Changes in timing of seasonal peak photosynthetic activity in northern ecosystems

季节性 环境科学 光合作用 大气科学 生态系统 生产力 碳循环 气候变化 气候学 生长季节 生态学 生物 植物 地质学 宏观经济学 经济
作者
Taejin Park,Chi Chen,Marc Macias‐Fauria,Hans Tømmervik,Sungho Choi,Alexander J. Winkler,Uma S. Bhatt,Donald A. Walker,Shilong Piao,Victor Brovkin,Ramakrishna Nemani,Ranga B. Myneni
出处
期刊:Global Change Biology [Wiley]
卷期号:25 (7): 2382-2395 被引量:153
标识
DOI:10.1111/gcb.14638
摘要

Seasonality in photosynthetic activity is a critical component of seasonal carbon, water, and energy cycles in the Earth system. This characteristic is a consequence of plant's adaptive evolutionary processes to a given set of environmental conditions. Changing climate in northern lands (>30°N) alters the state of climatic constraints on plant growth, and therefore, changes in the seasonality and carbon accumulation are anticipated. However, how photosynthetic seasonality evolved to its current state, and what role climatic constraints and their variability played in this process and ultimately in carbon cycle is still poorly understood due to its complexity. Here, we take the "laws of minimum" as a basis and introduce a new framework where the timing (day of year) of peak photosynthetic activity (DOYPmax ) acts as a proxy for plant's adaptive state to climatic constraints on its growth. Our analyses confirm that spatial variations in DOYPmax reflect spatial gradients in climatic constraints as well as seasonal maximum and total productivity. We find a widespread warming-induced advance in DOYPmax (-1.66 ± 0.30 days/decade, p < 0.001) across northern lands, indicating a spatiotemporal dynamism of climatic constraints to plant growth. We show that the observed changes in DOYPmax are associated with an increase in total gross primary productivity through enhanced carbon assimilation early in the growing season, which leads to an earlier phase shift in land-atmosphere carbon fluxes and an increase in their amplitude. Such changes are expected to continue in the future based on our analysis of earth system model projections. Our study provides a simplified, yet realistic framework based on first principles for the complex mechanisms by which various climatic factors constrain plant growth in northern ecosystems.
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