RU2428716C1 - Method of evaluating environmental pollution with heavy metals using beekeeping products - Google Patents

Abstract

FIELD: chemistry. ^ SUBSTANCE: method of evaluating environmental pollution using beekeeping products involves taking samples of honey and beebread from beehives in the territory under investigation during the season of flight activity of bees. Content of heavy metals in said samples is then determined via atomic absorption spectrometry and then compared with recorded data on background values. Multiple samples of honey and beebread are taken in order to determine background and basic levels of concentration of heavy metals characteristic for that region. Further, pollution levels are graded (classes). Data on each monitoring point are compiled with said gradation and the ecological state of the territory under investigation is assessed with respect to pollution of the region with heavy metals. ^ EFFECT: possibility of simultaneous monitoring of content of toxic elements in honey and beebread, improved monitoring of the state of the environment subject to industrial impact, wide range of bioindication methods. ^ 1 tbl

Description

The invention relates to research in the field of applied ecology and environmental protection, and in particular to methods for assessing pollution of terrestrial ecosystems with heavy metals by bioindication methods.

Heavy metals are an integral part of the enzymes of biocatalysts and regulators of the most important physiological processes in living organisms, however, with their excess, they are highly toxic to humans and animals. In addition, they to one degree or another accompany all industrial and transport emissions, which makes it possible to judge the distribution of the entire complex of pollutants by their content in environmental objects. Honey bees (Apis mellifera) evenly collect nectar and pollen in a specific area, within a radius of 2-3 km from the apiary, therefore, an analysis of the content of various kinds of technogenic compounds in these objects allows us to integrally characterize the degree of contamination of the accession zone.

The content of heavy metals in samples of honey and bee bread (pollen) reflects the degree of pollution of atmospheric air and soil with these elements.

The claimed method can be used for environmental mapping of the studied regions and differentiated environmental assessment of the region, i.e. allows you to classify territories according to the degree of pollution with heavy metals with gradation by levels: weak, medium, strong.

The analysis of the studied prior art showed that the most effective methods of environmental monitoring are methods using technical means through the use of technical tracking systems that monitor all environments in a wide range of their parameters. The information collection system includes: groups of environmental monitoring sensors, control and dispatching points, a central dispatching console, a space communications station, as well as automotive complexes of operational action with corresponding sensor groups (RF patent No. 2145120, G08C 19/00 dated 01/27/2000).

The indicated ecological systems for collecting information make it possible to assess the ecological state of an entire region, however, they are laborious, multi-stage, time-consuming and extremely expensive, which complicates (complicates) their widespread use in practice.

An alternative to purely technical instrumental methods of pollution control are biological indication methods. Heavy metals, unlike many other contaminants, do not degrade in the environment, but are able to migrate and accumulate in trophic chains, as a result of which they can enter the human diet in larger quantities than the MPC established by sanitary and hygienic standards. Only through biological monitoring can we assess the effects of the accumulation and concentration of heavy metals in ecosystems, indicate the possible ways of their migration and the place of accumulation.

A known method of obtaining information about the contamination of the area using bees (patent RU 2114446 C1, G01T 1/169 from 06/27/1998). This method is based on the measurement of the radioactivity of a wax intended for placement in a hive, as well as pollen and propolis taken from hives installed in the study area. The measurement results are processed and, taking into account the radioactive background, make conclusions about the radioactive contamination of the area. This method does not involve the use of honey samples, while honey is the most convenient bioindication object compared to other components of the hive because of the extreme ease of sampling. In addition, honey is a valuable product of both traditional cuisine and human nutrition, which makes its quality control especially relevant. The disadvantage of the considered method is also the limited scope of its application (only radiation monitoring).

The closest solution in essence and the achieved result to the claimed one is a method for assessing environmental pollution using beekeeping products, which consists in the fact that in August-September, samples of honey and bees are taken from hives located in the study area, then the content of heavy metals is determined in them by atomic absorption spectrometry and compared with literature data on background values selected by the applicant as a prototype [3].

The disadvantages of this method is;

- the impossibility of determining the background levels of concentrations of heavy metals characteristic of this region;

- the impossibility of determining the baseline levels of heavy metal concentrations characteristic of a given region;

- the impossibility of developing classes of levels of environmental pollution, and further comparing the data obtained at each control point with the gradation developed, followed by an assessment of the ecological state of the study area in relation to heavy metal pollution of the region.

Plants are widely used as bionicators of terrestrial ecosystems. So, for example, there is a known method for assessing the content of heavy metals in atmospheric air by the degree of their accumulation by tissues of woody leafy mosses that perform the functions of a sorbing surface and a living absorber of heavy metals (patent RU 2321030 C1, G01W 1/00 dated 03/27/2008). The disadvantage of this method is that leafy mosses have an extremely limited distribution area (this is a zone of coniferous and mixed forests) and cannot be used in other types of biogeocenoses. In addition, in order to obtain a sufficient level of representativeness, sampling of these objects in large areas requires significant time expenditures in comparison with sampling of pollen and honey from hives.

Another way to control environmental pollution by heavy metals, including soil near the ferrous and non-ferrous metallurgy enterprises, using bioindicators is the use for analysis of the ground organs of vascular plants that are natural for the area, in particular wormwood (Artemisia austriaca) (patent RU 2257597 C1, G01V 9/00, G01N 33/48 from 27.07 .2005).

The disadvantage of this method is the limited set of species of higher plants with high accumulative ability in relation to heavy metals, their limited distribution area, as well as the large time costs associated with the selection of the required number of samples, providing a sufficient degree of representativeness.

Another method close to the claimed one is the use of wild ungulates (muscles, liver, kidneys), as well as their agricultural analogous species (cattle and pigs) as indicators of the degree of contamination of the territories with heavy metals. The content of heavy metals in these objects is compared with the maximum permissible levels in food products (patents RU 2266537 C2, G01T 33/02, G01T 33/18, G01T 33/24 of 12.20.2005 and RU 2280869 C1, G01T 33/50, G01T 33712 dated 07/27/2006).

The disadvantage of the method is the lack of representativeness of the sample: according to the average sample of organs taken from five animals of each species, the authors, taking into account the migratory ability of the species, make a conclusion about the level of pollution of the territory of about 100 thousand ha. In addition, the use of this method is limited to the distribution range of wild ungulates. And finally, it is significant that this method is possible to assess the pollution of territories only for a long period of time (annually), since it is limited to the season of shooting commercial animals, while the selection of beekeeping products can be done monthly or even weekly.

Another well-known method using the accumulating ability of some organs of living organisms is a method for assessing environmental pollution by zinc, characterized in that the zinc content in the upper part of the feather of laying hens is determined (application No. 20001046 from 12/20/2001). The disadvantage of this method is that the chemical composition of the pen reflects only the degree of contamination of those feeds that feed the bird. It does not reflect the microelement status of the territory as a whole (that is, first of all, the degree of air and soil pollution).

The purpose of the claimed method is to eliminate these disadvantages, namely:

- providing the ability to determine the background levels of concentrations of heavy metals characteristic of the region;

- providing the ability to determine the baseline levels of heavy metal concentrations characteristic of a given region;

- providing the possibility of developing classes of levels of environmental pollution, and further comparing the data obtained at each control point with the gradation developed, followed by an assessment of the ecological condition of the study area in relation to heavy metal pollution of the region;

- providing the opportunity to increase the representativeness of the monitoring results (matching the characteristics of the sample to the characteristics of the general population as a whole);

- providing the possibility of expanding the range of the controlled territory while reducing material and time costs;

- reduction of labor costs;

- ensuring the possibility of a one-time control of the environmental cleanliness of both food products (honey, pollen) and the territories from which these objects are collected.

The tasks are solved by using beekeeping products as bio-indicators - honey and bee pollen (pollen), which are an average sample characterizing the degree of contamination of the territory of the accession zone in the radius of the working (productive) summer of bees (about 9 km ² ). Moreover, samples from this territory are collected instead of humans by bees, thereby achieving a reduction in labor costs. Existing beekeeping farms represent a ready-made monitoring network. Bees of the species Apis mellifera can exist in a wide range of climatic conditions and, due to their direct relation to agricultural production, are widely represented on the territory of the globe. Their distribution is limited only by the presence of honey plants.

The essence of the claimed method for assessing environmental pollution using beekeeping products is that during the season of flying activity of bees, samples of honey and bee bread are taken from hives located in the study area, the content of heavy metals is determined in them by atomic absorption spectrometry and compared with literary data on background values, characterized in that they preliminarily repeatedly take samples of honey and perga to determine the background and basic levels of concentrations of heavy of tallies characteristic of this region, they develop a gradation (classes) of pollution levels, data for each control point, compare it with the developed gradation and assess the ecological state of the study area in relation to heavy metal pollution of the region.

The method is implemented as follows:

From beehives located in a controlled area, honey and perga are sampled. To do this, cut out pieces of freshly reconstructed honeycombs with honey and perga 10 × 10 cm in size with a plastic knife and pack them in plastic bags with the date and place of collection. In the laboratory, honey is removed from the honeycomb using a syringe, and the beehive is removed with a thin plastic spatula. Prior to analysis, samples are stored in glass jars with tightly lidded lids at a temperature of + 5 ° С. Samples of each sample weighing 5 g are taken in triplicate. Quantitative determination is carried out by atomic absorption method with flame atomization on an AAS-3 device with preliminary dry mineralization according to GOST R 52097-200 and subsequent decomposition with 1 N HCl solution. Digital data is processed using the OriginPro 7.0 statistical processing software. The results obtained for each control point are compared with the background and base levels of heavy metals in honey and perga that are characteristic of the region, as well as with the maximum allowable concentrations of lead and cadmium for honey and dietary supplements based on pollen (SanPiN 2.3.2.1078-01 )

An example of a specific implementation. The claimed method is implemented and tested in practice. As an example, the table shows the gradation of levels of pollution by zinc, lead and cadmium in the access areas in a large region with an area of 68 thousand km ² , developed on the basis of analysis of 60 honey samples. Samples were taken in suburban areas and in background areas. In modern conditions of global pollution, background territories are understood to mean zones with a minimal degree of anthropogenic impact, and accordingly, the absence of anomalies is understood as background levels. The average concentration of the sample, the statistical probability of which is 95%, is taken as the base concentration level.

Element Concentration in honey, mg / kg of crude substance MPC Background level ± σ Baseline ± σ Pollution levels weak average strong Zn ---- 1.59 ± 0.89 2.76 ± 2.97 3-6 6-12 > 12 Pb one 0.08 ± 0.03 0.22 ± 0.20 0.2-0.5 0.5-1 > 1 Cd 0.05 0.02 ± 0.02 0.038 ± 0.035 0.02-0.05 0.05-0.1 > 0.1

In the individual analyzed honey samples, the detected concentrations were (mg / kg): zinc - 15.90; cadmium - 0.12 and lead - 0.92, which made it possible to characterize the corresponding stored zones as areas of high and medium pollution levels.

The claimed technical solution meets the criterion of "novelty" presented to the invention, because from the studied prior art has not been identified a set of features that characterize the proposed solution, leading to the implementation of the stated goals (tasks).

The claimed technical solution meets the criterion of "inventive step" for inventions, because it is not obvious to experts in the field of applied ecology and environmental protection.

The claimed technical solution meets the criterion of "industrial applicability" to the invention, because it was tested on the territory of the Republic of Tatarstan by the staff of the faculty of geography and ecology of KSU through the use of certified laboratory equipment, with the receipt of the claimed technical results.

Literature

1. Bilalov F.S., Kolupaev B.I., Skrebneva L.A. Determination of environmental pollution using apimonitoring. / Sat: Ecological and toxicological characteristics of Kazan and the suburban area. - Kazan: KSU publishing house. - 1991. - P.78-86.

2. Bilalov F.S., Kolupaev B.I., Kotov Yu.S., Mukharamova S.S., Skrebneva L.A. Control of environmental pollution with bees and beekeeping products (apimonitoring). / Sat: Ecological and toxicological characteristics of Kazan and the suburban area. - Kazan: KSU publishing house. - 1991. - S. 130 - 137.

3. Bilalov F.S., Kolupaev B.I., Kotov Yu.S., Mukharamova S.S., Skrebneva L.A. Bee products and environmental control. // Beekeeping. - 1992. - No. 9/12. - C.4-6 (prototype).

4. GOST R 52097-2003. Beekeeping products. Mineralization of samples to determine toxic elements. - M.: Gosstandart of Russia. - 2003. - 6 p.

5. Sanitary and epidemiological rules and regulations of SanPiN 2.3.2.1078-01. "Hygienic requirements for safety and nutritional value of food", approved. The Chief State Sanitary Doctor of the Russian Federation on November 6, 2001 (as amended on May 31, 2002, August 20, 2002, April 15, 2003).

Claims (1)

A method for assessing environmental pollution using beekeeping products, which consists in the fact that during the season of flying activity of bees, samples of honey and bees are taken from hives located in the study area, the content of heavy metals is determined in them by atomic absorption spectrometry and compared with published data by background values, characterized in that honey and bee bread samples are preliminarily preliminarily taken to determine the background and basic levels of concentrations of heavy metals, typical x in this region, developing gradation (classes) contamination levels, the data for each test point is compared with the gradation of the developed and evaluated ecological state study area for the region of heavy metal pollution.