Hani rice terraces system is one of the Globally Important Agricultural Heritage Systems (GIAHS) pilot sites selected by FAO. Soil nutrients are an important symbol of soil fertility, and play an important role in the sustainable utilization of land. Based on geo-statistics and GIS, the spatial variation of pH, organic matter, total nitrogen, alkaline hydrolyzable nitrogen, available phosphorus and available potassium in the soil in Yisa (a town in Honghe County, Yunnan Province) was studied. The results show that the spatial variability of pH, organic matter, total nitrogen, alkaline hydrolyzable nitrogen and available potassium exhibited medium spatial variability, and the coefficients of variation are 12.54%, 40.14%, 40.00%, 34.89%, and 40.00% respectively. Available phosphorus exhibited strong spatial variability, and the coefficient of variation is 102.13%. The spatial variation of pH, organic matter, total nitrogen, alkaline hydrolyzable nitrogen and available potassium fit the index mode, however, the spatial variation of available phosphorus fits the spherical model. Total nitrogen, available phosphorus and available potassium were greatly affected by soil structural factors, while pH, organic matter and alkaline hydrolyzable nitrogen were affected by both structural and random factors. The spatial distribution of soil nutrients in Yisa was intuitively characterized by Kriging interpolation. It is very important to understand the spatial distribution of soil nutrients, which will provide the guidance for adjusting agricultural management measures such as fertilization.
LI Jing, MIN Qingwen, LI Wenhua, BAI Yanying, Dhruba Bijaya G. C., YUAN Zheng
. Spatial Variability Analysis of Soil Nutrients Based on GIS and Geostatistics: A Case Study of Yisa Township, Yunnan, China[J]. Journal of Resources and Ecology, 2014
, 5(4)
: 348
-355
.
DOI: 10.5814/j.issn.1674-764x.2014.04.010
Bai J H, Yu G F, Wang G P. 2001. Application of geo-statistics in spatial heterogeneity of soil nutrients in wetlands. Agro-environmental Protection, 20(5):311-314. (in Chinese)
Bouma J, P A Finke. 1993. Origin and nature of soil resource variability. In: Bert P C R, R H Rust, W E Larson (Eds.). Soil Specific Crop Management. Madison, Wisconsin: ASA, CSSA, SSSA, 3-14.
Cattle S R, A J Koppi, A B McBratney. 1994. The effect of cultivation on the properties of a rhodoxeralf from the wheat/sheep belt of New South Wales. Geoderma, 63:215-225.
Chien Y J, Lee D-Y, Guo H-Y, et al. 1997. Geostatistical analysis of soil properties of mid-west Tai Wan soil. Soil Science, 162(4):151-162.
Eghball B, J S Schepers. 2003. Spatial and temporal variability of soil nitrate and corn yield. Agronomy Journal, 95(2):339-346.
Gao Y R, Xu H W, Zhou B. 2005. Investigation on spatial variability of soil nutrients in paddy field. Chinese Journal of Soil Science, 36(6):822-825. (in Chinese)
Hu K L, Li B G, Lin Q M, et al. 1999. Spatial variability of soil nutrient in wheat field. Transactions of the ChineseSsociety of Agricultural Engineering, 15(3):33-38. (in Chinese)
Li J M, Li S X. 1998. Spacial variations of some nutrient elements in soil. Agricultural Research in the Arid Areas, 16(2):58-64. (in Chinese)
Li X Y, Lei T W, Wang W. 2000. Spatial variability of field soil properties and Kriging Method. Journal of Northwest Agricultural University, 28(6):30-35. (in Chinese)
Liu L, Zeng F P, Song T Q, et al. 2010. Spatial heterogeneity of soil nutrients in Karst area's Mulun National Nature Reserve. Chinese Journal of Applied Ecology, 21(7):1667-1673. (in Chinese)
Qiu K Y, Xie Y Z, Xu D M, et al. 2010. Spatial heterogeneity of soil nutrients in the critical area of desertification in Southern Mu Us Sandy Land. Acta Ecologica Sinica, 30(22):6052-6062. (in Chinese)
Si J H, Feng Q, Yu T F, et al. 2009. Spatial heterogeneity of soil nutrients in Ejina oasis. Chinese Journal of Ecology, 28(12):2600-2606. (in Chinese)
Sun B, Zhao Q G, Lu G N. 2002. Spatio-temporal variability of red soil fertility in low hill region. Acta Pedologica Sinica, 39(2):190-198. (in Chinese)
Wang G L, Liu G B, Xu M X. 2001a. Effect of vegetation restoration on soil nutrient changes in Zhifanggou watershed of loess hilly region. Bulletin of Soil and Water Conservation, 22(1):1-51. (in Chinese)
Wang J, Fu B J, Qiu Y, et al. 2001b. Soil nutrients in relation to land use and landscape position in the sem-arid small catchment on the Loess Plateau in China. Journal of Arid Environments, 48(4):537-5501. (in Chinese)
Wang J, Fu B J, Qiu Y, et al. 2002. Spatial heterogeneity of soil nutrients in a small catchment of the Loess Plateau. Acta Ecologica Sinica, 22(8):1173-1178. (in Chinese)
Wang J, Fu B J, Qiu Y, et al. 2003. Spatial distribution patterns of soil nutrients in a small catchment of the Loess Plateau - Kriging method. Geographical Research, 22(3):373-379. (in Chinese)
Wang Z Q. 1999. Statistics and its application in ecology. Beijing: Science Press. (in Chinese)
Yao L X, Zhou X C, Cai Y F, et al. 2005. Spatial variability and required proper sample numbers of soil nutrients in banana orchard. Chinese Journal of Soil Science, 36(2):169-171. (in Chinese)
Zhang M, He P F, Chen W Q. 2010. Spatio-temporal variability analysis of soil nutrients based on GIS and Geostatistics. Journal of Northeast Agricultural University, 41(3):53-58. (in Chinese)
Zhang Y S. 1998. Quantitative spatial analysis of soil properties in a large scale. Acta Agriculture Boreali-Sinica, 30(22):6052-6062. (in Chinese)