DE3825312A1 - Method for influencing and/or controlling the composition of natural or artificial microbial mixed biocoenoses - Google Patents

Abstract

The method is distinguished in that the influencing and/or control is effected by adding an effector to an existent mixed biocoenosis, and that this effector is formed by at least one non-toxic substance which acts to inhibit or promote, predominantly via the membranes, differentially or selectively certain species of microorganisms in the mixed biocoenosis.

Description

The invention relates to a method for influencing and / or controlling the composition of natural or mixed artificial microbial biocenoses.

Unlike in the laboratory, microorganisms usually come Of course, not as a monoculture before, but as a part a partnership. Many, even very old ones biotechnical processes (eg silage, raw sausage maturation, Natural sourdough, aerobic and anaerobic wastewater treatment, etc.), but also many natural processes (bacterial coat of skin and mucous membrane, rumen and intestinal fermentations, humification etc.) using such mixed biocoenoses, which are often extremely stable.

In many applications, such as the microbiological production of complex organic compound, in the medical-hygienic field to influence on skin and mucous membrane or on there existing microbial Mischbiozönosen and in wastewater treatment Prevention of bulking sludge, in the agricultural sector etc., it would be desirable to know the composition of Use case for application very different natural or artificial microbial mixed biocoenoses controlling interacting.

The invention is based on the object, a method show, with which an influence and control of Composition of natural and artificial microbial Mischbiozönosen is possible, in the form that a desired and, above all, stable partnership is obtained.

To solve this problem is a method according to characterizing part of claim 1 is formed.  

In a preferred embodiment of the invention takes place influencing and controlling the composition of natural and artificial microbial mixed biocoenoses by adding an effector of at least one non-toxic substance, but preferably from a mixture of non-toxic substances is formed or this substance or containing this substance mixture, wherein the substance or the Substance-forming substances from a group of substances are selected by one of the following properties is characterized:

• (1) adenylate cyclase inhibiting substance;
• (2) a polar hydrophilic / hydrophobic fabric, the be incorporated into the lipid layer of the cell membrane can and so does the formation of unsaturated fatty acids inhibits cellular membranes;
• (3) a membrane-bound K⁺ / Na⁺ ATPase inhibiting Substance that by action on the cAMP the anion secretion increases;
• (4) an oxygen transfer by phase transfer catalysis in the cell accelerating substance;
• (5) a lithium containing cation as a cation;
• (6) the formation of micelles and membrane structures inhibiting substance;
• (7) a transmembrane permeation enhancing and Glucose oxidation enhancing agent;
• (8) a phosphodiesterase and simultaneously the Cell division inhibiting substance.

The substance (1) is formed by at least one of the substances of the following group:
Aluminiumnicotinat
etofyllinclofibrate
Prostaglandin PGE₁

The substance (2) is formed at least from a substance of the following group:
Sodium salicylate and caffeine

The substance (3) is formed at least by a substance of the following group
anthraquinone
Oubain (= Strophantidine)

The substance (4) is formed by at least one substance of the following group
Alginsäuresilandiol
crown
Coronate
Katapinate
Podate

The substance (5) is formed by at least one substance of the following group
lithium carbonate
lithium amide
lithium chloride
lithium citrate

The substance (6) is urea / SDS, rhodanide / Triton-X or Taurocholate / Triton-X formed.

The substance (6) is of a mixture of urea and Sodium dodecyl sulfate, preferably in a molar ratio of 1: 8 educated.

The substance (7) is formed by at least one substance of the following group
guanidine nitrate
monensin
nigericin
dimethylbiguanide
Butylbiguanid

The substance (8) is formed by at least one of the substances of the following group
Potassium o-dithiocarbamate, methylxanthine.

The invention is also based on the finding that by selecting a total of only eight in their properties or effects of different substances or Substance groups by appropriate combinations very many natural and artificial microbial mixed biocoenoses be influenced in terms of their composition can, in the form that follows the controlling Intervention a new, stable self-sustaining community results.

Further developments of the invention are the subject of the dependent claims. Details of the method according to the invention as well as above all application areas are below explained in more detail by way of examples.

Examples

In the examples, the dilution of parent compounds as well as with the numbers M1 - M36 different mixtures indicated that were applied.

The individual substances were in three steps with ten so Bentonite triturated that a final concentration of 0.1 g / g was achieved. These starting mixtures were 2% Vasiline and 0.5% solubilizer (hydrogenated castor oligoglyceride polyglycol ether) added. From the stock solutions thus obtained or mixtures, the mixtures are in the same Parts by weight according to the following scheme.

M1: 1 + 2 + 5 + 6 M2: 1 + 2 + 5 + 7 M3: 1 + 2 + 5 + 8 M4: 1 + 2 + 6 + 7 M5: 1 + 2 + 6 + 8 M6: 1 + 2 + 7 + 8 M7: 1 + 3 + 5 + 6 M8: 1 + 3 + 5 + 7 M9: 1 + 3 + 5 + 8 M10: 1 + 3 + 6 + 7 M11: 1 + 3 + 6 + 8 M12: 1 + 3 + 7 + 8 M13: 1 + 4 + 5 + 6 M14: 1 + 4 + 5 + 7 M15: 1 + 4 + 5 + 8 M16: 1 + 4 + 6 + 7 M17: 1 + 4 + 6 + 8 M18: 1 + 4 + 7 + 8 M19: 2 + 3 + 5 + 6 M20: 2 + 3 + 5 + 7 M21: 2 + 3 + 5 + 8 M22: 2 + 3 + 6 + 7 M23: 2 + 3 + 6 + 8 M24: 2 + 3 + 7 + 8 M25: 2 + 4 + 5 + 6 M26: 2 + 4 + 5 + 7 M27: 2 + 4 + 5 + 8 M28: 2 + 4 + 6 + 7 M29: 2 + 4 + 6 + 8 M30: 2 + 4 + 7 + 8 M31: 3 + 4 + 5 + 6 M32: 3 + 4 + 5 + 7 M33: 3 + 4 + 5 + 8 M34: 3 + 4 + 6 + 7 M35: 3 + 4 + 6 + 8 M36: 3 + 4 + 7 + 8

The assignment of those used in the mixtures M1-M36 Substances 1-8 results from the following list:

1: aluminum nicotinate
2: Sodium salicylate
3: anthraquinone
4: Alginic acid diol
5: lithium carbonate
6: Mixture of urea and sodium dodecyl sulfate in a molar ratio of 1: 8
7: guanidinium nitrate
8: Potassium o-dithiocarbamate

The dilution was carried out in the examples with water (oil in Water emulsion), but also with oil (water in oil emulsion) respectively.

1. Epilithic bacteria of running waters

In a stream of grade III (alpha-mesosaprob) were Slides exposed on holders (water temperature 8 ° C; Winter). 5 slides each were stirred in very slow Beakers with creek water kept at 10 ° C. The beakers contained in each case 100 mg / l of the 36 mixtures. The Slides were natively examined under the microscope for diatoms screened. One each became the TTC (dehydrogenase), the Subjected to urease and the methylene blue test. Of the remaining two slides became imprints for the determination of different species groups.  

Urease, TTC and methylene blue were habquantitativ evaluated.

weak: 0; clearly: +; strong: ++; very strong: +++;

The determination of the growth density corresponded approximately to:

0-10² / cm²: 0; 10²-10³: +; 10³-10⁴: ++; over 10⁴: +++

The above and below still specified preparation no. each refer to one of the mixture M1 - M36 with the same number or with the treatment achieved results.

It turns out that by adding the membrane effectors themselves both a change in the species composition, as well as the Ecophysiology.

In a small, heavily vegetated meadow trench with 4.5 l / s outflow, which was heavily contaminated with manure, the self-cleaning power (BOD elimination) was determined over a distance of 120 m. The self-cleaning factor f was calculated according to Fair (ratio of daily oxygen intake to daily oxygen requirement).

With an amount of 2 g / m² (suspended in 1000 times Amount of water), the three parent compounds (M17; M19; M23;) brought in. 1 day after was again the Self-cleaning power determined. 2 weeks after the treatment the initial state was reached again. It turned out that the self-cleaning power of natural receiving waters opens up makes this way very much increase. It shows Here is a method of polluting waters to rehabilitate quickly.

2. activated sludge bacteria from sewage treatment plants 2.1 Bulking mud control

Freshly taken samples of activated sludge from a moderately polluted wastewater treatment plant (B _TS = 0.32 kg BOD / kg TS.d) with bulking sludge (SVI 340 ml / g) were aerated for 10 hours in an overhead funnel. In two parallels, the 36 parent compounds were added at 100 mg / l. Thereafter, the amount and type of thread-forming bacteria (after Eikelboom) were determined. With the preparations, which showed success, the following changes resulted:

(0 no bacteria; + rarely; ++ frequently; +++ masses)

The preparation 11 resulted in a significant reduction of the thread-forming agents. Therefore, a practical trial with this preparation carried out, by adding this preparation over a period of 10 days in the inlet to the recovery and in an amount that gave a dosage of 4 g / m³ feed. at a sludge age of 11 days (ignoring the Sludge in the secondary clarifier) resulted in Table I reproduced image for abundance 021 N and the mud index or sludge volume index SVI in ml / g. In this diagram is in the X-axis, the time is given in days.

It turned out that with preparation 11 the bulking mud sustained combat. Only after about six weeks rose the sludge index and the number of thread-forming agents again.

2.2. Scum fighting

In a sewage treatment plant, scum was regularly the as Nocardia spec. could be identified. Fresh taken activated sludge samples were for 10 hours in Vented funnel. In two parallels the 36 Masterbatches added at 100 mg / l. After that, the Abundance of Nocardia spec. certainly. With the preparations, the Made changes, the following emerged.

(0 no nocardia; + rarely; ++ frequently; +++ in bulk)

The preparation 18 showed activity and was in practice (4 g / m³) for 14 days in the inflow to the revival) used. After 4 Days began to diminish the swim blanket, after 6 days was she almost disappeared. The number of Nocardien was on + (rarely) dropped.

3. Degradation of apocrine sweat of the human skin

Human armpits became five common germs isolated, roughly characterized and according to the diagrams II and III in cross culture on MRVP agar bred and tested for symbiosis / antibiosis. The Cross-culture cultures were spaced 24 hours apart created and attached between the first layer and the cross layer Incubated at 37 ° C for a further 24 hours. The 36 parent compounds were individually in a concentration of 100 ug / g the Added MRVP agar. So were the differences in the Symbiosis / Antibioseaktivität determined. The drugs, which caused a change, this resulted from the Tables II and III shown picture.

These five preparations were mixed with 100 μg / g of a Deostick (32 % By weight of ethanol; 15% by weight of polyethylene glycol; 20% by weight of water; 32.5% by weight of sodium stearate; 0.5% by weight solubilizer (Hydrogenated Ricinustriglyceridpolyglykolether) mixed and over four days in each armpit of 8 probation bands applied. The other armpit was using a stick without Addition treated. After that a sniffing test (7 sniffer) took place instead of. It was found that the preparations 7 and 14 the Significantly reduce odor (especially preparation 14), while the preparations 26 and 32, but especially the 28 Multiply smell.

(++ = treated armpit smells much less;
+ = treated armpit smells less;
0 = treated armpit and untreated armpit smell the same;
- = treated armpit smells stronger;
- = treated armpit smells much stronger)

On this basis, it is possible to get a biological deodorant too develop, the other than usual, does not cause germ inhibition, but the natural microbial biocenosis of the skin so promotes odors can not arise.

4. Soil microorganisms

One pararendzina was treated with 100 mg / m³ each of the 36 parent compounds in three parallels and incubated at 15 ° C for 28 days, with the soil being planted in shallow pots with maize (variety Tau). From the hitherto developed rhizosphere various microorganisms were determined by dilution cultures. The most significant changes were made by preparations 12, 24, 27 and 31, with 12 and 31 showing an increase, 27 and 24 an inhibition of bacterial growth.
(Data in 10³ / ml soil)

With the preparation 12 was a field trial in quadruple Repeat performed. As a control corn served with the 200 g montmorillonite (with 0.5% methyl cellulose) per 25 kg Seed had been pickled. In the treated plots the preparation became 12 with 100 times the amount of montmorillonite (diluted with 0.5% methyl cellulose). 200 g of this Mixture was wet just before sowing to 25 kg Pickled seeds. (This amount corresponds to 2 g / ha). It showed a significant increase in the root mass and the Harvest results. The stronger biological activity of the Bodens thus led to a considerable increase in performance.

Harvest results (dt / ha)

5. Cohabitation of the rumen

Freshly obtained, homogenized and finely sieved rumen contents Slaughtered cows became in 4 parallels under CO₂ cultured at 37 ° C. There were 10 mg / l of the 36 parent compounds added and after 4 hours was tested, in which time Methylene blue (5% by volume of Löffler's methylene blue diluted 1:25) is discolored.

It turned out that four preparations (9; 16; 27; 28) in the Were able to decolorize (as a measure of the fermentation activity) to accelerate.

Samples treated with these four preparations were placed on their Free fatty acid content analyzed. It turned out following molar ratios

With the preparation 27 was a feeding trial on 12 cows over a period of two weeks. It was the preparation diluted 1: 100 with montmorillonite and in one Ration of 0.5% (relative to the fresh feed weight) of the Food (60% alfalfa hay, 40% concentrates) added. The Quantity and quality of the milk changed as follows:  

The inventive method can thus u. a. in Advantageously, to increase the self-cleaning power natural waters or pollutants, to the swelling mud or Floating mud control at sewage treatment plants, while on biological Base acting deodorants, for the increase of Soil yields and for the improvement of milk production use.

Claims (21)

1. A method for influencing and / or controlling the composition of natural or artificial microbial Mischbiozönosen, characterized in that the influencing and / or control is carried out by adding an effector to an existing Mischbiozönose, and that this effector is formed from at least one non-toxic substance, which acts predominantly via the membranes differently or selectively to certain types of microorganisms in Mischbiozönose inhibiting or promoting. 2. The method according to claim 1, characterized in that as Effector is a mixture that uses two or three contains several of the non-toxic substances. 3. The method according to claim 1 or 2, characterized in that the effector consists of at least one non-toxic substance or contains at least one non-toxic substance which is characterized by one of the following properties:

• (1) adenylate cyclase inhibiting substance;
• (2) a polar hydrophilic / hydrophobic fabric that can be incorporated into the lipid layer of the cell membrane, thus inhibiting the formation of unsaturated fatty acids from cellular membranes;
• (3) a membrane-bound K⁺ / Na⁺-ATP-ase inhibiting substance that increases the effect on the cAMP anion secretion;
• (4) a substance which promotes oxygen transfer in the cell by phase transfer catalysis;
• (5) a lithium containing cation as a cation;
• (6) a substance inhibiting the formation of micelles and membrane structures;
• (7) a transmissive permeation enhancing and glucose oxidizing enhancing agent;
• (8) a substance inhibiting phosphodiesterase and, at the same time, cell division.

4. The method according to claim 3, characterized in that the substance (1) is formed by at least one of the substances of the following group:
Aluminiumnicotinat
etofyllinclofibrate
Prostaglandin PGE₁ 5. The method according to claim 3 or 4, characterized in that the substance (2) is formed of at least one substance of the following group:
Sodium salicylate and caffeine 6. The method according to any one of claims 3 to 5, characterized in that the substance (3) is formed of at least one substance of the following group:
anthraquinone
Ouabain (= Strophantidine) 7. The method according to any one of claims 3 to 6, characterized in that the substance (4) is formed by at least one substance of the following group:
Alginsäuresilandiol
Crown ethers or coronates
Katapinate
Podate 8. The method according to any one of claims 3 to 7, characterized in that the substance (5) is formed by at least one substance of the following group:
lithium carbonate
lithium amide
lithium chloride
lithium citrate 9. The method according to any one of claims 3 to 8, characterized characterized in that the substance (6) of urea / SDS, Rhodanide / Octylphenolpolymethylenglykolether or Taurocholate / Octylphenolpolymethylenglykolether formed is. 10. The method according to any one of claims 3 to 9, characterized characterized in that the substance (6) consists of a mixture of Urea and sodium dodecylsulfate, preferably in the molar ratio 1: 8 is formed. 11. The method according to any one of claims 3 to 10, characterized in that the substance (7) is formed at least of a substance of the following group:
guanidine nitrate
monensin
nigericin
dimethylbiguanide
Butylbiguanid 12. The method according to any one of claims 3 to 11, characterized in that the substance (8) is formed by at least one of the substances of the following group:
Potassium o-dithiocarbamate, methylxanthine. 13. The method according to any one of claims 3 to 12, characterized characterized in that the effector is a mixture of four Substances 1, 2, 3, 4, 5, 6, 7 and 8 is used. 14. The method according to claim 13, characterized in that the mixture with 10 times the amount of weight Bentonite or montmorillonite is triturated. 15. The method according to claim 13 or 14, characterized that the mixture for the production of a Masterbatch two weight percent Vaseline and 0.5 Weight percent of a solubilizer, preferably  hydrogenated Rhizinustriglyceridpolyglykolether mixed become.   16. The method according to claim 15, characterized in that by addition of a mixture of
Aluminum nicotinate / alginic acid silanediol / urea sodium dodecylsulfato-t 1: 8 / potassium o-dithiocarmate
or
Sodium salicylate / anthraquinone / lithium carbonate / urea sodium dodecylsulfate 1: 8 /
or
Sodium salicylate / anthraquinone / urea sodium dodecyl sulfate 1: 8 / potassium o-dithiocarbamate /
in equal parts
the self-cleaning power of a watercourse is increased. 17. The method according to claim 15, characterized in that a mixture of
Aluminum nicotinate / anthraquinone / urea sodium dodecyl sulfate 1: 8 / potassium o-dithiocarbamate
or
Anthraquinone / Alginsäuresilandiol / lithium carbonate / potassium o-Dithiocarb-Amat
or
Anthraquinone / Alginsäuresilandiol / guanidinium nitrate / potassium o-Dithioca-rbamat
in equal parts
in activated sludge plants for wastewater treatment is added to reduce bulking bacteria. 18. The method according to claim 15, characterized in that a mixture of
Aluminiumnicotinat / Alginsäuresilandiol / guanidinium nitrate / potassium o-di-thiocarbamate
equal parts
in activated sludge plants for wastewater treatment is added to reduce nocardium swimming sludges. 19. The method according to claim 15, characterized in that a mixture of
Aluminum nicotinate / anthraquinone / lithium carbonate / urea-sodium dodecyl sulfate 1: 8 /
or
Aluminiumnicotinat / Alginsäuresilandiol / lithium carbonate / Guanidiniumni-stepped
equal parts
is used to reduce odor in reducing human sweat on the skin. 20. The method according to claim 15, characterized in that a mixture of
Aluminiumnicotinat / anthraquinone / guanidinium nitrate / potassium o-Dithiocar-Bamat
or
Anthraquinone / alginic acid silanediol / lithium carbonate / urea-sodium dodecylsulfate 1: 8 /
equal parts
is used to increase soil microbial activity to increase soil fertility. 21. The method according to claim 15, characterized in that a mixture of
Aluminiumnicotinat / anthraquinone / lithium carbonate / potassium o-Dithiocarba-mat
or
Sodium salicylate / Alginsäuresilandiol / lithium carbonate / potassium o-dithio-carbamate
equal parts
is used to reduce the formation of acetate in bovine rumen fermentation and to promote propionate and higher volatile fatty acids, thereby increasing cows' milk yield.