GIS-mapping spatial distribution of soil salinity for Eco-restoring the Yellow River Delta in combination with Electromagnetic Induction

文献类型: 外文期刊

第一作者: Li, Jinbiao

作者: Li, Jinbiao;Zhang, Xuechen;Lv, Zhenzhen;Yang, Jingsong;Yu, Shipeng;Wang, Xiuping;Shao, Hongbo;Shao, Hongbo

作者机构:

关键词: Soil salinity;Electromagnetic induction;Spatial distribution;The Yellow River delta;Eco-restoration

期刊名称:ECOLOGICAL ENGINEERING ( 影响因子:4.035; 五年影响因子:4.611 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Soil salinization is one of serious ecological problems around the world, which seriously restricts the stability of ecosystem and the economic development of agriculture. Mapping and monitoring spatial distribution of soil salinity is important for management of ecology and agriculture. This study was carried out to explore the spatial distribution of soil salinity in the Yellow River Delta using the portable device EM38-MK2 with geostatistical analysis. Apparent soil electrical conductivities were measured under four kinds of measurement modes (0.5H, 0.5 V, 1.0H and 1.0 V, respectively). The results revealed that electrical conductivity of 1:5 soil to water extract (ECe) varied from 0.965 to 1.872 dS m(-1) for all sampled soil profiles, and the salinity of topsoil was the highest, which indicated that soil soluble salts accumulated to the surface. The salinity in the top layer showed strong spatial variability while salinities of other layers were moderate. Soil salinity displayed a significant zonal distribution, gradually decreasing with the increase of distance to the coastline. The regions with high ECa values were located in the north and the east of the study area, whereas regions with low ECa values were located in the south and the west parts. The correlation coefficient showed that salinities of adjacent two soil layers reached a significant level of 0.01, and gradually decreased with increasing soil depth. The linear interpretation models with ECa as independent variables and ECe as dependent variables for each depth were with R-2 between 0.828 and 0.919. The interpretation models, taking ECa and ECe of 0-15 cm depth as independent variables, and ECe of each layer in 15-100 cm depth as dependent variables, were with higher R2 between 0.930 and 0.953. The mean error (ME) showed that there was small positive deviation in 40-100cm whereas a high positive deviation in the topsoil (0-40 cm). The scatter plots also indicated that the models had better accuracy of salinity estimation in the top soil layers (0-80 cm). The results provides solid basis for eco-restoring in the Yellow River delta. (C) 2016 Elsevier B.V. All rights reserved.

分类号: Q14`X171

  • 相关文献

[1]Estimating soil salinity in different landscapes of the Yellow River Delta through Landsat OLI/TIRS and ETM plus Data. Meng, Ling,Meng, Ling,Zhou, Shiwei,Zhang, Hua,Bi, Xiaoli.

[2]Dynamic sediment discharge in the Hekou-Longmen region of Yellow River and soil and water conservation implications. Gao, Peng,Deng, Jingcheng,Chai, Xueke,Mu, Xingmin,Zhao, Guangju,Sun, Wenyi,Shao, Hongbo,Shao, Hongbo.

[3]Detecting soil salinity with MODIS time series VI data. Zhang, Ting-Ting,Gao, Yu,Qi, Jia-Guo,Zeng, Sheng-Lan,Zhao, Bin. 2015

[4]Effects of Soil Salinity and Plant Density on Yield and Leaf Senescence of Field-Grown Cotton. Zhang, H. J.,Dong, H. Z.,Li, W. J.,Zhang, D. M.,Zhang, H. J.. 2012

[5]Lint yield and nitrogen use efficiency of field-grown cotton vary with soil salinity and nitrogen application rate. Zhang, Dongmei,Li, Weijiang,Xin, Chengsong,Tang, Wei,Eneji, A. Egrinya,Dong, Hezhong,Eneji, A. Egrinya. 2012

[6]Effects of soil salinity on rhizosphere soil microbes in transgenic Bt cotton fields. Luo Jun-yu,Cui Jin-jie,Zhou Zhi-guo,Zhang Shuai,Zhu Xiang-zhen,Lu Li-min,Wang Chun-yi,Li Chun-hua,Cui Jin-jie,Zhou Zhi-guo. 2017

[7]Assessing the effects of water table depth on water use, soil salinity and wheat yield: Searching for a target depth for irrigated areas in the upper Yellow River basin. Xu, Xu,Huang, Guanhua,Huang, Quanzhong,Hao, Yuanyuan,Xu, Xu,Huang, Guanhua,Huang, Quanzhong,Hao, Yuanyuan,Sun, Chen,Pereira, Luis S.,Ramos, Tiago B.. 2013

[8]Allocation of photosynthestically-fixed carbon in plant and soil during growth of reed (Phragmites australis) in two saline soils. Li, Ling,Qiu, Shaojun,Xu, Minggang,Li, Ling,Chen, Yinping,Zhao, Ximei,Xu, Xingliang,Christie, Peter.

[9]Over-expression of the Arabidopsis Na+/H+ antiporter gene in Populus deltoides CL x P. euramericana CL "NL895" enhances its salt tolerance. Qiao, Guirong,Zhuo, Renying,Liu, Mingying,Jiang, Jing,Li, Haiying,Qiu, Wenmin,Pan, Luanyin,Lin, Sheng,Zhang, Xiaoguo,Sun, Zongxiu,Lin, Sheng.

[10]Salinity Tolerance Mechanism of Economic Halophytes From Physiological to Molecular Hierarchy for Improving Food Quality. Xu, Chongzhi,Tang, Xiaoli,Shao, Hongbo,Wang, Hongyan,Shao, Hongbo,Wang, Hongyan,Wang, Hongyan. 2016

[11]Buried straw layer plus plastic mulching reduces soil salinity and increases sunflower yield in saline soils. Zhao, Yonggan,Li, Yuyi,Wang, Jing,Pang, Huancheng,Zhao, Yonggan,Li, Yan.

[12]Estimating plant root water uptake using a neural network approach. Qiao, D. M.,Pang, H. B.,Qi, X. B.,Qiao, D. M.,Shi, H. B.,Plauborg, F.. 2010

[13]Spatial distribution of light interception by different plant population densities and its relationship with yield. Huiyun Xue,Yingchun Han,Yabing Li,Guoping Wang,Lu Feng,Zhengyi Fan,Wenli Du,Beifang Yang,Cougui Cao,Shuchun Mao.

[14]Distribution and source identification of heavy metals in the sediments of a river flowing an urbanization gradient, Eastern China. Wu, Pengbao,Yang, Xiaohui,Zhang, Huan,Fan, Manman,Gao, Chao,Wu, Pengbao,Yin, Aijing. 2017

[15]Variable content and distribution of arabinogalactan proteins in banana (Musa spp.) under low temperature stress. Chen, Houbin,Wang, Yingying,Xu, Enfeng,Xie, Ling,Su, Zhaohua,Xu, Chunxiang,Takac, Tomas,Samaj, Jozef,Li, Xiaoquan. 2015

[16]Spatio-Temporal Trends and Identification of Correlated Variables with Water Quality for Drinking-Water Reservoirs. Gu, Qing,Zheng, Kefeng,Zhang, Xiaobin,Sheng, Li,Wang, Ke,Deng, Jinsong,Li, Jiadan,Ma, Ligang,Deng, Jinsong,Deng, Jinsong. 2015

[17]Variation in the distribution of wintering anchovy Engraulis japonicus and its relationship with water temperature in the central and southern Yellow Sea. Niu Mingxiang,Wang Jun,Wang Jun,Niu Mingxiang,Wang Jun,Niu Mingxiang,Wang Jun. 2017

[18]Study of spatial distribution for the active ingredient in ibuprofen tablet based on near-infrared micro-imaging technology. Wang, Dong,Ye, Sheng Feng,Min, Shun Geng,Wang, Dong,Ding, Yun Sheng,Cao, Jin Li,He, Yue. 2011

[19]Concentration and composition of soil amino compounds in major Chinese croplands. Cao, Xiaochuang,Zhong, Chu,Zhu, Lianfeng,Zhang, Junhua,Jin, Qianyu,Ma, Qingxu,Wu, Lianghuan,Zhu, Yuanhong.

[20]A spatial analysis of trophic composition: a case study of hairtail (Trichiurus japonicus) in the East China Sea. Liu, Yong,Cheng, Jiahua,Liu, Yong,Chen, Yong.

作者其他论文 更多>>

微信小程序