Spatial variation analysis of soil moisture and salinity in Tianjin Binhai New Area
YANG Xiaoxiao1, WANG Xiulan1, WANG Jiping2, FAN Chenchen1, LI Huijie1
1. Beijing Key Laboratory of Precision Forestry, Beijing Forestry University, 100083, Beijing, China;
2. Research Center of Saline and Alkali Land of State Forestry Administration, Chinese Academy of Forestry, 100091, Beijing, China
Abstract:[Background] As the economic center of the Bohai Bay region,Tianjin Binhai New Area has the problem of soil salinization,which is outstanding. It is one of the factors restricting its sustainable development of social economy and ecological environment construction. Understanding the state of soil moisture and salinity differentiation and its spatial distribution are the basis for soil prevention and sustainable use of land resources. It is of great significance to carry out research on soil salinization in Binhai New Area,Therefore,The paper takes Tianjin Binhai New Area as the study area.[Methods] The paper used GF-1 as the data source and obtained the land use types of the study area by the method of supervised classification. Soil samples of 0-20 cm and 20-40 cm in the study area were obtained from field investigation and the data of soil moisture and salinity were obtained through laboratory analysis. The paper combined classical statistics with geostatistics and GIS technology to study spatial variability and spatial distribution of soil moisture and salinity in different soil depth and land use types.[Results] 1) Soil salinity content showed a great variability and soil moisture showed a moderate variability in each soil layer. With soil depth increasing,the variability of soil moisture and salinity gradually decreased. Soil salinity variability was greater than soil moisture. 2) Soil salinity showed moderate spatial relation in the depth of 0-20 cm soil layer and strong spatial relation in 20-40 cm soli layer. Soil moisture showed strong spatial relation. With the increase of soil depth, the spatial correlation of soil moisture and salinity increased. The spatial correlation of soil moisture was greater than soil salinity. 3) As soil depth increasing,soil salinity and moisture content increased. The soil salinity decreased from northeast to southwest,showing a spatial distribution of strips and local patches. With the distance from the Bohai Sea increasing,the soil salinity decreased. From the northeastern to the southwest,the overall soil moisture content decreased first and then increased.[Conclusions] The spatial variability of soil salinity in the study area is greater than soil moisture and the variability is strengthened with the increase of soil depth. The vertical trend of soil moisture and salinity is consistent with the overall area in different land use. The results can provide theoretical basis for improvement of saline-alkali land、vegetation restoration and land use optimization in Binhai New Area.
杨晓潇, 王秀兰, 王计平, 范晨晨, 李慧杰. 天津市滨海新区土壤水盐空间变异分析[J]. 中国水土保持科学, 2019, 17(3): 39-47.
YANG Xiaoxiao, WANG Xiulan, WANG Jiping, FAN Chenchen, LI Huijie. Spatial variation analysis of soil moisture and salinity in Tianjin Binhai New Area. SSWC, 2019, 17(3): 39-47.
王佳丽,黄贤金,钟太洋,等. 盐碱地可持续利用研究综述[J]. 地理学报,2011,66(5):673. WANG Jiali,HUANG Xianjin,ZHONG Taiyang,et al. Review on sustainable utilization of salt-affected land[J]. Acta Geographica Sinica, 2011,66(5):673.
[2]
田冬,桂丕,李化山,等. 不同改良措施对滨海重度盐碱地的改良效果分析[J]. 西南农业学报, 2018,31(11):2366. TIAN Dong,GUI Pi,LI Huashan,et al. Effect of different measures on improvement of seashore saline alkali land[J]. Southwest China Journal of Agricultural Sciences,2018,31(11):2366.
寇薇. 内蒙古河套灌区土壤水盐空间变异性研究[D]. 兰州:西北师范大学, 2008:9. KOU Wei. Study on spatial variability of soil water and salinity in Hetao district in Inner Mongolia,China[D]. Lanzhou:Northwest Normal University,2008:9.
[5]
苏新礼,张志芳. 青铜峡灌区土壤盐化与水盐均衡问题探析[J]. 宁夏农林科技,2011,52(12):222. SU Xinli,ZHANG Zhifang. Analysis on soil salinization and balance of water and salt in Qingtongxia irrigation district[J]. Ningxia Journal of Agri. and Fores. Sci.& Tech,2011,52(12):222.
[6]
周在明. 环渤海低平原土壤盐分空间变异性及影响机制研究[D]. 北京:中国地质科学院,2012:135. ZHOU Zaiming. Spatial variability and its effect mechanism of soil salinity in the low plain around the Baohai Sea[D]. Beijing:Chinese Academy of Geological Sciences,2012:135.
[7]
PANAGOPOULOS T,JESUS J, ANTUNES M D C,et al. Analysis of spatial interpolation for optimising management of a salinized field cultivated with lettuce[J]. European Journal of Agronomy, 2006,24(1):1.
[8]
WEINDORF D C,ZHU Y.Spatial Variability of Soil properties at Capulin Volcano,New Mexico,USA:Implications for sampling strategy[J]. Pedosphere,2010,20(2):185.
李敏,李毅,曹伟,等. 不同尺度网格膜下滴灌土壤水盐的空间变异性分析[J]. 水利学报,2009,40(10):1210. LI Min,LI Yi,CAO Wei,et al. Spatial variability of soil moisture and salt content at different sampling grid scales under plastic mulch drip irrigation[J]. Journal of Hydraulic Engineering,2009,40(10):1210.
[11]
王卓然,赵庚星,高明秀,等. 黄河三角洲垦利县夏季土壤水盐空间变异及土壤盐分微域特征[J]. 生态学报,2016,36(4):1040. WANG Zhuoran,ZHAO Gengxing,GAO Mingxiu,et al. Spatial variation of soil water and salt and microscopic variation of soil salinity in summer in typical area of the Yellow River Delta in Kenli county[J]. Acta Ecologica Sinica,2016,36(4):1040.
[12]
徐英,陈亚新,史海滨,等. 土壤水盐空间变异尺度效应的研究[J]. 农业工程学报,2004,20(2):1. XU Ying,CHEN Yaxin,SHI Haibin,et al. Scale effect of spatial variability of soil water-salt[J]. Transactions of the CSAE,2004,20(2):1.
[13]
吴向东. 滨海盐碱地田块尺度土壤水盐空间变异的初步研究[D]. 西安:长安大学,2012:57. WU Xiangdong. A preliminary study on field-scale spatial variability of soil water and salinity in coastal saline soils[D]. Xi'an:Chang'an University,2012:57.
[14]
柴晨好,王玉刚,周宏飞,等. 干旱区典型绿洲水库库周土壤盐分空间分异及盐岛效应[J]. 生态学杂志,2018,37(8):2445. CHAI Chenhao,WANG Yugang,ZHOU Hongfei,et al. Spatial variability of soil salinity and "salt island" effect around oasis reservoir in arid area[J]. Chinese Journal of Ecology,2018,37(8):2445.
[15]
刘小京. 环渤海缺水区盐碱地改良利用技术研究[J]. 中国生态农业学报,2018,26(10):1521. LIU Xiaojing. Reclamation and utilization of saline soils in water-scarce regions of Bohai Sea[J]. Chinese Journal of Eco-Agriculture,2018,26(10):1521.
[16]
周胜利. 基于滨海盐碱地综合改良技术的植物景观构建研究[J]. 现代园艺,2018(11):127. ZHOU Shengli. Study on plant landscape construction based on comprehensive improvement technology of coastal saline-alkali land[J]. Xiandai Horticulture,2018(11):127.
[17]
许砚梅,桑恺璇. 滨海盐碱地景观生态化设计初探[J]. 现代园艺,2018(7):115. XU Yanmei,SANG Kaixuan. Preliminary study on landscape ecological design of coastal saline-alkali land[J]. Xiandai Horticulture 2018(7):115.
[18]
季洪亮,路艳. 滨海盐碱地生态修复效果评价[J]. 西北林学院学报,2017,32(2):301. JI Hongliang,LU Yan. Evaluation of the Eco-restoration effect on coastal saline-alkali soil[J]. Journal of Northwest Forestry University,2017,32(2):301.
[19]
孙运朋,陈小兵,张振华,等. 滨海棉田土壤盐分时空分布特征研究[J]. 土壤学报,2013,50(5):891. SUN Yunpeng,CHEN Xiaobin,ZHANG Zhenhua,et al. Temporal-spatial distribution of soil salt in coastal cotton field soil[J]. Acta Pedologica Sinica,2013,50(5):891.
[20]
朱金籴,郭世文,杨永利,等. 天津滨海开发区绿地土壤盐分时空变异特征[J]. 农业工程学报,2016,32(S2):161. ZHU Jindi,GUO Shiwen,YANG Yongli,et al. Temporal-spatial variability of soil salinity in greenspace of Tianjin Binhai Economic-Technological Development Area[J]. Transactions of the CSAE,2016,32(S2):161.
[21]
张瑜斌,邓爱英,庄铁诚,等. 潮间带土壤盐度与电导率的关系[J]. 生态环境,2003(2):164. ZHANG Yubin,DENG Aiying,ZHUANG Tiecheng,et al. Relation between soil salinity in intertidal zone and electric conductivity[J]. Ecology and Environmental Sciences,2003(2):164.
[22]
王艳,王正祥,廉晓娟,等. 天津滨海地区土壤电导率的测定及其与含盐量的关系[J]. 天津农业科学,2011,17(2):18. WANG Yan,WANG Zhengxiang,LIAN Xiaojuan,et al. Measurement of soil electric conductivity and relationship between soluble salt content and electrical conductivity in Tianjin Coastal Area[J]. Tianjin Agricultural Sciences,2011,17(2):18.
王全九,毕磊,张继红. 新疆包头湖灌区农田土壤水盐热特性空间变异特征[J]. 农业工程学报,2018,34(18):138. WANG QuanJiu,BI Lei,ZHANG JiHong. Spatial variability analysis of large-scale soil water,salt and heat characteristics in Baotou lake irrigation area of Xinjiang[J]. Transactions of the CSAE,2018,34(18):138.
2019, Vol. 17 
