微生物多样性丧失后土壤一般功能和特殊功能的反应:综述

Xueling Yang , Xiaowei Huang , Zhongyi Cheng , Shuyao Li , H.A. Mahjoob , Jianming Xu , Yan He
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引用次数: 0

摘要

尽管全球生物多样性丧失的速度令人震惊,但地下微生物多样性对土壤功能的影响仍然不确定,而且在大量实验数据中仍存在争议。在此背景下,我们综合评估了已发表文献中微生物多样性丧失对土壤生态系统功能的影响,并从土壤一般功能和特殊功能的角度阐述了不同反应的可能机制。结果表明,微生物多样性的丧失会降低特定功能(如污染物降解、甲烷代谢、病原体控制)和一般功能(如碳和氮矿化、土壤呼吸、生物量生产),这表明即使对于一般功能而言,功能冗余也可能被高估。驱动微生物多样性与生态系统过程之间联系的过程受到土壤环境因素(如养分状况、污染压力、含水量)的影响。然而,高功能多样性和稳定性对于解释全球生物多样性下降情况下土壤生态系统功能的维持至关重要,这涉及基因型/表型功能特征和多样性效应的过程。总之,我们的综述有助于更好地理解多样性与一般/特异功能之间的关系,并为今后的研究提供了建议。
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Response of soil general and specific functions following loss of microbial diversity: A review

Although an alarming rate of global biodiversity loss is occurring, the effects of belowground microbial diversity on soil functioning still remain uncertain and debated across numbers of experiments data. In this context, we synthesize and evaluate the impacts of microbial diversity loss on soil ecosystem functioning from published literatures, and elaborate the probable mechanisms of the different response in terms of soil general and specific functions. The results showed that the loss of microbial diversity decreases both specific (e.g. pollutant degradation, methane metabolism, pathogen control) and general functions (e.g. C and N mineralization, soil respiration, biomass production), indicating that functional redundancy may be overestimated, even for general functions. The processes that drive the link between microbial diversity and ecosystem processes are influenced by environmental factors in the soil (e.g. nutrient condition, pollution stress, moisture content). However, high functional diversity and stability are crucial in explaining the maintenance of soil ecosystem function under the scenario of global biodiversity declining, which involves the process of genotypic/phenotypic functional traits and diversity effects. In summary, our review has implications for an improved understanding regarding the relationship between diversity and general/specific functions, with suggestions for the future research provided.

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来源期刊
Soil security
Soil security Soil Science
CiteScore
4.00
自引率
0.00%
发文量
0
审稿时长
90 days
期刊最新文献
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