Acclimation of phenology relieves leaf longevity constraints in deciduous forests

物候学 每年落叶的 生长季节 水槽(地理) 气候变化 环境科学 碳汇 长寿 生态学 大气科学 气候学 地理 生物 遗传学 地图学 地质学
作者
Laura Marqués,Koen Hufkens,Christof Bigler,Thomas W. Crowther,Constantin M. Zohner,Benjamin D. Stocker
出处
期刊: [Cold Spring Harbor Laboratory]
被引量:4
标识
DOI:10.1101/2022.01.17.476561
摘要

Abstract Leaf phenology is key for regulating total growing season mass and energy fluxes. Long-term temporal trends towards earlier leaf unfolding are observed across Northern Hemisphere forests. Phenological dates also vary between years, whereby end-of-season (EOS) dates correlate positively with start-of-season (SOS) dates and negatively with growing season total net CO 2 assimilation ( A net ). These associations have been interpreted as the effect of a constrained leaf longevity or of premature carbon (C) sink saturation - with far-reaching consequences for long-term phenology projections under climate change and rising CO 2 . Here, we use multi-decadal ground and remote-sensing observations to show that the relationships between A net and EOS are opposite at the interannual and the decadal time scales. A decadal trend towards later EOS persists in parallel with a trend towards increasing A net - in spite of the negative A net -EOS relationship at the interannual scale. This indicates that acclimation of phenology has enabled plants to transcend a constrained leaf longevity or premature C sink saturation over the course of several decades, leading to a more effective use of available light and a sustained extension of the vegetation CO 2 uptake season over time.
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