草原
生态学
福布
生态系统
气候变化
全球变暖
环境科学
草本植物
灌木
分解者
植物群落
全球变化
生物
沙漠和干旱灌木丛
生物多样性
灌木丛
扰动(地质)
新型生态系统
全球变暖的影响
陆地生态系统
优势(遗传学)
短毛短袜
山地生态
交替稳态
生态演替
小气候
作者
Lara Souza,Aimée T. Classen,Jennifer A. Rudgers,Cassandra M. L. Miller,Jessica A. M. Pyle,Ruth A. Simberloff,James A. Fordyce,John Harte,Stephanie N Kivlin
标识
DOI:10.1073/pnas.2510936123
摘要
Climate forecasts project rising temperatures for every land surface on Earth. Predicting the consequences of climate warming poses a challenge for science and society. Shifts in plant-microbial interactions can lead to significant changes in ecosystem-level functioning. In one of the world's longest climate change experiments, we studied the effects of 29 y of warming on a native subalpine grassland in the Rocky Mountains of North America. Warming caused a transition from herbaceous to woody-dominated vegetation, with shrubs increasing by 150% in warmed plots and a concurrent ~28% decrease in both forbs and grasses. This shift was accompanied by functional traits changing by 20% toward more conservative values relative to acquisitive ones. Consequently, plant-symbiont associations decreased with root-associated fungi-arbuscular mycorrhizal fungal and septate root colonization-both declining by 17 to 20% under warming. In turn, soil saprotrophic fungi increased by 10% with warming. Strikingly, warming decoupled above- and belowground communities and their functions. This decoupling was evident as plant-available phosphorus increased and both individual plants and plant communities reduced their reliance on mycorrhizal fungi, while plant connectedness to decomposer fungi tightened. Our results suggest that, as the planet warms, subalpine grasslands will become more conservative and desert shrubland-like in both above- and belowground properties.
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