Functional group and aridity regulate impacts of climate change on plant phenology: a meta-analysis

干旱 降水 物候学 气候变化 全球变暖 福布 生态学 环境科学 功能群 抗性(生态学) 生物 全球变暖的影响 全球变化 适应(眼睛) 生态系统 农学 植物功能类型 大气科学 植物种类 气候学 平均辐射温度 耐旱性 干旱指数 沙漠气候 宏观生态学 适应
作者
Jianping Sun,Wangwang Lv,Shiping Wang,Amy M. Iler,Fandong Meng,Bowen Li,Yang Zhou,Jingya Lv,F. Yuan,Caiyun LUO,Josep Penuelas,Tandong Yao,Shilong Piao
出处
期刊:Nature Communications [Nature Portfolio]
卷期号:17 (1): 1522-1522 被引量:2
标识
DOI:10.1038/s41467-025-68242-x
摘要

The interaction between temperature and precipitation greatly affects plant phenology. However, these effects can vary between additive, antagonistic, and synergistic, and it is not clear what determines these different outcomes. One hypothesis is that the effect on plant phenology varies with aridity and plant functional group. Here, we find support for this hypothesis using a global meta-analysis on the timing of leaf-out (2178 values from 55 experimental sites) and flowering (4027 values from 117 experimental sites). We find that, globally, the onset of leaf-out is more influenced by water availability than by temperature, while first flowering is more affected by temperature than by precipitation. On its own, warming advances leaf-out for all functional groups (except in semi-humid regions), whereas warming combined with decreased precipitation delays leaf-out in semi-arid regions. Warming also advances flowering across all functional groups, regardless of changes in precipitation and aridity. We observe synergistic effects of warming and precipitation on leaf-out for forbs in semi-arid regions, while antagonistic effects occur for grasses and sedges except in arid regions. Our findings suggest that considering drought tolerance or resistance of plants across ambient climates is critical for improving our understanding and predictions of how plant phenology responds to climate change. Shifts in phenology can significantly impact organism fitness, ecosystem function, and the provision of ecosystem goods and services. Through a global meta-analysis, this study shows how shifts in the timing of leaf-out and first flowering due to warming and precipitation changes depend on plant functional group and climate region.
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