在北方生态系统中,叶期对自然变暖和降温的非对称响应。

IF 2.2 Q2 MULTIDISCIPLINARY SCIENCES PNAS nexus Pub Date : 2023-09-19 eCollection Date: 2023-09-01 DOI:10.1093/pnasnexus/pgad308
Lei He, Jian Wang, Philippe Ciais, Ashley Ballantyne, Kailiang Yu, Wenxin Zhang, Jingfeng Xiao, François Ritter, Zhihua Liu, Xufeng Wang, Xiaojun Li, Shouzhang Peng, Changhui Ma, Chenghu Zhou, Zhao-Liang Li, Yaowen Xie, Jian-Sheng Ye
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引用次数: 0

摘要

北半球经历了区域性降温,特别是在全球变暖中断期间(1998-2012年),由于海洋能量再分配。然而,缺乏对自然冷却效应的研究阻碍了我们对植被对气候变化反应的理解。利用自20世纪50年代以来3620个地点的15125个地面酚学时间序列和覆盖变暖间歇期的31年卫星绿色度观测(1982-2012),我们发现叶片起始日期对自然冷却的响应比对变暖的响应更强,即1°C冷却引起的LOD延迟大于1°C变暖时LOD的提前。这可能是因为冷却导致叶片开始生长需要更大的冷藏积累和加热,但这种非对称LOD响应被与变暖相关的干燥部分抵消。此外,就基于卫星的绿色度和生产力而言,春季绿化幅度对变暖地区的LOD变化比对降温地区更敏感。这些结果强调了在预测植被气候反馈时考虑春季绿化对变暖和降温的非对称响应的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Non-symmetric responses of leaf onset date to natural warming and cooling in northern ecosystems.

The northern hemisphere has experienced regional cooling, especially during the global warming hiatus (1998-2012) due to ocean energy redistribution. However, the lack of studies about the natural cooling effects hampers our understanding of vegetation responses to climate change. Using 15,125 ground phenological time series at 3,620 sites since the 1950s and 31-year satellite greenness observations (1982-2012) covering the warming hiatus period, we show a stronger response of leaf onset date (LOD) to natural cooling than to warming, i.e. the delay of LOD caused by 1°C cooling is larger than the advance of LOD with 1°C warming. This might be because cooling leads to larger chilling accumulation and heating requirements for leaf onset, but this non-symmetric LOD response is partially offset by warming-related drying. Moreover, spring greening magnitude, in terms of satellite-based greenness and productivity, is more sensitive to LOD changes in the warming area than in the cooling. These results highlight the importance of considering non-symmetric responses of spring greening to warming and cooling when predicting vegetation-climate feedbacks.

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