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Key role of moss in supplementing nitrogen for plant growth under warming in a permafrost ecosystem
时间:2026-04-12
作  者:Zhou W#, Bai YX#, Xie YH, Wei B, Wanek W, Rousk K, Noyce G, Zhang DY, Peng YF, Yang YH*
影响因子:9.1
刊物名称:PNAS
出版年份:2026
卷:123  期:8  页码:2516443123

论文摘要:

Enhanced plant productivity under climate warming may partially offset soil carbon losses in cold ecosystems, but this compensation depends on whether soil nitrogen (N) supply can keep pace with the increased N demand associated with accelerated plant growth. However, it remains unclear whether existing soil N supply processes are sufficient to support this rising plant N demand. Based on a unique whole-ecosystem warming experiment in the permafrost region on the Tibetan Plateau, we assess 43 variables encompassing plant N demandsoil N supply. After 2 y of warming, plant N demand significantly increases, while leaf N resorption remains unchanged, indicating a heightened reliance on external soil N inputs. Among all quantified N-supply processes, moss-associated biological N fixation is the only process that responds positively to warming, providing partial compensation for the elevated plant N demand over the two experimental years. This enhancement is associated with warming-driven changes in moss functional traits that likely expand colonization nichesincrease carbon availability for diazotrophs, coupled with a warming-induced increase in the breadthintensity of taxon-level 15N incorporationthe DNA of N-fixing bacteria. These findings highlight that moss-associated N fixation may act as an early contributor in helping satisfy the elevated plant N demand under warming, offering insightsunderstanding the dynamics of vegetation productivitypermafrost carbon-climate feedback through the lens of moss–soil–microbial interactions.

全文链接:https://www.pnas.org/doi/10.1073/pnas.2516443123