生物多样性
竞赛(生物学)
生物
毒性
氮气
生态学
环境化学
化学
有机化学
作者
Namuhan,Jing Wang,Guojiao Yang,Yantao Song,Yunguang Yu,Jidong Wang,Xiaoguang Wang,Yiping Shi,Yue Shen,Xingguo Han,Wuyunna,Haiyang Zhang
摘要
Summary The primary mechanisms contributing to nitrogen (N) addition induced grassland biodiversity loss, namely light competition and soil cation toxicity, are often examined separately in various studies. However, their relative significance in governing biodiversity loss along N addition gradient remains unclear. We conducted a 4‐yr field experiment with five N addition rates (0, 2, 10, 20, and 50 g N m −2 yr −1 ) and performed a meta‐analysis using global data from 239 observations in N‐fertilized grassland ecosystems. Results from our field experiment and meta‐analysis indicate that both light competition and soil cation (e.g. Mn 2+ and Al 3+ ) toxicity contribute to plant diversity loss under N enrichment. The relative importance of these mechanisms varied with N enrichment intensity. Light competition played a more significant role in influencing species richness under low N addition (≤ 10 g m −2 yr −1 ), while cation toxicity became increasingly dominant in reducing biodiversity under high N addition (>10 g m −2 yr −1 ). Therefore, a transition from light competition to cation toxicity occurs with increasing N availability. These findings imply that the biodiversity loss along the N gradient is regulated by distinct mechanisms, necessitating the adoption of differential management strategies to mitigate diversity loss under varying intensities of N enrichment.
科研通智能强力驱动
Strongly Powered by AbleSci AI