Analysis of salinization dynamics by remote sensing in Hetao Irrigation District of North China |
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Authors: | Ruihong Yu Youpeng Xu Qing Zhang Xiaomin Liu |
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Institution: | a College of Environment and Resources, Inner Mongolia University, Hohhot, 010021 Inner Mongolia Autonomous Region, PR China b College of Water Conservancy and Civil Engineering, Inner Mongolia Agricultural University, Hohhot, 010018 Inner Mongolia Autonomous Region, PR China c School of Geographic and Oceanographic Sciences, Nanjing University, Nanjing, 210093 Jiangsu Province, PR China d College of Life Sciences, Inner Mongolia University, Hohhot, 010021 Inner Mongolia Autonomous Region, PR China |
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Abstract: | Remote sensing can provide base information for documenting salinity change and for predicting its future evolution trend. The spatial and temporal distributions of soil salinization of Jiefangzha Irrigation Sub-district, the western part of Hetao Irrigation District of Inner Mongolia in northern China, were determined through analysis of satellite-based remote sensing images. Three Landsat TM/ETM+ satellite images taken during 14 years (1991 ∼ 2005) coupled with field observations were chosen as the basic data sources. Supervised classification and visual interpretation were used to analyze salinity classification and statistical method was applied to analyze the relationship between salinity and groundwater depth. From 1991 to 2005 the area of heavy saline land decreased from 191 to 136 km2, or 3.9 km2 per year; the moderate saline land decreased from 318 to 284 km2, or 2.5 km2 per year; the slight saline land decreased from 510 to 394 km2, or 8.2 km2 per year. Therefore, soil salinization in Jiefangzha Irrigation Sub-district is decreasing in general. The electrical conductivity (EC) values measured from field have the following relationship with the reflectance composition obtained from LANDSAT Enhanced Thematic Mapper Plus (ETM+) data: EC = 5.653(band5 − band7)/(band5 + band7) + 0.246. In addition, an r2 value between EC values and groundwater depth is 0.72, which indicates groundwater depth is the major factor for the regional soil salinity control. The paper can serve as a theoretical reference for optimal allocation of irrigation water resource and salinization control in Hetao Irrigation District. |
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Keywords: | Salinization Spatial-temporal analysis Remote sensing Hetao Irrigation District |
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