铵
植物
生物
营养物
硝化作用
丰度(生态学)
固氮
开枪
微生物种群生物学
生物量(生态学)
细菌
氮气循环
农学
氮气
营养循环
戒指(化学)
微生物生态学
相对物种丰度
土壤水分
生态系统
土壤pH值
土壤真菌
真菌
土壤微生物学
殖民地化
植物生长
微生物
外生菌根
生态学
作者
Lu Lian,Yixian Bi,Mohan Liu,Gaowen Yang,David Parsons,N. Liu,Y. Zhang
摘要
Summary Fairy rings in grasslands formed by basidiomycetes fungi are characterized by a green belt with luxuriant plants and soil nutrients. However, the way in which the fairy ring fungi enhance plant‐available nutrients and subsequently influence plant growth remains poorly understood. We conducted an observational study involving 30 fairy rings in alpine grasslands to investigate the effects of fairy ring fungi on plant biomass, available nutrients, and soil microbial functions. Furthermore, a glasshouse experiment was performed to test the differential response of five plant species to increased ammonium nitrogen (NH 4 + ‐N) induced by fairy ring fungi. We found that fairy ring fungi enhanced soil NH 4 + ‐N accumulation, which might be due to increases in the relative abundance of specific bacteria and N‐acquiring enzyme activities. Meanwhile, fairy ring fungi increased the abundance of genes related to N fixation and mineralization, but decreased the abundance of a nitrification gene. Furthermore, the observed 82% greater shoot biomass on the fairy ring as compared to outside it was mainly attributed to grasses and sedges, which were promoted by the increased NH 4 + ‐N concentration. Our findings reveal a novel mechanism by which fairy ring fungi stimulate the microbial capacity to convert available nutrients, thereby reshaping plant composition in alpine grasslands.
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