| Citation: |
YUAN Lei, WU Tingwen, HAN Shuangbao, ZHANG Qiuxia, LI Fucheng. 2021. Spatial Variability and Influencing Factors of Soil Water-Soluble Salt in Inner Mongolia Plateau. Northwestern Geology, 54(4): 192-198. doi: 10.19751/j.cnki.61-1149/p.2021.04.015
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Spatial Variability and Influencing Factors of Soil Water-Soluble Salt in Inner Mongolia Plateau
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Abstract
The eastern Inner Mongolia Plateau is the nation's transitional area of different terrains, from semi-arid to semi humid. The rapid development of agriculture in the past two decades has significantly changed the groundwater circulation and soil salt accumulation conditions of the basin. This study analyzed the spatial distribution, influencing factors and ecological changes of soil water-soluble salt in the watershed of Angulinao based on the multivariate statistics. The results show that Cl- and Na+ are the main anions and cations of soil water-soluble salts in the study area, which is in the early stage of soil salt accumulation. Most of the soil water-soluble salts have intense spatial variation, especially na+, cl-, so42-, co32- with high solubility and migration have obvious accumulation effect along the groundwater flow direction. Na+, Cl-, SO42- contribute about 60% of the total salt content. The data show that soil salinization frequently occurs in the area where the groundwater depth is less than 1m, the groundwater salinity is greater than1g/L, and the groundwater hydraulic gradient is less than 3×10-4. In the drainage area, the lakes dry up and the ecological environment degenerates because of the groundwater overdraft and the agricultural irrigation in the runoff area. Besides, the runoff area has the risk of secondary soil salinization. -
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References
李玉义, 张凤华, 潘旭东, 等.新疆玛纳斯河流域不同地貌类型土壤盐分累积变化[J]. 农业工程学报, 2007, 23(02):60-64. LI Yuyi, ZHANG Fenghua, PAN Xudong, et al. Changes of salt accumulation in soil layers with different landforms in Manas River Valley in Xinjiang Region of China[J]. Transactions of the CSAE, 2007, 23(2):60-64. 葛广华, 殷彩云, 王家强, 等.塔里木河上游荒漠河岸林土壤水盐分布规律研究[J]. 西北林学院学报, 2016, 31(06):7-18. GE Guanghua, YIN Caiyun, WANG Jiaqiang, et al. Soil water salt distribution rule in desert riparian forests in the upstream of Tarim river[J]. Journal of Northwest Forestry University, 2016, 31(06):7-18. 王化齐, 黎志恒, 张茂省, 等.石羊河流域水资源开发的生态环境效应与国土空间优化[J]. 西北地质, 2019, 52(02):207-217. WANG Huaqi, LI Zhiheng, ZHANG Maosheng, et al. Eco-environmental impact caused by water resources exploration and land space optimization in Shiyang river basin.[J]. Northwestern Geology, 2019, 52(02):207-217. 李小倩, 夏江宝, 赵西梅, 等.不同潜水埋深下浅层土壤的水盐分布特征[J]. 中国水土保持科学, 2017, 15(02):43-50. LI Xiaoqian, XIA Jiangbao, ZHAO Ximei, et al. Water and salt distribution characteristics of shallow soil at different diving water levels[J]. Science of Soil and Water Conservation, 2017, 15(02):43-50. 陈丽娟, 冯起, 成爱芳.民勤绿洲土壤水盐空间分布特征及盐渍化成因分析[J]. 干旱区资源与环境, 2013, 27(11):99-105. CHEN Lijuan, FENG Qi, CHENG Aifang.Spatial distribution of soil water and salt contents and reasons of saline soils development in the Minqin Oasis.[J]. Journal of Arid Land Resources and Environment, 2013, 27(11):99-105. 聂浩刚, 王岷, 岳乐平, 等.浅析坝上地区土地沙漠化问题[J]. 西北地质, 2004, 37(03):83-90. NIE Haogang, WANG Min, YUE Leping, et al. A superficial analysis on sandy desertification problem in Bashang area.[J]. Northwestern Geology, 2004, 37(03):83-90. 袁磊, 张秋霞, 吴庭雯, 等.安固里淖内流区基岩地下水赋存特征及蓄水构造模式[J]. 科学技术与工程, 2020, 20(31):12745-12752. YUAN Lei, ZHANG Qiuxia, WU Tingwen, et al. Characteristics of Bedrock Groundwater Occurrence and Structural Model of Water Storage in Angulinao Inflow Area[J]. Science Technology and Engineering, 2020, 20(31):12745-12752. 赵望龙, 郭中领, 王仁德, 等.安固里淖干湖区土壤理化因子空间分布特征[J]. 湿地科学, 2016, 14(04):553-560. ZHAO Wanglong, GUO Zhongling, WANG Rende, et al. Spatial Distribution of Soil Physical and Chemical Factors in the Angulinao Playa[J]. Wetland Science, 2016, 14(04):553-560. 吴庭雯, 袁磊, 韩双宝, 等.安固里淖流域地下水水化学特征与水质评价[J]. 环境科学与技术, 2020, 43(03):198-205. WU Tingwen, YUAN Lei, HAN Shuangbao, et al. Hydrochemical characteristics and water quality evaluation of groundwater in Angulinao Basin[J]. Environmental Science & Technology, 2020, 43(3):198-205. 夏含峰, 谢洪波, 刘浩, 等.新疆伊犁河谷植被与地形地貌及地下水关系[J]. 长江科学院院报, 2018, 35(09):54-57. XIA Hanfeng, XIE Hongbo, LIU Hao, et al. Relations of Vegetation with Topography and Groundwater in Yili river Valley of Xinjiang[J]. Journal of Yangtze River Scientific Research Institute, 2018, 35(09):54-57. 张楠楠.河北省环京津地区现代农业发展研究[D]. 保定:河北农业大学, 2018. ZHANG Nannan.Research on the Development of Modern Agriculture in Heibei Area around Beijing and Tianjin[D]. Baoding:Agricultural University of Hebei, 2018. 徐超璇, 鲁春霞, 黄绍琳.张家口地区生态脆弱性及其影响因素[J]. 自然资源学报, 2020, 35(06):1288-1300. XU Chaoxuan, LU Chunxia, HUANG Shaolin.Study on ecological vulnerability and its influencing factors in Zhangjiakou area[J]. Journal of Natural Resources, 2020, 35(06):1288-1300. 王超, 高红真, 戴福, 等.安固里淖湿地退化机制研究[J]. 内蒙古农业大学学报(自然科学版), 2010, 31(02):116-119. WANG Chao, GAO Hongzhen, DAI Fu, et al. Study on degradation mechanism of Angulilake wetland[J]. Journal of Inner Mongolia Agricultural University(Science and Technology), 2010, 31(02):116-119. 王强民.干旱半干旱区地下水与植被生态相互作用研究[D]. 西安:长安大学, 2016. WANG Qiangmin.The Interactionbetween Groundwater and Vegetationin Arid and Semi-arid Area[D]. Xi'an:Changan University, 2016. Rahul Tripathi, A.K.Nayak, Mohammad Shahid, et al. Characterizing spatial variability of soil properties in salt affected coastal India using geo statistics and kriging[J]. Arabian Journal of Geosciences, 2015, 8(12):10693-10703. Forkutsa I, Sommer R.Shirokova Y, et al. Modeling irrigated cotton with shallow groundwater in the Aral Sea Basin of Uzbekistan:II.Soil salinity dynamics[J]. Irrigation Science, 2009, 27(4):319-330. -
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YUAN Lei, WU Tingwen, HAN Shuangbao, ZHANG Qiuxia, LI Fucheng. 2021. Spatial Variability and Influencing Factors of Soil Water-Soluble Salt in Inner Mongolia Plateau. Northwestern Geology, 54(4): 192-198. doi: 10.19751/j.cnki.61-1149/p.2021.04.015
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