Understanding the distribution pattern and maintenance mechanism of species diversity along environmental gradients is essential for developing biodiversity conservation strategies under environmental change. We have surveyed the species diversity at 192 vegetation sites across different steppe zones in Inner Mongolia, China. We analysed the total species diversity (gamma diversity) and its composition (alpha diversity and beta diversity) of different steppe types, and their changes along a precipitation gradient. Our results showed that (i) beta diversity contributed more than alpha diversity to the total (gamma) diversity in the Inner Mongolia grassland; the contribution of beta diversity increased with precipitation, thus the species-rich (meadow steppe) grassland had greater contribution of beta diversity than species-poor (desert steppe) grassland. (ii) All alpha, beta and gamma species diversity increased significantly (P < 0.05) with precipitation, but their sensitivity to precipitation (diversity change per mm precipitation increase) was different between the steppe types. The sensitivity of alpha diversity of different steppe community types was negatively (P < 0.05) correlated with mean annual precipitation, whereas the sensitivity of beta and gamma diversity showed no trend along the precipitation gradient (P >= 0.10). (iii) The alpha diversity increased logarithmically, while b diversity increased exponentially, with gamma diversity. Our results suggest that for local species diversity patterns, the site species pool is more important in lower precipitation areas, while local ecological processes are more important in high precipitation areas. In addition, for beta diversity maintenance niche processes and diffusion processes are more important in low and high precipitation areas, respectively. Our results imply that a policy of "multiple small reserves'' is better than one of a "single large reserve'' for conserving species diversity of a steppe ecosystem, and indicate an urgent need to develop management strategies for climate-sensitive desert steppe ecosystem.

• 出版日期2014-3-27
• 单位内蒙古大学; 中国农业科学院