Yingjie Yan scite author profile

Plant and microbial diversity are key to determine ecosystem functioning. Despite the well-known role of local-scale α diversity in affecting vegetation biomass, the effects of community heterogeneity (β diversity) of plants and soil microbes on above-and belowground biomass (AGB and BGB) across contrasting environments still remain unclear. Here, we conducted a dryness-gradient transect survey over 3000 km across grasslands on the Tibetan Plateau. We found that plant β diversity was more dominant than α diversity in maintaining higher levels of AGB, while soil fungal β diversity was the key driver in enhancing BGB. However, these positive effects of plant and microbial β diversity on AGB and BGB were strongly weakened by increasing climatic dryness, mainly because higher soil available phosphorus caused by increasing dryness reduced both plant and soil fungal β diversities. Overall, these new findings highlight the critical role of above-and belowground β diversity in sustaining grassland biomass, raising our awareness to the ecological risks of large-scale biotic homogenization under future climate change. K E Y W O R D Sabove-and belowground biomass, alpine grasslands, climatic aridity, plant and soil microbial diversity, α and β diversity

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Yingjie Yan

The effect of moisture level on high-moisture maize (Zea mays L.) under hermetic storage conditions—in vitro studies

Correlation between germination capacity and biophoton emission of barley seeds (Hordeum vulgare L.)

Varying soil respiration under long-term warming and clipping due to shifting carbon allocation toward below-ground

Dryness weakens the positive effects of plant and fungal β diversities on above‐ and belowground biomass

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