R. Ciampalini, E. Kendon, J. Constantine, Marcus Schindewolf, I. Hall
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引用次数: 0
摘要
气候变化可能导致重大的环境和社会影响;例如,降雨的数量和强度的增加与洪水的可能性有关。英国21世纪的气候变化模拟显示,强降水的增加可能会增加地表径流的可能性,从而导致大面积的土壤流失。本研究利用一个1.5公里(“允许对流”)区域气候模式的每小时高分辨率降雨预估,模拟了英格兰西苏塞克斯“Rother”流域本世纪两个时期(1996-2009年和未来13年至2100年)的土壤侵蚀响应。利用erosion 3D对土壤侵蚀进行建模,我们发现本世纪末泥沙产量(场外侵蚀)普遍增加了约43.2%,流域平均从0.176 t ha−1 y−1增加到0.252 t ha−1,不同土地利用地区之间差异很大。这些结果强调了在评估长期土壤侵蚀时,使用高分辨率降雨预估比其他现有方法更好地解释空间变异性的有效性。
Soil Erosion in a British Watershed under Climate Change as Predicted Using Convection-Permitting Regional Climate Projections
Climate change can lead to significant environmental and societal impacts; for example, through increases in the amount and intensity of rainfall with the associated possibility of flooding. Twenty-first-century climate change simulations for Great Britain reveal an increase in heavy precipitation that may lead to widespread soil loss by rising the likelihood of surface runoff. Here, hourly high-resolution rainfall projections from a 1.5 km (‘convection-permitting’) regional climate model are used to simulate the soil erosion response for two periods of the century (1996–2009 and a 13-year future period at ~2100) in the “Rother” catchment, West Sussex, England. Modeling soil erosion with EROSION 3D, we found a general increase in sediment production (off-site erosion) for the end of the century of about 43.2%, with a catchment-average increase from 0.176 to 0.252 t ha−1 y−1 and large differences between areas with diverse land use. These results highlight the effectiveness of using high-resolution rainfall projections to better account for spatial variability in the assessment of long-term soil erosion than other current methods.
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