乍得湖地区地表温度变化与耗水的时空评价

IF 0.3 Q4 REMOTE SENSING South African Journal of Geomatics Pub Date : 2019-10-09 DOI:10.4314/sajg.v8i2.3
P. Nwilo, A. A. Umar, M. Adepoju, C. Okolie
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引用次数: 1

摘要

乍得湖位于撒哈拉沙漠以南的干旱地区。由于湖泊周围不断增长的人口的基本需求、全球变暖和日益增长的灌溉需求,湖泊的水资源面临着严重的压力。大量的土地覆盖变化研究已经测量了湖泊地表水的消耗率。然而,该地区高温升高的影响,也是一个复合因素,却很少受到关注。在本研究中,通过土地覆盖分析对乍得湖1973-2017年地表水范围的变化进行了评估。还研究了地表温度升高对水分损失的潜在影响。土地覆盖的提取是使用最大似然分类法进行的。结果表明,1973年至1987年间,该湖失去了12796.81km2的地表水面积。这一时期恰逢20世纪70年代该湖地区出现的干旱和旱季。1987年至2003年间,地表水面积的平均温升和变化分别为+1.54˚C和+962.71km2。2003年至2017年间,地表水面积的平均温升和变化分别为+3.69˚C和-25.17km2。这些结果进一步证明了湖泊环境中惊人的水量损失率,并表明地表温度上升与湖泊水量减少之间存在联系。这些发现为解决该湖面临的生态问题提供了依据。
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Spatio-temporal assessment of changing land surface temperature and depleting water in the Lake Chad area
Lake Chad is located at the south of the Sahara Desert in an arid region. The lake’s water resources are under severe pressure due to the basic needs of the growing population around the lake, global warming, and increasing irrigation demands. Numerous land cover change studies have measured the rate of depletion of the lake’s surface water. However, the contribution of the increasing high temperatures in the region which is also a compounding factor has received little attention. In this study, an assessment of the changes in surface water extent of Lake Chad from 1973-2017 was carried out through a land cover analysis. The potential influence of the rising land surface temperatures on the water losses was also studied. The extraction of the land cover was done using maximum likelihood classification. The results show that between 1973 and 1987, the lake lost 12,796.81km2 of its surface water area. This period coincided with a season of drought and dry seasons reported to have occurred in the lake’s area during the 1970s. Between 1987 and 2003, average temperature rise and change in surface water area was +1.54˚C and +962.71km2 respectively. Between 2003 and 2017, average temperature rise and change in surface water area was +3.69˚C and -25.17km2 respectively. These results provide further evidence of the alarming rate of water loss in the lake’s environment, and suggest a link between rising land surface temperatures and diminution of the lake’s water. The findings inform efforts directed at addressing the ecological problem facing the lake.
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