Livestock grazing regulates ecosystem multifunctionality in semi‐arid grassland

放牧 生物 草原 干旱 牲畜 生态系统 保护性放牧 草地生态系统 农林复合经营 生态学 农学
作者
Haiyan Ren,Valerie T. Eviner,Weiyang Gui,Gail W. T. Wilson,Adam B. Cobb,Gaowen Yang,Yingjun Zhang,Shuijin Hu,Yongfei Bai
出处
期刊:Functional Ecology [Wiley]
卷期号:32 (12): 2790-2800 被引量:54
标识
DOI:10.1111/1365-2435.13215
摘要

Abstract Livestock grazing has been shown to alter the structure and functions of grassland ecosystems. It is well acknowledged that grazing pressure is one of the strongest drivers of ecosystem‐level effects of grazing, but few studies have assessed how grazing pressure impacts grassland biodiversity and ecosystem multifunctionality ( EMF ). Here, we assessed how different metrics of biodiversity (i.e., plants and soil microbes) and EMF responded to seven different grazing treatments based on an 11‐year field experiment in semi‐arid Inner Mongolian steppe. We found that soil organic carbon, plant‐available nitrogen and plant functional diversity all decreased even at low grazing pressure, while above‐ground primary production and bacterial abundance decreased only at high levels of grazing pressure. Structural equation models revealed that EMF was driven by direct effects of grazing, rather than the effects of grazing on plant or microbial community composition. Grazing effects on plant functional diversity and soil microbial abundance did have moderate effects on EMF , while plant richness did not. Synthesis . Our results showed ecosystem functions differ in their sensitivity to grazing pressure, requiring a low grazing threshold to achieve multiple goals in the Eurasian steppe. A plain language summary is available for this article.
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