Emerging signals of declining forest resilience under climate change

气候变化 环境科学 生态系统 心理弹性 生态学 地理 森林生态学 温带气候 农林复合经营 环境资源管理 生物 心理学 心理治疗师
作者
Giovanni Forzieri,Vasilis Dakos,Nate G. McDowell,Ramdane Alkama,Alessandro Cescatti
出处
期刊:Nature [Nature Portfolio]
卷期号:608 (7923): 534-539 被引量:492
标识
DOI:10.1038/s41586-022-04959-9
摘要

Abstract Forest ecosystems depend on their capacity to withstand and recover from natural and anthropogenic perturbations (that is, their resilience) 1 . Experimental evidence of sudden increases in tree mortality is raising concerns about variation in forest resilience 2 , yet little is known about how it is evolving in response to climate change. Here we integrate satellite-based vegetation indices with machine learning to show how forest resilience, quantified in terms of critical slowing down indicators 3–5 , has changed during the period 2000–2020. We show that tropical, arid and temperate forests are experiencing a significant decline in resilience, probably related to increased water limitations and climate variability. By contrast, boreal forests show divergent local patterns with an average increasing trend in resilience, probably benefiting from warming and CO 2 fertilization, which may outweigh the adverse effects of climate change. These patterns emerge consistently in both managed and intact forests, corroborating the existence of common large-scale climate drivers. Reductions in resilience are statistically linked to abrupt declines in forest primary productivity, occurring in response to slow drifting towards a critical resilience threshold. Approximately 23% of intact undisturbed forests, corresponding to 3.32 Pg C of gross primary productivity, have already reached a critical threshold and are experiencing a further degradation in resilience. Together, these signals reveal a widespread decline in the capacity of forests to withstand perturbation that should be accounted for in the design of land-based mitigation and adaptation plans.
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