Smaller microorganisms outcompete larger ones in resistance and functional effects under disturbed agricultural ecosystems

IF 23.7 Q1 MICROBIOLOGY iMeta Pub Date : 2024-06-23 DOI:10.1002/imt2.219

Chunling Liang, Jiejun Qi, Wenyuan Wu, Xingyu Chen, Mingyu Li, Yu Liu, Ziheng Peng, Shi Chen, Haibo Pan, Beibei Chen, Jiai Liu, Yihe Wang, Sanfeng Chen, Sen Du, Gehong Wei, Shuo Jiao

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Abstract

Body size is a key ecological trait of soil microorganisms related to their adaptation to environmental changes. In this study, we reveal that the smaller microorganisms show stronger community resistance than larger organisms in both maize and rice soil. Compared with larger organisms, smaller microorganisms have higher diversity and broader niche breadth to deploy survival strategies, because of which they are less affected by environmental selection and thus survive in complex and various kinds of environments. In addition, the strong correlation between smaller microorganisms and ecosystem functions reflects their greater metabolic flexibility and illustrates their significant roles in adaptation to continuously changing environments. This research highlights the importance of body size in maintaining stability of the soil microbiome and forecasting agroecosystem dynamics under environmental disturbances.

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在农业生态系统受到干扰的情况下，较小微生物的抵抗力和功能效应优于较大微生物

体型是土壤微生物适应环境变化的一个关键生态特征。本研究发现，在玉米和水稻土壤中，较小的微生物比较大的微生物表现出更强的群落抵抗力。与大型生物相比，小型微生物具有更高的多样性和更广的生态位宽度来部署生存策略，因此它们受环境选择的影响较小，从而能在复杂多样的环境中生存。此外，较小微生物与生态系统功能之间的强相关性反映了它们具有更大的新陈代谢灵活性，说明它们在适应不断变化的环境方面发挥着重要作用。这项研究强调了体型对维持土壤微生物群稳定性和预测环境干扰下农业生态系统动态的重要性。

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iMeta

CiteScore

10.80

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0.00%

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