遥感监测地表裸露度动态变化及其热环境效应

    Dynamic of exposed bare soils and its impact on local thermal environment

    • 摘要: 水土流失造成的地表大面积裸土分布严重影响了区域生态环境,其表现之一就是导致了地表温度的上升。利用遥感技术对福建省长汀县水土流失区在1988-2010年间的地表裸露度变化及其热环境效应进行了研究,结果表明:通过近22a的水土流失治理,这些地区的地表裸露度降低了20.26%,高裸露面积减少了81.95%,土壤热通量降低了33.28%,综合热环境效应表现为裸露区温度逐渐下降,其与周边地区的温差降低了20.8%,区域热环境得到了改善。回归分析表明,地表裸露度每降低10%可使该区温度降低0.72~0.94℃,这一结果将对该区热环境的进一步改善提供定量的参考依据。

       

      Abstract: Large area exposure of bare soils caused by soil erosion has serious impact on the regional ecological environment, such as the rise of land surface temperature. As a typical reddish soil erosion region in southern China, the hilly areas in Changting county of Fujian province have been called flame hill areas, due to extensively exposed reddish soils and resultant hot weather in the areas. This study utilizes remote sensing technique to investigate dynamic of bare-soil exposure intensity and accompanied soil heat flux and land surface temperature (LST) changes during the period from 1988 to 2010 in main soil loss areas of the county. Results show that owing to the 22 yeas of treatment of soil loss, the bare-soil exposure intensity in the main soil loss areas has declined by 20.26%, the area of high exposure intensity has decreased by 81.95%, and the soil heat flux has reduced by 33.28%. All of these have contributed to the decrease in LST differences between exposed and vegetated areas by 20.8% during the study period. This indicates an improvement of thermal environment in the areas once severely exposed. Regression analysis suggests that each 10% decrement of bare-soil exposure intensity would reduce LST difference by 0.72-0.94℃.

       

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