or the young also is the concentration at which the inhibition Plant out. However, it becomes a salt of penicillin as the plant growth takes place, depending on the particular. B. Procaine penicillin or dibenzylethylenediamine 35 whose antibiotic is very different, although normal penicillin, When used, the solubility in water is wise more than 25 parts / million are disadvantageous. Will much less, and there can be a considerable amount of a group of plants before the application of an antidiesis Material the soil or the medium in which the bioticums are poured, so it is desirable to have a condie Plant is raised, can be added. Use the centered solution so that at the roots dissolved material is consumed, undissolved material dissolves every- 40 a concentration is achieved which is within the specified range gradually, and so comes an appropriate concentration of the area. That for the stimulation of the vegetable wax material Antibiotic selected with the plant, the seed or the root turns is allowed with regard to the bein Contact. This also applies to other antibiotics that are not toxic to the plant. This can be done easily to. For example, oxytetracycline (the merchandise can be obtained through simple experiments, such as seed germination or The inventor's sign for the same is "Terramycin") in 45 Planting the seed in soil and applying it Form of a raw precipitate by means of certain quater-specific antibiotics for the determination of the none Ammonium salts obtained from the fermentation broth and growth rate can be determined. Such a crude solid that can be found in water. The relative effectiveness of a given anti-wrinkle Has solubility, is used to stimulate the wax biotic is noticeable from one plant species to another turns in appreciable quantities on seeds, seedlings, or 50 different.

applied to young plants. The growth of a certain species of plant can be based on

The present invention is also significantly faster and in connection with antibiotic treatment a process for the cultivation of plant tissues react more completely than that of other plants, useful in submergenic ventilated conditions. However, it was found that the growth of a It has been found that the addition of an antibiotic 55 large numbers of plant species in a larger or at a concentration of up to about 25 parts / million to a lesser extent due to the presence of little anti-to which is stimulated for the cultivation of such plant tissue biotica concentrations. This effect The medium used to cut the plant tissue is definitely not due to the inhibition of microorganisms stimulates larger and stronger growth. It is attributed to the development of plants or noted that the antibiotic slowed down 60 plant tissues during the increase, albeit an incidental one Plant tissue growth depleted or effect of some value. Primarily can be decomposed and that from time to time the antibiotics also act in the specified low conicals Quantities must be added to achieve the concentrations by means of an unknown mechanism to replace used quantities. The antibiotics stimulate the plants themselves directly and increase the lessen the growth of the plant tissue. This can be 6s growth rate, which is especially true for seeds due to the fact that it applies to certain vitamins and young plants.

conserve or possibly replace. For example, it should be noted that some antibiotics

in the cultivation of the tumor tissue of the Rumex acetosa under certain conditions, e.g. B. in contact with the need for vitamin B ₁ due to the presence of the acidic soil, can be quite easily ineffective, given concentration of antibiotics, such as. B. Oxy- 70 In this case it is necessary to use this antibiotic

to use more often than to use a more resistant antibiotic or a higher starting concentration. The aim of the method of the invention is the plant tissue, in particular seeds or roots, with an anti-biotic solution of up to 25 parts / million keep in touch as continuously as possible for maximum effect.

The method for accelerating the germination of seedlings and des Rapid plant growth has been shown to involve the seeds with a layer or mass of material which contains an antibiotic. This is achieved by coating the seeds with a mixture which contains a suitable concentration of the antibiotic or a mixture of different antibiotics. Ver * 5 Seed coating drives are well known in agriculture and the antibiotics work well for such treatment. On the other hand, the seeds can be used in suitable capsules that contain a contain some amount of one or more antibiotic agents so that the capsules dissolve when they are come in contact with moisture and the seeds in the presence of an appropriate concentration of the antibiotic can germinate. Various inert diluents can be used along with the antibiotic can be used to achieve a suitable concentration of active material with the Seed and comes into contact with the roots of the seedlings. It is of course to be noted that the persistence of antibiotic agents is very different and that it may be necessary to change the amount of an inconsistent one Add antibiotic shortly after sowing.

The following examples serve to illustrate the process of the invention and are not intended to be to consider only embodiments of the present invention.

example 1

Sorrel plant seeds (Rumex acetosa) were placed in shallow boxes with ordinary garden soil sown. Care was taken to ensure that both the control and the test boxes equal number of seeds were brought. These boxes were filled with 1 liter of water each for the first 4 days Day and afterwards depending on the level of dryness of the ground. (The frequency of watering was at all Boxes same.) In the experimental boxes, 5 parts / million oxytetracycline was added to the water. the Control boxes received tap water only. It was observed that the treated boxes had a larger Percentage of seedlings sprouting earlier than the control boxes. This difference became more pronounced as the plants approached their maturity in the course of their further development. The seedlings in those with oxytetracycline treated boxes were significantly larger and stronger than the seedlings in the untreated boxes. In order to determine whether a difference is noticeable after the plants have grown out, these plants were Left in the boxes for 46 days without further treatment. At that time there were boxes in the treated and an equal number of plants in the control boxes. The treated plants possessed average 5.2 leaves per plant while the control plants had 4.6 leaves per plant. (With the exception When it is in bloom, the sorrel has no trunk above the surface; all dimensions therefore relate to the in leaves growing upright.) The height of the plants from the ground was measured. The following Table gives the height of the longest and shortest plant in each group, as well as the average height of all Plant a group in cm.

Highest
plant Lowest
plant ,By
cut Control. · ..... 22.2
25.7 5.7
4.5 14.2
23.9 Treated
plants

The total weight of the leaves just removed from the control box was 60.9 g and that of the leaves treated box was 81.7 g. From the above results, it follows that the stimulatory effect of the antibiotic oxytetracycline on the germination and subsequent growth of sorrel plants produced a difference that was still present after 46 days.

Example 2

Agave toumeyana seeds were placed on a piece of filter paper in Petri dishes. The paper in the Petri dishes were wetted with solutions containing 0.005, 0.025, 0.05, 0.25, 0.5, 2.5, 5.0 and 25 parts / million thiolutin contained in water. Another set of bowls was made in exactly the same way with the deviation established that no thiolutin was added to the water with which the paper was moistened. It has been found that the germination of the seeds is significantly accelerated at all concentrations of thiolutin used became. The maximum germination rate achieved at these concentrations studied was found to be 2.5 to 5.0 parts / million. The seeds containing 25 parts / million thiolutin Solution treated had slightly shorter shoots than those containing 5 parts / million Solution treated. At a concentration of 2.5 parts / million, shoots were obtained whose length averaged 2.54 cm after a period when the average length of the control saplings was only 0.64 cm.

Example 3

A group of 49 sweet corn seeds (Zea saccharata) were planted in two greenhouse beds each containing the same type of garden soil. The same (usual) conditions regarding light, temperature etc. prevailed in each bed, and both beds were watered with 2 liters of water on the day of sowing and with 2 liters on the 6th day after sowing. 1 liter of water was used on the 7th, 10th, 12th and 14th day after sowing. The water used in one bed (the " treated " bed) used 5 parts / million oxytetracycline chlorohydrate. The water used for the "control bed" was ordinary tap water. After 4 weeks the plants were removed from the soil. Of the 49 seeds in the treated bed, 20 had germinated and formed a plant. Of those in the control bed, only 12 had sprouted. The height of each plant was measured from the ground. The following table shows the height of the tallest and smallest plants in each group as well as the average height of all plants in each group in cm.

control

Treated bed

Highest
plant

49.5
60.9

Smallest
plant

15.2
24.8

average

35.5
44.3

The total weight of above-ground plant tissue shortly after removal was off the bottom of the control bed 23 g and from the bottom of the treated bed 45 g. All of the plant tissue each group was ground and dried at 105 ° to constant weight. The dry weight of all plants in the control group was 2.4 g and that of the treated group was 5.1 g.

From the above results it can be seen that the antibiotic oxytetracycline is a very potent stimulant Has an effect on the germination of maize and the growth rate of young plants. from Of particular interest is the fact that in this experiment with growing maize (in the first 4 weeks) more than twice the dry weight of the plant tissue is produced in the presence of an antibiotic than under exactly the same conditions without an antibiotic.

Example 4

Single sweet corn seeds (Zea saccharatä) were placed in # 00 gelatin capsules. For a group of Capsules, the remaining space was filled with talc. In the case of a second group, the rest of the room was in the capsules filled with a mixture of talc and 10 parts / million oxytetracycline chlorohydrate. Twenty-five of each type of encapsulated seeds were sown in two different greenhouse beds. These flower beds were normally watered and the rate of germination of the seeds observed. 5 days after sowing 16 of the seeds planted in the capsules containing the oxytetracycine compound had germinated. From the Control group had only 7 germinated. On the 8th day after sowing, 21 of those treated with oxytetracycline had Seeds germinated. In contrast, only 12 of the untreated seeds had germinated.

Example 5

Sixty seeds of Rumex acetosa were sown in two greenhouse beds that contained soil. The first Bed was poured periodically with a solution that was 5 parts / million by weight of oxytetracycline chlorohydrate. The second bed was watered with ordinary tap water. These Flower beds have been exposed to sunlight and air under normal conditions and have been treated with regard to the Seed germination rate observed. 6 days after sowing were on the oxytetracycline-treated Bedding 17 seedlings appeared. Only 10 had appeared on the second bed. On the 9th day after the 22 seedlings appeared on the oxytetracycline-treated bed, but on the control bed there were only 14.

Claims (1)

PATENT CLAIM: Method of stimulating plant growth by treating plants with a solution an antibiotic, characterized in that plants or seeds with the solution of such Antibiotics are treated, the solubility of which in water is at least 1 part per million by weight, that has a clear antibacterial effect against gram-positive and / or gram-negative bacteria and that in the solution at a concentration of at least 0.005 and not more than 25 parts by weight per million, preferably from 0.5 to 10 parts by weight per million, especially with solutions of oxytetracycline, rimocidin, thiolutin, Streptomycin, penicillin, aureonrycin and the like or their salts, chlorohydrates, sulfates or complexes. Considered publications:
"Nature", London, Vol. 167, 1951, pp. 347 to 349, 685,! 6. ® 709 850/301 1.58