RU2077398C1 - Detoxification of poisonous substances - Google Patents

Abstract

FIELD: land reclamation. SUBSTANCE: in order to liberate soil from poisonous and toxic substances, microorganisms destroying these substances are utilized. As such microorganisms, spontaneous microflora from live stock and poultry manure adapted to poisonous substances is used. Such microflora is obtained by multistage fermentation at 25-31 C with adding poisonous substances in gradually increased concentrations from 0.1 to 2% in the last fermentation stage. As seed material, in each succeeding stage, 10-30% of compost prepared in previous stage is utilized. EFFECT: simplified detoxification of soil. 1 dwg, 3 tbl

Description

 The invention relates to the field of ecology and can be used in the cleaning of soils from toxic and toxic compounds, including pesticides.

 The pesticides used in agriculture to control plant diseases and pests pose a great danger to the ecosystem. Under natural conditions, xenobiotics undergo destruction by soil microflora. However, these processes are extremely slow. Currently, they offer various biotechnological methods for cleaning the soil from excess amounts of pesticides, based on the use of microorganisms of xenobiotic destructors.

 The decomposition of chlorinated aromatic pesticides (2,4-dichlorophenoxyacetic acid and 2,4,5-trichlorophenoxyacetic acid) is described using microorganisms Pseudomonas pseudoalcaligenes strain NRRL B-18087 (US patent N 4804629) detoxification of residues of organophosphorus pesticides and organophosphorus pesticides Agrobacterium radiobacter (auth. Certificate. USSR N 1250572). A method for the destruction of the 3,4-dichloranilide pesticide by the algae Chlorella vulgaris BKM-A-10 and Scenedesmus acuminalus UA-2-7a (ed. Certificate of the USSR N 1560487), decomposition of 2-chlorobenzoic acid by the microorganism Pseudomonas putida YNK-1 (US patent) 4803166), the decomposition of phosphate impurities and chlorinated hydrocarbons using the microorganisms Moraxella and Arthrobacter separately or in combination (German patent N 3729127), using the basidiogenic fungus Phanerochate chrysosporium, the decomposition of some toxic compounds DDT, polychlorophenols, benzoperen, 48 dioxin 13 U.S. Pat. .

 The patent study showed that in all the described methods of detoxification of toxic chemicals for the decomposition of specific chemical compounds, certain types of microorganisms are proposed. It mainly describes the decomposition of pesticides in an aqueous medium when xenobiotics are used by microorganisms as the sole source of carbon and energy.

Closest to our proposed method of detoxification of pesticides is the method of decomposition of organophosphorus pesticides by Bacillus megaterium bacteria, described in ed. testimonial. USSR N 1735359. According to this method, Bacillus megaterium microorganisms are pre-grown on a nutrient medium at 28 ^o for 2 days, then transferred to a medium containing pesticides (karbofos or hadron) and cultivated at 28 ^o for 7 days. Then, the soil containing pesticides is treated with the culture fluid. At the same time, over 5 days in the soil, hadrons (at the end. 10 mg / kg) decompose at 80% karbofos (at the end. 0.31 mg / kg) at 65%. In this method for the detoxification of pesticides (organophosphorus hadron pesticides and karbofos) it is proposed a certain type of microorganism Bacillus megaterium. It should be noted that the proposed method is difficult in practical implementation, since it is necessary to pre-grow the microorganism.

 The objective of the present invention is to develop a biotechnological method of detoxification of pesticides of various classes and mixtures thereof.

 The technical result is an improvement in ecology, a simplification of the method of cleaning soils from pesticides of various classes and their mixtures, reducing the economic costs of cleaning, due to the exclusion of growing special microorganisms of pesticides destructors and the use of agricultural waste (bird droppings and cattle manure).

 The essence of the proposed method is as follows: ready-made compost is introduced into the soil contaminated with pesticides, obtained from manure of farm animals and bird droppings, the spontaneous microflora of which is adapted to pesticides and capable of their accelerated decomposition. Adaptation (activation) of spontaneous microflora of manure of farm animals or bird droppings is carried out in the process of accelerated composting of manure or droppings in the apparatus with forced mixing and aeration in the presence of pesticides as a result of several successive fermentations with a gradual increase in the concentration of pesticides in the medium up to 2% (weight.) Maximum .

At the same time, 10-30% of the finished compost from the previous process is left as a seed material for fermentation in the reactor. The composting process is carried out at 28 ^o C ± 3 ^o . The duration of the process varies from 3 to 9 days, depending on the type of manure, type of filler, moisture content of manure. The result is a ready-made compost, which is a full-fledged organic fertilizer, the microflora of which is adapted to pesticides.

 In fig. 1 shows the growth dynamics of soil microflora, where I control, II in the presence of pesticides and compost application, III in the presence of pesticides and application with microflora adapted to pesticides.

 Example 1

 In the studies, a mixture of pesticides of the following composition was used: sodium trichloroacetate, 2M-4x, hexylor, simazine, promethrin, kenozone, ramrot, benlat.

The degree of decomposition of pesticides was evaluated by reducing the toxicity of samples in a biological way using the test organism Tetrachymena pyriformus. To do this, we used a number of dilutions of the test sample with a USD medium (carbohydrate-salt-yeast). A 3-4-day culture of ciliates was introduced into the obtained dilutions and incubated at 25 ^° C for 24-72 hours. The ciliates culture was microscopically examined in the studied samples. The minimum test test in which the death of the body was noted (up to 5 cells in the field of view) was an accounting one when determining the degree of toxic action; the toxicity of the initial sample was taken as 100%
Samples of non-sterile soil (100 g) were placed in small glass containers into which a 1% pesticide mixture was added. Sample I is a control. In sample II was added 10% of the finished compost of chicken manure. In sample III, 10% chicken compost compost with microflora adapted to pesticides was added.

Adaptation of microorganisms of chicken droppings was carried out during composting of droppings at t = 28 ^o ± 3 ^o C in the presence of pesticides as a result of 3 consecutive fermentations with a stepwise increase in the concentration of pesticides in the reactor 0.1% 0.5% 1.0% 20% of the finished compost from the previous process was left as inoculum to the reactor. The result was compost, the microflora of which is adapted to pesticides in an amount of 1%
Soil samples were incubated at room temperature for several weeks. Samples were mixed 2 3 times a week to improve aeration and hydration. In soil samples, the total content of microorganisms was determined 1 time per week (by the method of ten-fold successive dilutions with subsequent seeding on MPA) and toxicity. The research results are presented in Fig. 1 and tab. 1. As can be seen from Fig. 1, the growth of microorganisms in soil samples when chicken compost is added with microflora adapted to pesticides is accompanied by a reduction in the lag phase (Fig. 1, III) compared to the control (Fig. 1, I) and soil to which ordinary compost was added (Fig. . 1, II). Moreover, for a shorter period, the toxicity of the sample begins to decrease (table. 1). After 4 weeks of cultivation, the toxicity of sample III, in which compost with pesticide-adapted microflora was added, decreased by 50%, while in the other two samples (control and compost with non-adapted microflora, I and II) the toxicity did not decrease and remained at initial level (100%).

Thus, the application to the soil containing a mixture of pesticides (sodium trichloroacetate, 2M-4x, hexilor, simazine, promethrin, kenozone, ramroth, benlat) in a concentration of 1% weight. compost from the litter, the microflora of which is adapted to these toxic chemicals at a given concentration, provides detoxification of the soil for 4 weeks by 50%
Example 2

In studies, a mixture of pesticides of the following composition was used: sodium trichloroacetate, 2M-4x, hexylor, simazine. Samples of non-sterile soil (100 g) were placed in small glass containers into which a 0.1% mixture of pesticides was added.In addition, 10% of cattle manure compost (cattle) with microflora adapted to pesticides was added to the test sample (I). Adaptation of cattle microorganisms was carried out in the process of composting manure at t = 28 ± 3 ^o C when pesticides were added to the medium as a result of 2 consecutive fermentations at a concentration of pesticides in the reactor of 0.1%. In this case, 10% of the prepared compost was left as seed material from the previous process. The result was compost, the microflora of which is adapted to pesticides in an amount of 0.1%
Soil samples were incubated at room temperature for several weeks. Samples were mixed 2-3 times a week and moistened. From the table. Figure 2 shows that the toxicity of the experimental soil sample after 3 weeks of incubation decreased by 65% while in the control sample it remained at the initial level (100%).

 Thus, applying to the soil containing a mixture of pesticides (sodium trichloroacetate, 2M-4x, hexylor; simazine) at a concentration of 0.1% by weight of compost from cattle manure, the microflora of which is adapted to these toxic chemicals in this concentration, provides soil detoxification by 65 % for 3 weeks.

 Example 3

Used a mixture of pesticides of the following composition: Kenozone, Ramroth, Benlat. Samples of non-sterile soil (100 g) were placed in small glass containers, to which a mixture of pesticides in the amount of 2% was added. 10% of the prepared compost of chicken manure with microflora adapted to pesticides was added to the test sample. Adaptation of microflora of chicken manure to pesticides was carried out in the process of composting manure at 28 ± 3 ^o C as a result of 4 consecutive fermentations with a stepwise increase in the concentration of pesticides in the medium 0.5% 1.0% 1.5% 2.0% (weight) . As seed, 30% of the finished compost from the previous process was left in the reactor. The result was compost with microflora adapted to pesticides at a concentration of 2%. Soil samples were incubated at room temperature for several weeks. Samples were mixed 2-3 times a week and moistened.

 As can be seen from the table. 3, the toxicity of the experimental soil sample after 4 weeks of incubation decreased by 35% while in the control sample the toxicity remained at the initial level (100%).

 Thus, applying to the soil containing a mixture of pesticides (kenozone, ramroth, benlat) at a concentration of 2% weight, compost of chicken manure, the microflora of which is adapted to these pesticides at this concentration, provides detoxification of the soil by 35% for 4 weeks.

Studies have shown that composting agricultural waste (litter or manure) in the presence of pesticides, which results in the adaptation of their spontaneous microflora to xenobiotics, should be carried out under the following conditions: temperature 28 ± 3 ^o , the concentration of pesticides in the composted medium 0.1-2% weight, amount of finished compost left in the reactor from the previous process 10-30% If the parameters deviate from the indicated values: temperature, amount of finished compost left in the reactor, poison concentration imikatov in the medium (above 2%) marked slowing of the composting process and the deterioration of the quality of the compost, which reduces the efficiency of the adaptation process of spontaneous microflora manure and manure to agricultural chemicals and thus efficiency of cleaning soils. A decrease in the concentration of pesticides in the composted medium below 0.1% weight is not advisable, because the introduction of compost into the soil, the microflora of which is adapted to low concentrations of pesticides, also reduces the effectiveness of soil cleaning.

 Thus, the proposed method of detoxification of pesticides allows you to clean the soils of pesticides of different classes and their mixtures, which improves the ecology of soils and ensures environmental protection.

Claims (1)

1 A method of detoxification of pesticides, including the introduction into the soil contaminated by xenobiotics, of microorganisms of pesticides destructures, characterized in that as microorganisms-destructors of pesticides, spontaneous microflora of manure or manure adapted to xenobiotics obtained during composting by multiplication by 28 composting is used E + -> 3) <198> C with the addition of pesticides with a gradual increase in their concentration from 0.1 -2 wt. at the last stage of fermentation, while 10-30% of the finished compost from the previous stage is used as seed material at each stage of fermentation.

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