The microbiological activity of lake sediments before and after application of EM (effective microorganisms)

IF 2.7 4区 环境科学与生态学 Q2 ECOLOGY Ecohydrology & Hydrobiology Pub Date : 2024-04-01 DOI:10.1016/j.ecohyd.2023.11.003
Katarzyna Lewicka-Rataj, Tomasz Heese, Katarzyna Pikuła, Michał Arciszewski
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Abstract

The study objective was to assess microbiological activity of sediments during the application of an EM preparation on the in Lake Skiertąg. Samples were taken before and after microbial bioremediation in the period 2020–2021 from five sediment layers. The abundance, biomass, and efficiency of the respiratory chain of sediment bacteria were determined by the direct methods in a fluorescence microscope. The rate of organic carbon oxidation was measured by the respiratory method. The abundance of benthic bacteria showed significant variability in the profile of each core, and decreased with an increase in sediment depth. The significant decrease in the number and biomass of bacteria in the sediment after the application of the EM technology, was observed during the second year of application of the preparation, and not immediately after its application. In the tested sediments, an significant increase in the percentage of cell with active dehydrogenases ETS+ in the total number of bacteria after application of the preparation was found, but at the same time significantly higher values of this parameter were demonstrated in 2021 compared to the first year of using microbial bioremediation. A significant positive correlation between the potential rate of organic carbon oxidation in the surface layer of sediments and the temperature in the water above the sediment indicates that the temperature conditions stimulated the respiration activity of the sediment microflora.

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EM(有效微生物)施用前后湖泊沉积物微生物活性的变化
研究目的是评估EM制剂在湖泊Skiertąg上应用期间沉积物的微生物活性。在2020-2021年期间,从五个沉积层中采集微生物修复前后的样品。采用荧光显微镜直接法测定了沉积物细菌呼吸链的丰度、生物量和效率。用呼吸法测定有机碳氧化速率。底栖细菌丰度在各岩心剖面上表现出显著的变异性,并随着沉积物深度的增加而降低。应用EM技术后,沉积物中细菌数量和生物量的显著减少是在应用该制剂的第二年观察到的,而不是在应用后立即观察到的。在测试的沉积物中,使用该制剂后,具有活性脱氢酶ETS+的细胞占细菌总数的百分比显着增加,但与此同时,2021年该参数的值与使用微生物生物修复的第一年相比显着增加。沉积物表层有机碳氧化电位与沉积物上方水温呈显著正相关,表明温度条件刺激了沉积物微生物群的呼吸活性。
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来源期刊
Ecohydrology & Hydrobiology
Ecohydrology & Hydrobiology Agricultural and Biological Sciences-Aquatic Science
CiteScore
5.40
自引率
3.80%
发文量
51
期刊介绍: Ecohydrology & Hydrobiology is an international journal that aims to advance ecohydrology as the study of the interplay between ecological and hydrological processes from molecular to river basin scales, and to promote its implementation as an integrative management tool to harmonize societal needs with biosphere potential.
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