Gordon Line J, Steffen Will, Jönsson Bror F, Folke Carl, Falkenmark Malin, Johannessen Ase
Department of Systems Ecology, Stockholm University, SE-106 91 Stockholm, Sweden.
Proc Natl Acad Sci U S A. 2005 May 24;102(21):7612-7. doi: 10.1073/pnas.0500208102. Epub 2005 May 12.
It is well documented that human modification of the hydrological cycle has profoundly affected the flow of liquid water across the Earth's land surface. Alteration of water vapor flows through land-use changes has received comparatively less attention, despite compelling evidence that such alteration can influence the functioning of the Earth System. We show that deforestation is as large a driving force as irrigation in terms of changes in the hydrological cycle. Deforestation has decreased global vapor flows from land by 4% (3,000 km(3)/yr), a decrease that is quantitatively as large as the increased vapor flow caused by irrigation (2,600 km(3)/yr). Although the net change in global vapor flows is close to zero, the spatial distributions of deforestation and irrigation are different, leading to major regional transformations of vapor-flow patterns. We analyze these changes in the light of future land-use-change projections that suggest widespread deforestation in sub-Saharan Africa and intensification of agricultural production in the Asian monsoon region. Furthermore, significant modification of vapor flows in the lands around the Indian Ocean basin will increase the risk for changes in the behavior of the Asian monsoon system. This analysis suggests that the need to increase food production in one region may affect the capability to increase food production in another. At the scale of the Earth as a whole, our results emphasize the need for climate models to take land-use change, in both land cover and irrigation, into account.
有充分的文献记载,人类对水文循环的改变已深刻影响了液态水在地球陆地表面的流动。尽管有确凿证据表明,通过土地利用变化改变水汽流动会影响地球系统的功能,但这方面受到的关注相对较少。我们发现,就水文循环变化而言,森林砍伐与灌溉的驱动力一样大。森林砍伐使全球陆地水汽流动减少了4%(每年3000立方千米),这一减少量在数值上与灌溉导致的水汽流动增加量(每年2600立方千米)相当。尽管全球水汽流动的净变化接近于零,但森林砍伐和灌溉的空间分布不同,导致了水汽流动模式的重大区域转变。我们根据未来土地利用变化预测分析了这些变化,预测表明撒哈拉以南非洲地区将出现大面积森林砍伐,亚洲季风区农业生产将集约化。此外,印度洋盆地周边陆地水汽流动的显著改变将增加亚洲季风系统行为变化的风险。这一分析表明,一个地区增加粮食产量的需求可能会影响另一个地区增加粮食产量的能力。在全球尺度上,我们的研究结果强调气候模型需要考虑土地利用变化,包括土地覆盖和灌溉。