Characteristics, drivers and feedbacks of global greening

Nature Reviews Earth & Environment Pub Date : 2019-12-09 DOI:10.1038/s43017-019-0001-x

Shilong Piao, Xuhui Wang, Taejin Park, Chi Chen, Xu Lian, Yue He, Jarle W. Bjerke, Anping Chen, Philippe Ciais, Hans Tømmervik, Ramakrishna R. Nemani, Ranga B. Myneni

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引用次数: 722

Abstract

Vegetation greenness has been increasing globally since at least 1981, when satellite technology enabled large-scale vegetation monitoring. The greening phenomenon, together with warming, sea-level rise and sea-ice decline, represents highly credible evidence of anthropogenic climate change. In this Review, we examine the detection of the greening signal, its causes and its consequences. Greening is pronounced over intensively farmed or afforested areas, such as in China and India, reflecting human activities. However, strong greening also occurs in biomes with low human footprint, such as the Arctic, where global change drivers play a dominant role. Vegetation models suggest that CO2 fertilization is the main driver of greening on the global scale, with other factors being notable at the regional scale. Modelling indicates that greening could mitigate global warming by increasing the carbon sink on land and altering biogeophysical processes, mainly evaporative cooling. Coupling high temporal and fine spatial resolution remote-sensing observations with ground measurements, increasing sampling in the tropics and Arctic, and modelling Earth systems in more detail will further our insights into the greening of Earth. Vegetation on Earth is increasing, potentially leading to a larger terrestrial carbon sink. In this Review, we discuss the occurrence of this global greening phenomenon, its drivers and how it might impact carbon cycling and land-atmosphere heat and water fluxes.

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全球绿化的特点、驱动因素和反馈作用

至少自 1981 年卫星技术实现大规模植被监测以来，全球植被绿度一直在增加。植被变绿现象与气候变暖、海平面上升和海冰减少一起，成为人类活动导致气候变化的可靠证据。在本综述中，我们将研究绿化信号的探测、其原因和后果。在中国和印度等精耕细作或植树造林地区，绿化现象非常明显，这反映了人类活动。然而，在北极等人类足迹较少的生物群落中也出现了强烈的绿化现象，全球变化驱动因素在这些地区发挥了主导作用。植被模型表明，在全球范围内，二氧化碳施肥是绿化的主要驱动因素，在区域范围内，其他因素也很重要。模型显示，绿化可以通过增加陆地碳汇和改变生物地球物理过程（主要是蒸发冷却）来减缓全球变暖。将高时间分辨率和高空间分辨率遥感观测与地面测量结合起来，增加热带和北极地区的取样，并对地球系统进行更详细的建模，将进一步加深我们对地球绿化的认识。地球上的植被正在增加，这可能会导致更大的陆地碳汇。在这篇综述中，我们将讨论这一全球绿化现象的发生、其驱动因素以及它可能如何影响碳循环和陆地-大气热量与水通量。

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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Nature Reviews Earth & Environment

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