Soil property mapping using fuzzy clustering method in small watershed of the red soil region in southern China: A case study of Zhuxi Watershed
Xie Jun, Qin Chengzhi, Xiao Guirong, Yang Lin, Lei Qiuliang, Liu Junzhi, Zhu Axing
1. Spatial Information Research Center of Fujian,Fuzhou University, 350002, Fuzhou, China; 2. State Key Laboratory of Resources and Environmental Information System, Institute of Geographic Sciences and Natural Resources Research, CAS, 100101, Beijing, China; 3. Jiangsu Center for Collaborative Innovation in Geographical Information Resource Development and Application and School of Geography, Nanjing Normal University, 210023, Nanjing, China; 4. Institute of Agricultural Resources and Regional Planning, Chinese Academy of Agricultural Sciences, 100081,Beijing, China; 5. Department of Geography, University of Wisconsin鄄Madison, 53706, WI, USA
Abstract:The detailed spatial distribution of soil properties which is essential for watershed modeling and scenario analysis,is mainly acquired through field soil sampling and digital soil mapping. Especially in the red soil region of southern China where the distribution of soil parent material is complex and with large spatial variability, the acquisition of detailed spatial distribution of soil properties is often one of the main bottlenecks in watershed modeling and scenario analysis, due to both the cost of field soil sampling soil sampling and predictive soil property mapping can effectively reduce the required number of soil samples and predict the detailed spatial distribution of soil properties. To explore the applicability of this method over the red soil region in southern China, we applied this method to conducting purposive soil samplingin a small,red-soil watershed (Zhuxi) in Fujian Province,and then predictive soil property mapping of sand content and organic matter content in the soil of 0 -20 cm at a spatial resolution of 5 m. A set of five topographic attributes ( i. e. , elevation, slope gradient, profile curvature, horizontal curvature, and topographic wetness index) were derived from the gridded digital elevation model with 5 m resolution and then were used as environmental variates. Fuzzy clustering method was applied to this set of topographic attributes and got the result of nine fuzzysoil-landscape classes. Purposive soil sampling was carried out at the center of each fuzzy soil-landscape class. Then the value of a soil property at each location can be predicted as the average of the soil property value at every purposive sampling pointweighted by the fuzzy membership value of the location to the fuzzy soil-landscape class represented by the purposive sampling point. The ordinary kriging method with 42 modeling points and a traditional method of linking the typical soil property value to soil-type polygon map were chosen as the comparative methods. Based on the validation with 30 random points independent with the modeling points, the fuzzy clustering method requires only a very few soil samples (only nine modeling points used to build the soil-landscape
model in this study), and can achieve better prediction accuracy based on the validation with an independent soil sample set. RMSE values of mapping results of sand content and organic matter content
in the soil of 0 - 20 cm are 13.81% and 12.56 g/ kg, respectively. And the predictive soil map from fuzzy clustering method can well reflect the spatial variation of the soil in the study area. Therefore, the fuzzy clustering method is applicable over the red soil region in southern China when the sampling cost of digital soil mapping can be significantly reduced.
谢军1,2,秦承志2,3,肖桂荣1,杨琳2,雷秋良4,刘军志3,朱阿兴2,3,5. 模糊聚类方法在南方红壤小流域土壤属性制图中的应用———以长汀朱溪河小流域为例[J]. 中国水土保持科学, 2015, 13(5): 132-139.
Xie Jun, Qin Chengzhi, Xiao Guirong, Yang Lin, Lei Qiuliang, Liu Junzhi, Zhu Axing. Soil property mapping using fuzzy clustering method in small watershed of the red soil region in southern China: A case study of Zhuxi Watershed. SSWCC, 2015, 13(5): 132-139.
2015, Vol. 13 
