RU2178160C2 - Process of radiation monitoring of ecological systems by biological indication of radioactive contamination of water basins, selection and preparation of samples - Google Patents

Abstract

FIELD: study and analysis of samples taken from basins by radiation methods by way of measurement of ionizing radiation, X-, gamma, beta and corpuscular radiation included. SUBSTANCE: process of radiation monitoring of ecological systems, selection and preparation of samples of biological indicators of radioactive contamination of basins consists in measurement of radioactivity of taken samples of hydrobionts carrying U- 238, Ra-226, Th-232, Fe-59, Co-60, Sr-90, U-91, Cs-137, Ce-144 which are instruments of biological indication of presence of radio nuclides in basins. Integral accumulation of radio nuclides and its seasonal dynamics in basins are evaluated by biological indicators. Two samples are taken three time a year, in May, July and October, in points of entrance to basin, of exit from basin and in check basin located outside of radius of action of contamination source. Mass of analyzed hydrobionts is set within limits from 500.0 to 1000.0 gr. Up to one hour is spent to take one sample and up to 2 hours is needed to prepare single sample. EFFECT: obtainment of authentic samples of radioactive contamination of basins. 2 cl

Description

 The method of radiation monitoring of ecosystems relates to the field of research and analysis of radioactive contamination of water bodies, consists in measuring radioactivity in samples of hydrobionts containing radioactive elements.

 The accumulative ability of hydrobionts serves as a tool for bioindication of the content of radionuclides and other chemical elements in a reservoir, and species-specific accumulators [1] are used as bioindicators of pollution. The advantage of bioindicators is that they can reduce and even eliminate the laborious work of selecting and preparing large volumes of water to determine the micro quantities of radioactive elements [2]. Bioindicators are also used to predict the content of radionuclides in other components of water systems [3, 4]. So, biobionts of natural radioactive elements uranium-238, radium-226, thorium-232, widely distributed by the neutrons induced by radionuclides iron-59, cobalt-60, and the most toxic nuclides of strontium-90, yttrium-91, cerium-137, are used as bioindicators. cerium-144 [1, 2]. Hydrobionts are able to accumulate in themselves the radioactive isotopes of many chemical elements in concentrations tens, hundreds and thousands of times higher than those in water. Therefore, all hydrobionts, especially freshwater plants (1,2), serve as bioindicators of radioactive contamination of water bodies. Closest to the claimed method is a method (2) of radiation monitoring of ecosystems by bioindicating radioactive pollution of water bodies, sampling and preparing samples, which consists in measuring radioactivity in selected samples of hydrobionts containing U-238, Ra-226, Th-232, Fe-59, Co-60, Sr-90, Y-91, Cs-137, Ce-144 and which are a tool for bioindication of the content of radionuclides in water bodies.

 The disadvantage of this method is the lack of standardized methodological procedures and operations due to lack of development and low detail.

 The technical result of the claimed method is the elimination of these disadvantages, namely improving the efficiency and information content of monitoring, which is achieved by detailing the operations of the method.

 To achieve the specified technical result in the method of radiation monitoring of ecosystems, sampling and preparation of samples of bioindicators of radioactive contamination of water bodies, consisting in measuring radioactivity in selected samples of hydrobionts containing U-238, Ra-226, Th-232, Fe-59, Co-60, Sr-90, Cs-137, Ce-144, which are a tool for bioindicating the content of radionuclides in reservoirs, evaluate the integral accumulation of radionuclides and its seasonal dynamics in reservoirs using bioindicators, take two samples at the following points at the entrance to the reservoir, and the outlet of the reservoir, the control reservoir is located outside the range of influence of the pollution source 3 times a year - in May, July, October, mass analyzed samples aquatic set in the range from 500 g to 1 kg, for selecting one sample spend up to 1 hour. And for cooking - up to 2 hours.

 Also new in the method is that the selection and preparation of samples of aquatic organisms is carried out in accordance with the indicator properties of aquatic organisms, 3 samples are prepared for radiometric analysis, taken from two reservoirs - subject to contamination and a control, while the preparation for sampling and preparation of samples takes into account the availability hydrobiont for sampling representative samples, while plankton sampling is carried out by multiple towing of the net, and plants by rake or net, plant samples taken before rinse the package, clean the sludge and dry it with filter paper.

New in the method is that the preparation of samples is as follows. Samples of aquatic organisms are dried in an oven at a temperature of 105 ^o C to an absolutely dry state, a sample of aquatic plants is dried for two days, and a sample of plankton is dried for one day, each of the dried samples is weighed, transferred to a porcelain crucible and ashed in a muffle furnace at temperature 400 ^o C, the crucible after ashing the sample is cooled in a desiccator and weighed, bottom ash is applied to an aluminum target in an amount of 3-8 g, constitute accompanying where cipher sample indicate selection of a date, an absolutely dry weight of the sample, m SSA ash sample weight, a list of required tests and is transmitted to the radiometric laboratory.

Sources of information
1. Timofeeva-Resovskaya E. A. Distribution of radioisotopes in the main components of freshwater bodies of water. Tr. Institute of Biology, UFAN USSR, 1963, no. thirty.

 2. Kulikov N.V. Bioindication of radioactive contamination of inland waters. Biological methods of environmental assessment. M.: Science, 1978, p. 152-158.

 3. Guidelines for sanitary control of the content of radioactive substances in environmental objects. M.: Ministry of Health of the USSR, 1980.

 4. Kronberg H., Davis D. Food chains in fresh waters. Radioactivity and human food. M.: Atomizdat, 1971, p. 272-297.

Claims (3)

 1. The method of radiation monitoring of ecosystems, sampling and preparation of samples of bioindicators of radioactive contamination of water bodies, which consists in measuring the radioactivity in the selected samples of hydrobionts containing U-238, Ra-226, Th-232, Fe-59, Co-60, Sr-90, Y-91, Cs-137, Ce-144, which are a tool for bioindicating the content of radionuclides in reservoirs, characterized in that they assess the integral accumulation of radionuclides and its seasonal dynamics in reservoirs using bioindicators, take two samples at the following points: at the entrance to the reservoir, at the exit of the reservoir, in 3 times a year, in May, July, and October, the weight of the analyzed samples of hydrobionts is set in the range from 500 g to 1 kg, for the selection of one sample it takes from 1 h, and for preparation - to 2 hours  2. The method according to p. 1, characterized in that the selection and preparation of samples of aquatic organisms is carried out in accordance with the indicator properties of aquatic organisms, for conducting radiometric analysis, 3 samples are prepared, taken from two reservoirs - subject to contamination and control, while preparing for the selection and the preparation of samples takes into account the availability of a hydrobiont for the collection of representative samples, while plankton sampling is carried out by towing the net several times, and plants by a rake or net, plant samples taken before Rinse with an akovka, clean the sludge and dry it with filter paper. 3. The method according to p. 2, characterized in that the preparation of the samples is as follows: the samples of the hydrobionts are dried in an oven at 105 ^o C to completely dry state - the sample of water plants is dried for two days, and the sample of plankton - for one day , each of the dried samples is weighed, transferred to a porcelain crucible and ashed in a muffle furnace at 400 ^o C, after ashing, the crucible with the sample is cooled in a desiccator and weighed, the ash residue is applied to an aluminum target in an amount of 3-8 g, are accompanying, where indicate the code of the sample, the date of sampling, the absolutely dry mass of the sample, the mass of ash, the weight of the sample, the list of necessary analyzes and send to the radiometric laboratory.