营养水平
食物网
土壤生物学
生态学
土壤碳
环境科学
土壤食物网
全球变暖
土壤有机质
大块土
土壤生态学
微生物食品网
土壤生物多样性
微生物种群生物学
生物量(生态学)
生物
气候变化
土壤水分
农学
土壤科学
细菌
遗传学
作者
Mathilde Borg Dahl,Andrea Söllinger,Páll Sigurðsson,Ivan A. Janssens,Josep Peñuelas,Bjarni D. Sigurðsson,Andreas Richter,Alexander Tøsdal Tveit,Tim Urich
标识
DOI:10.1016/j.soilbio.2023.109044
摘要
Climatic warming has been hypothesized to accelerate organic matter decomposition by soil microorganisms and thereby enhance carbon (C) release to the atmosphere. However, the long-term consequences of soil warming on belowground biota interactions are poorly understood. Here we investigate how geothermal warming by 6 °C for more than 50 years affects soil microbiota. Using metatranscriptomics we obtained comprehensive profiles of the prokaryotic, eukaryotic and viral players of the soil microbial food web. When compared to ambient soil temperature conditions, we found pronounced differences in taxa abundances within and between trophic modules of the soil food web. Specifically, we observed a ‘trophic downgrading’ at elevated temperature, with soil fauna decreasing in abundance, while predatory bacteria and viruses became relatively more abundant. We propose that the drivers for this shift are previously observed decreases in microbial biomass and soil organic carbon, and the increase in soil bulk density (decrease in soil porosity) at elevated temperature. We conclude that a trophic downgrading may have important implications for soil carbon sequestration and nutrient dynamics in a warming world.
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