RU2735034C1 - Method of assessing the ecological state of a territory - Google Patents

Abstract

FIELD: ecology.

SUBSTANCE: invention relates to ecology, monitoring of environmental pollution and can be used in assessing the degree of toxicity of a land plot of territory. Method involves simultaneous sampling of shoots with leaves in different herbaceous plants on an experimental study territory and on a reference conditionally clean territory, testing the analyzed samples, analyzing and comparing the test results. Estimation of the environmental condition of the territory includes five stages: at the first stage sprouts are collected, at the second stage the average sample is tested: by 50–100 g, at the third stage, the obtained aqueous dust-like suspensions are measured from the experimental territory by two parameters: pH and TDS, g/l, and compared with values from the conventionally clean zone, where the pH should be within 6–8, and the TDS value is less than 1,000 mg/l, and assessing the ecological state of the territory on the experimental territory as not hazardous, at the fourth step, cold water extraction of the plant material is carried out, at the fifth step, the aqueous suspension is again measured by the same two pH and TDS values, which are compared with values of pH and TDS values of water plant dust suspensions obtained from herbaceous plants growing on control conditionally clean territory, and assessing the ecological state of the experimental territory (state of soil and surface layer of atmospheric air simultaneously), if the pH value is less than 6 or more than 8, and the TDS value is more than 1,000 mg/l, the ecological condition of the territory, i.e. soil and surface layer of atmospheric air simultaneously, is assessed as hazardous.

EFFECT: method provides higher accuracy and efficiency of assessing the ecological state of a territory.

3 cl, 2 tbl, 1 ex

Description

The claimed invention relates to the field of ecology, namely, monitoring of environmental pollution, as well as geology, geoecology and can find application in assessing the degree of toxicity of a certain area of the territory.

There is a known method for assessing the ecological state of the territory, which is based on the method of bioindication of coniferous trees by determining acidity in the sap of needles and at pH = 5 ÷ 5.2 and below the contamination of the site is assessed as dangerous. [RF patent No. 2375869, published 20. 12.2009 - prototype].

The disadvantage of this method is the low accuracy of assessing the ecological state of the territory, since in the prototype it is used as an indicator - leaf blades (needles) of trees, located at a height of two meters or more above the soil surface and the indication of the degree of pollution of the territory in this case does not take into account its pollution at a height less than 2 meters, where environmentally hazardous substances are concentrated to a greater extent.

Also, the disadvantage of the method according to the prototype is the use in research of complex equipment (Kjeldahl method), organic solvents and complex sample preparation (chromatography method according to Sapozhnikov D.M.).

The technical result is an increase in the accuracy and efficiency of assessing the ecological state of the territory.

The objective of the claimed invention is to improve the accuracy and efficiency of the method for assessing the ecological state of the territory by assessing the absorption of hazardous dust particles by herbaceous plants from the surface layer of atmospheric air at a height of less than 2 meters and the adsorption of pollutants by the roots of plants from the bowels of the earth while reducing the complexity of the method, its environmental safety and low capital investments for its implementation.

Solution of a technical problem

A method for assessing the ecological state of a territory in zones of anthropogenic and natural influences, including taking samples of plant material, testing samples of plant material to determine the acidity of the environment in terms of the concentration of hydrogen ions, analyzing the test results, which determines the level of environmental pollution, while as samples at the test of plant material to assess the ecological state of the territory uses the leaves and shoots of any herbaceous plants with dust particles and pollutants inside the plants on their surface, which they absorb from the soil, and the assessment of the ecological state of the territory includes five stages: at the first stage in dry weather in at the end of the summer season, both on the experimental territory under study and on the conditionally clean control area, leaves and shoots of herbaceous plants of approximately the same species are collected, cutting them off with a sharp knife or pruning shears height above 5 cm from the soil surface and placed in plastic wrap or kraft paper, while in the process of research, a point sample of the plant material taken at one time is isolated on an area of 1.5x1.5 m ² , while the mass of plant material in one point sample is not less than 200-300g, and the total number of samples is 10 spot samples, and the sampling of the investigated samples in spot samples is carried out along the diagonal of the plot or along the route of sampling plant material, and shoots with leaves of herbaceous plants growing on conditional clean territory not less than 5-10 km from the experimental study area, the obtained samples are placed on a canopy of tarpaulin or polymer film measuring 2x2 m ² , the shoots with leaves are chopped into pieces of 1-2 cm with scissors or pruning shears, gently mixed and spread evenly thin a layer of 0.5-1 cm on a canopy, thus obtaining a combined sample of at least 3 kg with one study area, then from a combined sample from 10 different places throughout the entire canopy area, chopped plant material is randomly selected with a mass of 50-100 g so that the crumbling plant parts are also included in the sample, and an average sample is isolated from the combined plant material sample for analysis, weighing at least 0.5-1.0 kg, at the second stage, tests of an average sample are carried out, for this, crushed plant material of an average sample weighing 50 g -100 g is placed in beakers (V = 600 ml) and added to them distilled water with a volume of 500 ml, with a glass rod, the plant material is mixed in distilled water for 2-3 minutes and aqueous suspensions are obtained containing dust-like particles washed away from the shoots and leaf blades of herbaceous plants, at the third stage, 3-5 minutes after mixing the resulting aqueous suspension is measured (washing away dust particles from the shoots and leaves of plants) by hydrogen the pH indicator, or the measure of the activity of hydrogen ions in the solution, which quantitatively expresses its acidity and the indicator of the amount of dissolved dust particles contained in aqueous suspensions - TDS, mg / l, according to the known mathematical relationship, the arithmetic mean values of the hydrogen ion activity indicator - pH and the indicator of the amount contained in aqueous suspensions of dissolved dust particles - TDS, according to which the ecological state of the experimental territory (surface layer of atmospheric air) is assessed in comparison with the pH and TDS indicators of aqueous dust suspensions obtained from plants growing on the control conditionally clean territory, at the fourth stage, cold water extraction of plant material - infusion of an aqueous suspension with crushed shoots and leaves for 24 hours at room temperature without exposure to the aqueous suspension of sunlight, at the fifth stage 24 hours after the infusion of the plant dust aqueous suspension (cold water extraction of plant material), measure it again by two parameters: pH and TDS, calculate their arithmetic mean values, which are used to assess the ecological state of the territory (the state of the soil and the surface layer of atmospheric air simultaneously), analyze and compare them with the values of the pH and TDS indicators of aqueous plant dusty suspensions obtained from herbaceous plants growing in the control conditionally clean territory, while if the pH value is less than 6 or more than 8, and the TDS indicator value is greater than the value of the same indicator in the control conditionally clean territory , the ecological state of the territory is assessed as dangerous, moreover, the choice of a conditionally clean territory is due to standard indicators and with a pH value in the range of 6-8, and TDS dust particles less than 1000 mg / l, the ecological state of the territory (surface layer of atmospheric air and soil) are assessed as not about negative (p.6.4 RD-APK 1.10.09.01-14), and the assessment of the ecological state of pollution of the territory in the zones of anthropogenic and natural influences by the value of the pH value with the simultaneous diagnosis of the total amount of TDS dust particles dissolved in the aqueous suspension and measurement of the values of pH and TDS is produced on the device Water quality monitor - "RNT-028" at a temperature of 25 + 0.1 ° C.

The essence of the invention is as follows

A method for assessing the ecological state of a territory in zones of anthropogenic and natural influences, including those caused by geological processes occurring in the bowels of the Earth, consisting in the simultaneous taking of test samples, namely shoots with leaves from various herbaceous plants in the experimental study area and on the control conditionally clean area , testing of test samples, analysis and comparison of test results of test samples in the experimental area with the results of tests of control samples taken in a conditionally clean area, while the assessment of the ecological state of the area includes five stages.

At the first stage, in dry weather at the end of the summer season, shoots with leaves of various types of herbaceous plants with dust particles and contaminated substances inside the plant are collected simultaneously both on the experimental territory under study and on the control-conditionally clean territory. from the soil. The collection of plants is carried out at a height above 5 cm from the soil surface. The sampling of the test samples in point samples is placed along the diagonal of the site or along the route of sampling of plant material. Shoots with leaves of herbaceous plants are cut with a sharp knife or secateurs and placed in plastic wrap or kraft paper. As a control sample, shoots with leaves of various herbaceous plants growing on a conditionally clean territory not less than 5-10 km from the experimental study territory are used.

Samples under study - plant material in the form of shoots with leaves of various herbaceous plants of approximately the same species are collected in the experimental study area and on the control conditionally clean area

In the process of research, the following types of samples are distinguished.

Spot sample - a small amount of plant material (shoots with leaves of various herbaceous plants) / test samples / taken from one place at a time on a site measuring 1.5x1.5 m ² , the mass of plant material in one spot sample is at least 200 -300 g.

The obtained point samples (at least 10 pieces) of plant material from the study area are collected on a canopy (the canopy should be made of a tarpaulin or polymer film measuring 2x2 m ² ), crushed with scissors or shears, shoots with leaves of herbaceous plants 1-2 cm each, gently mix and spread in an even thin layer of 0.5-1 cm on a canopy, thus obtaining a combined sample of at least 3 kg from one study area.

Combined sample - a set of all point samples (not less than 10 pieces) of plant material taken in the study area (experimental territory), the mass of plant material of the combined sample should be at least 2-3 kg.

From the combined sample, from 10 of its different places over the entire area of the canopy, chopped plant material is selected at random, weighing 50-100 g so that the crumbling plant parts are also included in the sample. From the combined sample of plant material, an average sample for research is isolated. The isolated average sample is a part of the combined sample and must be at least 0.5-1 kg.

In the second stage, the average sample is tested. Crushed plant material of an average sample weighing 50 g-100 g is placed in beakers with a volume of 600 ml and distilled water of 500 ml is added to them, the plant material is stirred with a glass rod in distilled water for 2-3 minutes and aqueous suspensions are obtained with the content of dust particles washed away from the shoots and leaf blades of herbaceous plants.

At the third stage, 3-5 minutes after mixing, the resulting aqueous suspension is measured (washout from shoots and leaves of plants) according to two parameters: the pH value or the measure of the activity of hydrogen ions in the solution, quantitatively expressing its acidity and the indicator of the amount of dissolved dust particles TDS, g / l. According to the known mathematical relationship, the arithmetic mean values of the pH and TDS indicators are calculated and compared with the pH and TDS indicators of aqueous plant dusty suspensions obtained from herbaceous plants growing in the control-conditionally clean territory, while its choice is determined by the fact that the pH value is in range: 6-8, and the TDS value is less than 1000 mg / l (clause 6.4 RD-APK 1.10.09.01-14), which contributes to the normal growth and development of herbaceous plants, and then the ecological state of the territory (surface layer of atmospheric air) is assessed on the experimental territory as not dangerous.

At the fourth stage, cold water extraction of plant material is carried out - the infusion of an aqueous suspension with crushed shoots and leaves for 24 hours at room temperature without exposure to the aqueous suspension of sunlight.

At the fifth stage, 24 hours after the infusion of the plant pulverized aqueous suspension, it is measured again according to the same two indicators: pH and TDS and, according to the known mathematical relationship, their arithmetic mean values are calculated, which are used for comparison with the pH and TDS values of aqueous plant pulverized suspensions, obtained from herbaceous plants growing on the control conditionally clean territory and assess the ecological state of the experimental territory (the state of the soil and the surface layer of atmospheric air at the same time), while if the pH value is less than 6 or more than 8, and the TDS value is greater than the value of the same indicator on the control conditional clean territory, then the ecological state of the territory (the state of the soil and the surface layer of atmospheric air simultaneously) is assessed as dangerous, which indicates an unfavorable ecological situation.

The value of the pH value - pH and TDS, mg / l was measured on a water quality monitor - "PHT-028" at a temperature of 25 ± 0.1 ° C.

Thus, the claimed method, in comparison with the prototype method, makes it possible to make a more accurate and efficient assessment of the ecological state of the territory, to identify hazardous areas and ensure their timely correction; environmentally safe, does not require high labor costs and capital investments for its implementation, is not toxic.

An example of a specific execution

In accordance with the foregoing essence of the invention, an example of the method is provided.

The studies were carried out in experimental areas in dry weather at the end of the summer season near the Bolshoy Liman evaporation pond in the Sredneakhtubinsky district of the Volgograd region, namely in its northern, western, eastern and southern parts at a distance of about 500 m from the storage pond, and also on the control relatively clean territory near the cottage village "Pribrezhny" on the banks of the Volga River, the city of Volgograd, 36 km from the experimental areas. Plant material in the form of a mixed wild-growing herb was used as the studied samples: shoots with leaves of wormwood (Artemisia absinthium, Artemisia vulgaris, Artemisia frigida), and quinoa (Chenopodium album).

At the first stage, shoots with leaves of various types of wild-growing herbaceous plants (wormwood (Artemisia absinthium, Artemisia vulgaris, Artemisia frigida), quinoa (Chenopodium album)) were collected with supposed dust-like particles on the surface of shoots and leaves of plants at a height of 5 cm from the soil surface ( spot sample, weight: 300 g). The sampling of the studied samples in point samples was carried out along the route of sampling plant material in dry weather at the end of August. The species vegetation in the form of wormwood (Artemisia absinthium, Artemisia vulgaris, Artemisia frigida) and quinoa (Chenopodium album)) coincided in the experimental territory under study and in the control relatively clean territory. The studied samples of wild herbaceous plants (wormwood (Artemisia absinthium, Artemisia vulgaris, Artemisia frigida), quinoa (Chenopodium album)) were cut off with scissors and placed neatly in a craft bag. Plant material was sampled at four experimental sites at an equal distance from the storage pond "Bolshoi Liman" at a distance of 500 m to the north, south, west, east. 10 spot samples were taken 500 m from the Big Liman storage pond in the north; in the south (10 spot samples); in the east (10 spot samples); in the west (10 spot samples) incl. 10 point samples on the control conditionally clean area near the cottage village "Pribrezhnoye", located on the banks of the Volga River, Volgograd. Each study area included 10 spot samples of 300 g of plant material. Accordingly, 12 kg of plant material were investigated, 3 kg in each of the four experimental areas and 3 kg of plant material (10 spot samples of 300 g) in the control conditionally clean area.

The obtained point samples of plant material (wormwood (Artemisia absinthium, Artemisia vulgaris, Artemisia frigida), quinoa (Chenopodium album)) from the northern part (10 pcs), the southern part (10 pcs), from the east (10 pcs), from the west (10 pcs) of the storage pond "Bolshoi Liman" were collected one by one on a canopy made of a polymer film measuring 2x2 m ² , shoots with leaves of 1-2 cm were crushed with a pruner, gently mixed and spread in an even thin layer (0.5-1 cm) on the canopy, thus obtaining combined samples (3 kg each) from four investigated experimental and one control conditionally clean territories. A total of 15 kg of plant material were collected, of which 12 kg - in 4 experimental areas near the storage pond "Bolshoy Liman" and 3 kg of plant material in one control conditionally clean area near the cottage village "Pribrezhny" on the banks of the Volga River, Volgograd.

From each combined sample of plant material (wormwood (Artemisia absinthium, Artemisia vulgaris, Artemisia frigida), quinoa (Chenopodium album)), average samples were isolated for analysis. For this, from no less than 10 different places over the entire canopy area, crushed plant material was randomly selected, weighing 50 g, so that the crumbling plant parts were also included in the sample. The allocated average sample was not less than 0.5 kg. In total, 4 average samples were obtained from 4 experimental territories near the storage pond "Bolshoy Liman": (experimental territory No. 1 - western part (E1); experimental territory No. 2 - northern part (E2); experimental territory No. 3 - southern part; experimental area No. 4 - eastern part (E4)) 0.5 kg each and one average sample from the control conditionally clean area near the cottage village "Pribrezhnoe" on the banks of the Volga River, the city of Volgograd (0.5 kg).

At the second stage, the test samples of plant material were tested (wormwood (Artemisia absinthium, Artemisia vulgaris, Artemisia frigida), and quinoa (Chenopodium album)), for which a randomly crushed plant material weighing 50 g from medium samples was alternately placed in beakers ( volume: 600 ml), added to each of them distilled water with a volume of 500 ml, stirred for 2-3 minutes and received an aqueous suspension containing dust particles washed off from the shoots and leaf blades of wild plants. A total of 50 aqueous suspensions were obtained with the content of dust particles washed off from the shoots and leaf blades of wild plants, of which: 40 water suspensions from the experimental territories and 10 suspensions from the control conditionally clean area.

At the third stage, 3-5 minutes after stirring 50 aqueous suspensions, they made alternate measurements of the TDS content, mg / l, and pH of the solution dissolved in aqueous suspensions. The measurements were carried out on the device Water quality monitor - "PHT-028" at a temperature of 25 ± 0.1 ° C. The well-known mathematical dependence was used to calculate the arithmetic mean values of 50 quantitative indicators of the content of dust-like substances TDS, mg / L, and pH of the solution dissolved in an aqueous suspension. The arithmetic mean values of quantitative indicators (10 pieces out of every five average samples) for the content of TDS dust-like substances dissolved in aqueous suspensions, mg / l, pH are presented in Table 1.

Table 1

No. Options Control (K) E 1
(west) E 2
(north) E 3
(south) E 4
(East) 1 Total salt content (TDS), mg / l 20 220 223 67 1093 2 pH 6.8 5.68 5.91 6.75 5.9

Table 1 shows that the indicators of the amount contained in aqueous herbal suspensions (wormwood Artemisia absinthium, Artemisia vulgaris, Artemisia frigida), quinoa (Chenopodium album)) dust particles in the form of inorganic and organic salts, i.e. the total salt content, TDS, mg / l of aqueous suspensions in all four experimental areas significantly exceeded their values in comparison with the control, conditionally clean area (K). So, the greatest excess (55 times) for these indicators was in the eastern territory near the storage pond Bolshoi Liman (E4), the lowest values (3 times) in its southern part (E3) and approximately the same values (11 times) in its western (E1) and northern parts (E2). As for the pH value - pH, only in the experimental area (E3) is pH close to a neutral medium (6.75) and, accordingly, in this area, the substances contained in aqueous herbal suspensions were less hazardous to the environment and human health. In the experimental areas (E1, E2, E4) pH values are less than 6, which means that the eastern, western and northern parts of the territory of the Big Liman storage pond contain pollutants in the surface layer of atmospheric air that can pose a threat to the environment. Since aqueous herbal suspensions - washing off dust particles from leaves and shoots of wormwood (Artemisia absinthium, Artemisia vulgaris, Artemisia frigida), quinoa (Chenopodium album)) from the experimental territories showed anomalous values in terms of total salt content (TDS), especially in its eastern, western and northern part near the Big Liman storage pond, it follows from this that dust-like particles washed away from the shoots and leaves of wormwood (Artemisia absinthium, Artemisia vulgaris, Artemisia frigida), quinoa (Chenopodium album)) contain inorganic and organic substances that could on herbaceous plants from the surface layer of atmospheric air. In this case, the study of aqueous plant dust-like suspensions was carried out almost immediately after the immersion of crushed wild-growing plants in distilled water, respectively, in the water there was dust washed from the leaves and shoots of wild-growing plants, which got there from the surface layer of atmospheric air and the ecological state in the experimental territories (A1, E2, E4) (surface layer of atmospheric air) is assessed as dangerous there.

At the fourth stage, cold water extraction of plant material was carried out - the infusion of 50 aqueous suspensions with crushed shoots and leaves of wormwood (Artemisia absinthium, Artemisia vulgaris, Artemisia frigida), quinoa (Chenopodium album) for 24 hours at room temperature without contact with water suspensions of sunlight in distilled water.

At the fifth stage, 24 hours after the infusion of 50 aqueous dust-like suspensions with crushed shoots and leaves of wormwood (Artemisia absinthium, Artemisia vulgaris, Artemisia frigida), quinoa (Chenopodium album)), (cold water extraction of plant material), they were again produced alternately measurement by two parameters: pH and TDS, their arithmetic mean values were calculated, by which the ecological state of the territory was assessed (the state of the soil and the surface layer of atmospheric air at the same time), their analysis and comparison with the values of pH and TDS indicators of aqueous plant dusty suspensions obtained from herbaceous plants growing on the control conditionally clean territory. The measurements were carried out on the device Water quality monitor - "PHT-028" at a temperature of 25 ± 0.1 ° C.

The arithmetic mean values of the quantitative indicators of pH and TDS in plant aqueous dusty suspensions of average samples from four experimental territories (E1, E2, E3, E4) and conditionally control-clean territory (K) are presented in Table 2,

Table 2

No. Options Control (K) E 1
(west) E 2
(north) E 3
(south) E 4
(East) 1. Total salt content (TDS), mg / l 335 1990 2886 1356 3720 2. pH 6.69 5.53 5.84 6.71 5.7

Table 2 shows that the indicator of the amount of dissolved dust particles contained in aqueous herbal suspensions - TDS, mg / l, after cold water extraction during the day (wormwood Artemisia absinthium, Artemisia vulgaris, Artemisia frigida), quinoa (Chenopodium album)) for all four experimental territories exceeded their values in comparison with the control, conditionally clean zone by 4-11 times. So, the greatest excess (11 times) for these indicators was in the eastern experimental area near the storage pond "Bolshoy Liman" (E4), 9 times in its northern part (E2), the lowest values of TDS indicators, mg / l, (4 times) were observed in the southern part near the Big Liman storage pond (E3), 6 times - in the western part near the Big Liman storage pond. At the same time, the pH value, pH less than 6 was registered in all 4 experimental areas.

Based on the analysis of the data obtained, which were made after the infusion of aqueous herbal suspensions for 24 hours, it can be concluded that the progressive increase in dust particles in aqueous herbal suspensions per day indicates that there was a possible cold extraction from plant material into distilled water ... Thus, the test results show that these dust particles entered the plant organism both from the surface layer of atmospheric air and from the soil as a result of the rise of deep fluids with microparticles from the Earth's interior to the upper soil layers in view of various geological processes occurring in the experimental territories and were absorbed by plant roots and the ecological state (the state of the soil and the surface layer of atmospheric air) in the experimental territories is assessed as dangerous.

Abnormal content of dissolved dust particles in aqueous herbal suspensions (wormwood Artemisia absinthium, Artemisia vulgaris, Artemisia frigida), quinoa (Chenopodium album), based on their quantitative indicators TDS, mg / l, pH may be caused by the presence of inorganic salts in suspensions, organic substances, incl. with a high content of alkaline earth metals, which indicate both anthropogenic pollution of the experimental areas under study, coming from the storage pond "Bolshoi Liman", and natural pollution that could be caused by possible geological processes occurring deep in the Earth's interior, including the processes of ore formation and etc. In this regard, the ecological state of the four experimental territories (the state of the soil and the surface layer of the atmosphere simultaneously) are assessed as dangerous. At the same time, special attention is paid to the fact that dust particles both from the surface layer of the atmosphere and from the bowels of the Earth can fall on cultivated plants grown on farm agricultural fields in the eastern part of the Big Liman storage pond (E4) and in its northern part (E2), and in the west (E1) represent certain environmental risks to the health of the population living in the village of Zvezdny, including for their household plots in the cultivation of various agricultural crops and grazing.

The method for assessing environmental pollution by the TDS and pH of herbal aqueous suspensions with dust particles allows for a more accurate and effective assessment of anthropogenic or natural pollution of territories in all natural zones and settlements, that is, it is universal, environmentally friendly, does not require large labor costs when simultaneous decrease in the labor intensity of the method implementation, and low capital investments for its implementation.

Claims (3)

1. A method for assessing the ecological state of a territory in zones of anthropogenic and natural influences, including taking samples of plant material, testing samples of plant material to determine the acidity of the environment in terms of the concentration of hydrogen ions, analyzing the test results, which determines the level of environmental pollution, characterized in that Leaves and shoots of any herbaceous plants with dust particles and pollutants inside the plants, which they absorb from the soil, are used as samples of plant material, and the assessment of the ecological state of the territory includes five stages: at the first stage in dry weather at the end of the summer season at the same time, both in the experimental territory under study and in the control conditionally clean territory, the leaves and shoots of herbaceous plants of approximately the same species are collected, cutting them off with a sharp knife or pruning shears at a height above 5 cm from the soil surface, and laying They are wrapped in plastic wrap or kraft paper, while in the process of research, a point sample of the plant material taken at one time is isolated on an area of 1.5 × 1.5 m ² , while the mass of plant material in one point sample is at least 200-300 g , and the total number of samples is 10 spot samples, and the sampling of the studied samples in spot samples is carried out along the diagonal of the site or along the route of sampling plant material, and shoots with leaves of herbaceous plants growing on a relatively clean territory for at least 5-10 km from the experimental study area, the obtained samples are placed on a canopy made of tarpaulin or polymer film measuring 2 × 2 m ² , the shoots with leaves are cut into pieces of 1-2 cm with scissors or shears, gently mixed and spread in an even thin layer 0.5 -1 cm on the canopy, thus obtaining a combined sample of at least 3 kg from one study area, then from the volume crushed plant material is randomly selected with a mass of 50-100 g from 10 different places over the entire canopy area so that the crumbling plant parts are also included in the sample, and an average sample for analysis is isolated from the combined sample of plant material, weighing at least 0.5-1.0 kg, at the second stage, tests of an average sample are carried out, for this, crushed plant material of an average sample weighing 50-100 g is placed in beakers (V = 600 ml) and distilled water with a volume of 500 ml is added to them , the plant material is mixed with a glass rod in distilled water for 2-3 minutes and aqueous suspensions are obtained containing dust-like particles washed off from the shoots and leaf blades of herbaceous plants, at the third stage, 3-5 minutes after mixing, the resulting aqueous suspension is measured (washing from shoots and leaves of plants (dust-like particles) according to the pH value or the activity of hydrogen ions yes, in a solution that quantitatively expresses its acidity, and the indicator of the amount of dissolved dust particles TDS contained in aqueous suspensions, mg / l, according to the known mathematical relationship, the arithmetic mean values of the activity indicator of hydrogen ions pH and the indicator of the amount of dissolved dust particles TDS contained in aqueous suspensions are calculated, according to which assess the ecological state of the experimental territory (the surface layer of atmospheric air) in comparison with the pH and TDS indicators of aqueous dust-like suspensions obtained from plants growing on the control conditionally clean territory, at the fourth stage, cold water extraction of plant material is carried out - the infusion of an aqueous suspension with crushed shoots and leaves for 24 hours at room temperature without exposure to the aqueous suspension of sunlight, at the fifth stage 24 hours after the infusion of the plant pulverized aqueous suspension (cold water extraction grow material), it is measured again by two parameters: pH and TDS, their arithmetic mean values are calculated, which are used to assess the ecological state of the territory (the state of the soil and the surface layer of atmospheric air at the same time), analyze and compare them with the pH and TDS values of aquatic plants of dust-like suspensions obtained from herbaceous plants growing on the control conditionally clean territory, while if the pH value is less than 6 or more than 8, and the TDS value is greater than the value of the same indicator in the control conditionally clean territory, the ecological state of the territory is assessed as dangerous. 2. A method for assessing the ecological state of pollution of a territory in zones of anthropogenic and natural influences according to claim 1, characterized in that the choice of a conditionally clean territory is determined by standard indicators and with a pH value in the range of 6-8, and TDS dust particles less than 1000 mg / l the ecological state of the territory (the surface layer of atmospheric air and soil at the same time) is assessed as not dangerous. 3. A method for assessing the ecological state of pollution of a territory in zones of anthropogenic and natural influences according to claim 1, characterized in that the measurement of the pH value with simultaneous diagnostics of the total amount of TDS dust particles dissolved in the aqueous suspension is carried out on the device Water quality monitor - "RNT-028 »At a temperature of 25 ± 0.1 ° C.