Impact of radioactive contamination of soils on the diversity of micropopulation and the transformation of organic substances

IF 0.4 Q4 AGRICULTURE, MULTIDISCIPLINARY Agricultural Science and Practice Pub Date : 2023-04-20 DOI:10.15407/agrisp9.03.003
I. Gudkov, I. Volkohon, V. Illienko, M. Lazarev, A. Klepko
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Gamma-spectrometry\nfor the determination of the relative activity of 137Cs and beta-spectrometry for the determination of the relative\nactivity of 90Sr in order to choose the contamination range for the studies; Tea Bag Іndex (TBI), the standard glob-\nally accepted method to determine the rate of organic matter decomposition; gas chromatography – to determine\nthe impact of the investigated factors on the formation of the biomass of microorganisms by means of the СО2\nproduction potential; classic microbiological methods, using elective media to estimate the population densities\nof culturable microbial decomposers. Results. The studies (from April to September 2021) comprised two soils\nwith different radioactive contamination ranges: Range No. 1 in Narodychi district of Zhytomyr region (the village\nKhrystynivka, 3 sampling points) in the unconditional (obligatory) resettlement zone after the catastrophe in the\nChornobyl nuclear power plant (ChNPP) (it has an absorbed dose rate gradient, evaluated for soil microorganisms,\nfrom 0.2 μGy/h (at sampling point Narodychi-1: 51,24076°N, 29,21497°E) to 1.57 μGy/h (at sampling point Naro-\ndychi-3: 51,23815°N, 29,22245°E)), located on the agricultural field, abandoned after the catastrophe and Range\nNo. 2, located on the afforested area, directly bordering the territory of the so-called Red Forest in the ChNPP ex-\nclusion zone (4 sampling points – the first three points – natural ecosystems, and 4th – pyrogenically transformed\nterritory after fires in 2020) with the absorbed dose rate gradient from 3.7 μGy/h (at sampling point ChEZ-1:\n51,38595°N, 30,03035°E) to 84.0 μGy/h (at sampling point ChEZ-4: 51,38231°N, 30,03298°E). The dependence\nof the studied indicators on the gradient of soil contamination with radionuclides was demonstrated and these are\nthe conditions that the difference is more than 400 times in the values of the ionizing radiation absorbed dose rates\nformed by radionuclides in soil. In Range No. 1 (on the fallow land), with the increase in the dose rate up from 0.2\nto 1.57 μGy/h, there was statistically significant increase of mineralization coefficient and percentage of reduced\nweight of rooibos tea between the least and most contaminated sampling points), stimulation of the development\nof micromycetes (by 1.2–2.3 times), cellulose-decomposing bacteria (by 7.1–7.9 times), and ammonifying bacteria\n(by 1.8–6.3 times) due to a significant increasing the number of colony-forming units in points with higher radio-\nnuclide contamination and an increase of microbial biomass in soil more than twofold between the least and most\ncontaminated sampling point of Range No. 1.In Range No. 2, in the ChNPP exclusion zone, characterized by low\nparameters of sod-podzolic soil fertility (humus content from 1.2 ± 0.2 to 0.9 ± 0.1 %, exchangeable acidity from\n4.0 ± 0.1 to 5.0 ± 0.7), the number of micromycetes and ammonifying bacteria in soil was one-two orders below the\nindices of Range No. 1. Micromycetes dominated in the groups of cellulose-decomposing microorganisms. There\nwas statistically significant increase of mineralization coefficient and percentage of reduced weight of rooibos tea\nwith increasing of radionuclide contamination level for the first three plots: ChEZ-1, ChEZ-2 and ChEZ-3 of Range\nNo. 2. Conclusions. In the fallow land of the unconditional (obligatory) resettlement zone, the increase of the radia-\ntion absorbed dose rate in soil by one order from 0.2 to 1.57 μGy/h does not inhibit the development of microorgan-\nisms in soil, rather it stimulates their activity and increases their numbers. On poor sod-podzolic soils in the exclu-\nsion zone of the Chernobyl nuclear power plant, the preponderance of development of micromycetes over bacterial\ncellulolytics is noticeable. The radioactive contamination affected the development of soil microorganisms and the\nbiological processes in soils not only in the first years after the Chornobyl catastrophe, which has been described\nin the literature, but has had its influence for rather a long time (for over thirty years after the accident). Among the\nmicroorganisms of a saccharolytic mode of organic plant residuals decomposition, the micromycetes dominate.","PeriodicalId":55933,"journal":{"name":"Agricultural Science and Practice","volume":null,"pages":null},"PeriodicalIF":0.4000,"publicationDate":"2023-04-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Agricultural Science and Practice","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.15407/agrisp9.03.003","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"AGRICULTURE, MULTIDISCIPLINARY","Score":null,"Total":0}
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Abstract

Aim. To study the impact of different levels of radioactive contamination on the organic matter decomposition and the population development of microbial decomposers of organic matter in soil. Methods. Gamma-spectrometry for the determination of the relative activity of 137Cs and beta-spectrometry for the determination of the relative activity of 90Sr in order to choose the contamination range for the studies; Tea Bag Іndex (TBI), the standard glob- ally accepted method to determine the rate of organic matter decomposition; gas chromatography – to determine the impact of the investigated factors on the formation of the biomass of microorganisms by means of the СО2 production potential; classic microbiological methods, using elective media to estimate the population densities of culturable microbial decomposers. Results. The studies (from April to September 2021) comprised two soils with different radioactive contamination ranges: Range No. 1 in Narodychi district of Zhytomyr region (the village Khrystynivka, 3 sampling points) in the unconditional (obligatory) resettlement zone after the catastrophe in the Chornobyl nuclear power plant (ChNPP) (it has an absorbed dose rate gradient, evaluated for soil microorganisms, from 0.2 μGy/h (at sampling point Narodychi-1: 51,24076°N, 29,21497°E) to 1.57 μGy/h (at sampling point Naro- dychi-3: 51,23815°N, 29,22245°E)), located on the agricultural field, abandoned after the catastrophe and Range No. 2, located on the afforested area, directly bordering the territory of the so-called Red Forest in the ChNPP ex- clusion zone (4 sampling points – the first three points – natural ecosystems, and 4th – pyrogenically transformed territory after fires in 2020) with the absorbed dose rate gradient from 3.7 μGy/h (at sampling point ChEZ-1: 51,38595°N, 30,03035°E) to 84.0 μGy/h (at sampling point ChEZ-4: 51,38231°N, 30,03298°E). The dependence of the studied indicators on the gradient of soil contamination with radionuclides was demonstrated and these are the conditions that the difference is more than 400 times in the values of the ionizing radiation absorbed dose rates formed by radionuclides in soil. In Range No. 1 (on the fallow land), with the increase in the dose rate up from 0.2 to 1.57 μGy/h, there was statistically significant increase of mineralization coefficient and percentage of reduced weight of rooibos tea between the least and most contaminated sampling points), stimulation of the development of micromycetes (by 1.2–2.3 times), cellulose-decomposing bacteria (by 7.1–7.9 times), and ammonifying bacteria (by 1.8–6.3 times) due to a significant increasing the number of colony-forming units in points with higher radio- nuclide contamination and an increase of microbial biomass in soil more than twofold between the least and most contaminated sampling point of Range No. 1.In Range No. 2, in the ChNPP exclusion zone, characterized by low parameters of sod-podzolic soil fertility (humus content from 1.2 ± 0.2 to 0.9 ± 0.1 %, exchangeable acidity from 4.0 ± 0.1 to 5.0 ± 0.7), the number of micromycetes and ammonifying bacteria in soil was one-two orders below the indices of Range No. 1. Micromycetes dominated in the groups of cellulose-decomposing microorganisms. There was statistically significant increase of mineralization coefficient and percentage of reduced weight of rooibos tea with increasing of radionuclide contamination level for the first three plots: ChEZ-1, ChEZ-2 and ChEZ-3 of Range No. 2. Conclusions. In the fallow land of the unconditional (obligatory) resettlement zone, the increase of the radia- tion absorbed dose rate in soil by one order from 0.2 to 1.57 μGy/h does not inhibit the development of microorgan- isms in soil, rather it stimulates their activity and increases their numbers. On poor sod-podzolic soils in the exclu- sion zone of the Chernobyl nuclear power plant, the preponderance of development of micromycetes over bacterial cellulolytics is noticeable. The radioactive contamination affected the development of soil microorganisms and the biological processes in soils not only in the first years after the Chornobyl catastrophe, which has been described in the literature, but has had its influence for rather a long time (for over thirty years after the accident). Among the microorganisms of a saccharolytic mode of organic plant residuals decomposition, the micromycetes dominate.
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土壤放射性污染对微生物种群多样性和有机物转化的影响
目标研究不同水平的放射性污染对土壤中有机物分解和微生物分解者种群发育的影响。方法。γ光谱法测定137Cs的相对活性,β光谱法测定90Sr的相对活性以选择研究的污染范围;袋泡茶(TBI),全球公认的测定有机物分解速率的标准方法;气相色谱法-通过СО2生产潜力测定所研究因素对微生物生物量形成的影响;经典微生物学方法,使用选择性培养基来估计可培养微生物分解者的种群密度。后果这些研究(2021年4月至9月)包括两个放射性污染范围不同的土壤:切尔诺贝利核电站(ChNPP)灾难后,无条件(强制性)安置区内Zhytomyr地区Narodychi区的1号土壤(Khrystynivka村,3个采样点)(土壤微生物的吸收剂量率梯度为0.2μGy/h(采样点Narodychi-1:5124076°N,2921497°E)至1.57μGy/h。2、位于绿化区,直接与ChNPP隔离区内所谓的红森林接壤(4个采样点——前三个点——自然生态系统,第四个——2020年火灾后热解转化的生态系统),吸收剂量率梯度从3.7μGy/h(采样点ChEZ-1:5138595°N,3003035°E)到84.0μGy/h(采样点ChEZ-4:5138231°N,3003298°E)。证明了所研究的指标与放射性核素污染土壤的梯度的相关性,即放射性核素在土壤中的电离辐射吸收剂量率值相差400倍以上的条件。在1号范围(休耕地),随着剂量率从0.2μGy/h增加到1.57μGy/h,在污染程度最低和污染程度最高的采样点之间,卢比波斯茶的矿化系数和还原重量百分比有统计学意义的增加),刺激了微菌的发育(增加了1.2-2.3倍),纤维素分解细菌(增加了7.1-7.9倍),和氨化细菌(增加了1.8–6.3倍),这是因为在放射性核素污染程度较高的采样点,菌落形成单位的数量显著增加,土壤中微生物生物量在1号范围的最少和最多接触采样点之间增加了两倍多。在2号范围,在ChNPP禁区内,土壤腐殖质含量在1.2±0.2~0.9±0.1%之间,交换性酸度在4.0±0.1~5.0±0.7之间,土壤中的微生物和氨化细菌数量比1号范围低一到两个数量级。在纤维素分解微生物群中,微菌占主导地位。RangeNo的ChEZ-1、ChEZ-2和ChEZ-3前三个地块的矿化系数和rooibos茶的减重百分比随着放射性核素污染水平的增加而显著增加。2.结论。在无条件(强制性)安置区的休耕地,土壤中的辐射吸收剂量率从0.2μGy/h增加到1.57μGy/h,这并不能抑制土壤中微小器官的发育,而是刺激了它们的活动并增加了它们的数量。在切尔诺贝利核电站隔离区贫瘠的草皮-灰化土上,微菌的开发优势明显超过细菌-纤维素酶。放射性污染不仅在文献中描述的切尔诺贝利灾难后的最初几年影响了土壤微生物的发育和土壤中的生物过程,而且在相当长的一段时间内(事故发生后的30多年)都受到了影响。在有机植物残留物分解的糖分解模式的微生物中,微菌占主导地位。
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Agricultural Science and Practice
Agricultural Science and Practice AGRICULTURE, MULTIDISCIPLINARY-
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