引用本文: | 田 鑫,李瑞平,王思楠,等.基于VSWI和TVDI差异的河套灌区沈乌灌域耕地灌溉面积遥感监测[J].灌溉排水学报,2020,39(8):129-135. |
| ,et al.基于VSWI和TVDI差异的河套灌区沈乌灌域耕地灌溉面积遥感监测[J].灌溉排水学报,2020,39(8):129-135. |
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摘要: |
【目的】尝试利用遥感数据实现对河套灌区沈乌灌域灌溉面积的提取,为沈乌灌域现代化管理提供理论依据。【方法】利用Landsat-8数据对研究区域的植被供水指数VSWI、温度干旱指数TVDI进行反演,根据实测数据,构建基于VSWI和TVDI差异的灌溉面积监测模型,对沈乌灌域的灌溉面积进行遥感提取。【结果】2种模型具有较高的一致性,基于VSWI和TVDI的灌溉面积监测模型反演精度分别为85.3%和89.7%。【结论】证明了2种监测模型的可行性,同时发现基于TVDI差异的灌溉面积监测模型精度高于基于VSWI差异的灌溉面积监测模型。 |
关键词: 灌区管理;灌溉面积;遥感;VSWI;TVDI |
DOI:10.13522/j.cnki.ggps.2019273 |
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Using Remote Sensing to Estimate Irrigation Area in Shenwu Region in Hetao Irrigation District |
TIAN Xin , LI Ruiping, WANG Sinan, FAN Leilei, YU Minghui
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1. School of Water Conservancy and Civil Engineering, Inner Mongolia Agricultural University, Hohhot 010018, China;2.Weihai City Planning Technical Service Center Co., Ltd, Weihai 264200, China; 3.Inner Mongolia Autonomous Region Key Laboratory of Big Data Research and Application of Agriculture and Animal Husbandry, Hohhot 010018, China; 4.Weihai Land and Resources Geographic Information Center, Weihai 264200, China
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Abstract: |
【Background】China is the most populated country in the world but has limited cultivated land and scarce water resource. The total water resource in China is more than 2.7 trillion m3, one of the five water-richest countries in the world. The average for per capita, however, is only 2 263 m3, approximately one quarter of the world average. In all water consumed in China, 3/5 is for agriculture and more than 90% of it is used by irrigation. Apparently, 95% of irrigated farmlands in China use flooding or furrow irrigation with irrigation-water use efficiency in the range of 30%~40%. As the conflict between increasing demand for water and dwindling water resources worsens with the development in economy, re-distributing water resource between different sectors has become essential to safeguarding sustainable development in both agriculture and other industries, in which timely monitoring irrigation areas could provide baselines and has received increased attention recently.【Objective】The purpose of this paper is to test the feasibility of using remote sensing to estimate irrigation areas by taking Shenwu in Hetao Irrigation District as an illustrative example.【Method】Our analysis was based on the Landsat-8 data, from which we inversely calculated the vegetation water supply index (VSWI) and the temperature drought index (TVDI) respectively. Using ground-truth data, models linking irrigation areas to the VSWI index and the TVDI index were established respectively. The key in extracting irrigation areas from the satellite imageries was to select an index threshold to determine irrigation time. The models were used to analyze the irrigation areas in different land types. The irrigation time for the VSWI and TVDI models was determined based on the relationship between their associated index and drought level.【Result】Compared with ground-truth data, both models were capable of estimating irrigation areas, with the accuracy of the VSWI model and the TVDI model being 85.3% and 89.7% respectively.【Conclusion】We proved that models based on the TVDI and the VSWI are both able to estimate irrigation areas although the former was slightly more accurate than the latter. |
Key words: irrigation management; irrigation areas; remote sensing; VSWI; TVDI |