添加克拉霉素对四种酸性土壤(伊比利亚半岛西北部)微生物群落的影响

IF 2 Q3 SOIL SCIENCE Spanish Journal of Soil Science Pub Date : 2023-04-18 DOI:10.3389/sjss.2023.11319
Laura Rodriguez‐Gonzalez, E. García-Campos, Angela B. Martin, M. Díaz-Raviña, M. Arias-Estévez, D. Fernández-Calviño, V. Santás-Miguel
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引用次数: 1

摘要

进行了一项实验室实验,研究了伊比利亚半岛西北部酸性农业土壤中微生物群落对克拉霉素存在的反应。使用了四种有机碳含量不同、pH值相似的土壤和七种不同浓度的克拉霉素(0.49、1.95、7.81、31.25、125、500和2000 mg kg−1土壤),并在培养8天和42天后对微生物进行了估计。磷脂脂肪酸(PLFA)技术用于估算微生物总生物量和特定微生物群的生物量以及微生物群落结构(PLFA模式)。所研究的四种土壤中的微生物生物量(总组和特定组)不同,有机碳含量最低的土壤表现出最低的值。抗生素的添加对微生物生物量表现出积极影响(总组与特定组),尤其是在最高剂量时;随着添加后的时间(42天≥8天),效果相似或甚至更加突出。利用整个数据集对PLFA数据进行主成分分析(PCA)表明,决定微生物结构的主要因素依次为:土壤>培养时间≥抗生素剂量。当在每个培养时间单独进行主成分分析时,结果表明四种土壤的微生物群落不同。同样,对于每种土壤,根据抗生素浓度观察到不同的微生物群落。微生物生物量和PLFA模式数据一致表明,添加克拉霉素对真菌和G-细菌的益处大于细菌和G-细菌;这种作用是剂量依赖性的。我们的数据(微生物生物量,PLFA模式)还表明,即使在培养42天后,添加克拉霉素对这四种酸性农业土壤中微生物群落的影响仍然存在。
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Microbial Communities as Affected by Clarithromycin Addition in Four Acid Soils (NW Iberian Peninsula)
A laboratory experiment was carried out to investigate the response of the microbial communities in acid agricultural soils located in the NW Iberian Peninsula to the presence of clarithromycin. Four soils, with different organic C content and similar pH, and seven different concentrations of clarithromycin (0.49, 1.95, 7.81, 31.25, 125, 500 and 2,000 mg kg−1 of soil) were used, and microbial estimates were made after 8 and 42 incubation days. The phospholipid fatty acids (PLFA) technique was used to estimate the total microbial biomass and biomass of specific microbial groups as well as the microbial community structure (PLFA pattern). The microbial biomass (total and specific groups) was different in the four studied soils, the lowest values being exhibited by soils with the lowest organic C. The antibiotic addition showed a positive effect on microbial biomass (total and specific groups), especially at the highest dose; the effect being similar or even more accentuated with time passed after the addition (42 days ≥8 days). Principal component analysis (PCA) of the PLFA data carried out with the whole data set showed that the main determining factors of the microbial structure followed the order: soil > time incubation ≥ antibiotic dose. When the PCA was performed individually for each incubation time, the results indicated that microbial communities of the four soils were different. Likewise, for each soil, different microbial communities were observed depending on antibiotic concentration. The microbial biomass and PLFA pattern data were coincidentally showing that the clarithromycin addition favored fungi and G− bacteria more that bacteria and G+ bacteria; the effect being dose-dependent. Our data (microbial biomass, PLFA pattern) also demonstrated that the effect of clarithromycin addition on microbial communities in these four acid agricultural soils persisted even after 42 incubation days.
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来源期刊
CiteScore
2.20
自引率
0.00%
发文量
13
期刊介绍: The Spanish Journal of Soil Science (SJSS) is a peer-reviewed journal with open access for the publication of Soil Science research, which is published every four months. This publication welcomes works from all parts of the world and different geographic areas. It aims to publish original, innovative, and high-quality scientific papers related to field and laboratory research on all basic and applied aspects of Soil Science. The journal is also interested in interdisciplinary studies linked to soil research, short communications presenting new findings and applications, and invited state of art reviews. The journal focuses on all the different areas of Soil Science represented by the Spanish Society of Soil Science: soil genesis, morphology and micromorphology, physics, chemistry, biology, mineralogy, biochemistry and its functions, classification, survey, and soil information systems; soil fertility and plant nutrition, hydrology and geomorphology; soil evaluation and land use planning; soil protection and conservation; soil degradation and remediation; soil quality; soil-plant relationships; soils and land use change; sustainability of ecosystems; soils and environmental quality; methods of soil analysis; pedometrics; new techniques and soil education. Other fields with growing interest include: digital soil mapping, soil nanotechnology, the modelling of biological and biochemical processes, mechanisms and processes responsible for the mobilization and immobilization of nutrients, organic matter stabilization, biogeochemical nutrient cycles, the influence of climatic change on soil processes and soil-plant relationships, carbon sequestration, and the role of soils in climatic change and ecological and environmental processes.
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