%0 Journal Article
%T 氮沉降影响土壤磷与ECM和SAP真菌关系研究进展<br>The Effect of Nitrogen Deposition on the Relationship between Soil Phosphorus and ECM and SAP Fungi: A Review
%A 薛伟
%A 王庆贵
%A 闫国永
%A 邢亚娟
%J Advances in Environmental Protection
%P 1179-1188
%@ 2164-5493
%D 2022
%I Hans Publishing
%R 10.12677/AEP.2022.126146
%X 氮沉降深刻影响生态系统养分和物质循环，提升生态系统生产力，最终将会影响全球气候变化。随着氮沉降增加，土壤养分尤其是土壤磷将会受到显著影响。土壤微生物在驱动土壤与植物之间养分循环、养分供给方面具有重要作用，逐渐成为氮沉降变化背景下的重点研究对象。本文通过综述近年来的相关研究论文，重点分析了ECM和SAP真菌及其功能，探讨了氮沉降背景下土壤磷变化及其对ECM、SAP真菌的影响，揭示了氮沉降如何影响土壤磷与ECM和SAP真菌关系。该文可为氮沉降背景下土壤磷与真菌群落互作关系的深入研究提供基础数据。<br />
Nitrogen deposition profoundly affects the nutrient and material cycle of ecosystems, and ulti-mately enhances ecosystem productivity and affects global climate change. With the increase of N deposition, soil nutrients, especially soil phosphorus, will be significantly affected. Soil microor-ganisms play an important role in driving nutrient cycling and nutrient supply between soil and plants, and have gradually become the focus of research under the background of N deposition. In this study, we reviewed the related research papers in recent years and analyzed the ECM and SAP fungi and their functions, discussed the changes of soil phosphorus and its effects on ECM and SAP fungi under the background of N deposition, and revealed the effect of N deposition on the rela-tionship between soil phosphorus and ECM and SAP fungi. This research can provide basic data for further study on the interaction between soil phosphorus and fungal community under the back-ground of N deposition.
%K 氮沉降，土壤磷，ECM真菌，SAP真菌<br>Nitrogen Deposition
%K Soil Phosphorus
%K ECM Fungi
%K SAP Fungi
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=59143