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应用生态学报 ›› 2020, Vol. 31 ›› Issue (7): 2464-2472.doi: 10.13287/j.1001-9332.202007.035

• 综合评述 • 上一篇    下一篇

森林土壤微生物对干旱和氮沉降的响应

郑勇*, 贺纪正   

  1. 福建师范大学地理科学学院, 福州 350007
  • 收稿日期:2020-02-07 接受日期:2020-04-15 出版日期:2020-07-15 发布日期:2021-01-15
  • 通讯作者: E-mail: zhengy@fjnu.edu.cn
  • 作者简介:郑 勇, 男, 1981年生, 博士, 研究员。主要从事全球变化微生物生态学研究。 E-mail: zhengy@fjnu.edu.cn
  • 基金资助:
    国家自然科学基金项目(31570499, 31971447)资助

Responses of forest soil microbial communities to drought and nitrogen deposition: A review

ZHENG Yong*, HE Ji-zheng   

  1. School of Geographical Sciences, Fujian Normal University, Fuzhou 350007, China
  • Received:2020-02-07 Accepted:2020-04-15 Online:2020-07-15 Published:2021-01-15
  • Contact: E-mail: zhengy@fjnu.edu.cn
  • Supported by:
    This work was financially supported by the National Natural Science Foundation of China (31570499, 31971447).

摘要: 干旱和氮沉降深刻影响着人类世森林生态系统的生命活动与物质循环,进而影响全球碳平衡、并反馈作用于气候变化。土壤微生物驱动元素的生物地球化学循环和关键土壤生态过程,在气候变化生物学研究方面具有核心地位和全球重要性。本文综述了干旱和氮沉降对森林土壤细菌和菌根真菌的影响。提出未来应加强全球变化多因子交互作用对土壤微生物多样性、活性与生态功能的研究;建立野外长期定位站,强化亚热带森林生态系统与全球变化研究;注重土壤生物之间互作及网络研究;利用微生物大数据建立相关的机理模型等。从认识微生物多样性和群落组成对全球变化的响应与适应,逐步发展为调控利用微生物群落服务于森林的优化管理、生态资源的合理保护与可持续利用,为充分发挥微生物减缓全球气候变化的作用提供理论基础。

关键词: 氮沉降, 干旱, 菌根真菌, 气候变化, 森林生态系统, 土壤微生物

Abstract: Drought and nitrogen input are profoundly influencing most life on Earth and the substance cycling in forest ecosystems in the Anthropocene, with consequences on global carbon balance and feedback on climate changes. Soil microorganisms drive biogeochemical cycling and key ecological processes, with central role and global importance in climate change biology. Here, we reviewed the research in the area of the effects of drought and nitrogen deposition on soil bacteria and mycorrhizal fungi in forest ecosystems. We proposed that future studies should focus on how microbial diversity, activity, and ecological functioning respond to multiple global change factors and their interactions; how subtropical forest ecosystems respond to global changes on the basis of establishment of the long-term field experimental station; the interaction of different soil biological guilds; utilizing microbial big data to construct the relevant mechanistic models. Taken together, based on improved understanding of the responses of soil microbial diversity and community composition to global changes, further research may subsequently focus on manipulating the microbial communities to enhance forest management, ecological resources protection, and environmental sustainability. This review would provide some critical theoretical basis for the microbial strategy in mitigating climate change in future.

Key words: nitrogen deposition, drought, mycorrhizal fungi, climate change, forest ecosystem, soil microorganism