陆地生态系统变化对气候变化的强迫和反馈

R. Betts
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引用次数: 20

摘要

植被变化通过强迫过程和反馈过程参与气候变化。据估计,过去净毁林造成的二氧化碳排放对2000年以前人为增加的二氧化碳总辐射强迫的贡献约为0.22 -0.51 Wm -2,总辐射强迫为1.46 Wm -2。据估计,毁林引起的全球平均地表反照率的增加将施加0至-0.2 Wm -2的辐射强迫,而土地利用产生的粉尘排放可能施加大约在+0.1至-0.2 Wm -2之间的辐射强迫。模拟显示,由于热带森林砍伐造成的潜热和感热通量的变化产生了其他局部变暖效应,这些效应无法用Wm -2辐射强迫来量化,并有可能通过大气环流的变化产生远程影响。随着热带森林砍伐继续迅速进行,地表反照率变化造成的辐射强迫作为测量地表物理性质变化造成的气候变化强迫的作用可能会减弱。尽管全球净毁林仍在继续,但用于气候变化预测的未来情景表明,化石燃料排放的二氧化碳可能继续以高于土地利用排放的速度增长,因此作为主要辐射强迫继续占主导地位。由于气候变化导致的全球土壤碳流失和亚马逊地区森林枯死所产生的反馈可能会加速二氧化碳的上升高达66%,亚马逊森林枯死也可能通过当地水循环的变化和粉尘排放的增加来发挥反馈作用。
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Forcings and feedbacks by land ecosystem changes on climate change
Vegetation change is involved in climate change through both forcing and feedback processes. Emissions of CO 2 from past net deforestation are estimated to have contributed approximately 0.22 -0.51 Wm -2 to the overall 1.46 Wm -2 radiative forcing by anthropogenic increases in CO 2 up to the year 2000. Deforestation-induced increases in global mean surface albedo are estimated to exert a radiative forcing of 0 to -0.2 Wm -2 , and dust emissions from land use may exert a radiative forcing of between approximately +0.1 and -0.2 Wm -2 . Changes in the fluxes of latent and sensible heat due to tropical deforestation are simulated to have exerted other local warming effects which cannot be quantified in terms of a Wm -2 radiative forcing, with the potential for remote effects through changes in atmospheric circulation. With tropical deforestation continuing rapidly, radiative forcing by surface albedo change may become less useful as a measure of the forcing of climate change by changes in the physical properties of the land surface. Although net global deforestation is continuing, future scenarios used for climate change prediction suggest that fossil fuel emissions of CO 2 may continue to increase at a greater rate than land use emissions and therefore continue to increase in dominance as the main radiative forcing. The CO 2 rise may be accelerated by up to 66% by feedbacks arising from global soil carbon loss and forest dieback in Amazonia as a consequence of climate change, and Amazon forest dieback may also exert feedbacks through changes in the local water cycle and increases in dust emissions.
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