[1] Carillo MLK, Letey J, Yates SR. Measurement of initial soil-water contact angle of water repellent soils. Soil Science Society of America Journal, 1999, 63: 433-436 [2] Bachmann J, Horton R, Ploeg RR, et al. Modified sessile drop method of assessing initial soil-water contact angle of sandy soil. Soil Science Society of America Journal, 2000, 64: 564-567 [3] Doerr SH, Shakesby RA, Walsh RPD. Soil water repellency: Its causes, characteristics and hydro-geomorphological significance. Earth-science Reviews, 2000, 51: 33-65 [4] Chen J-Y (陈俊英), Wu P-T (吴普特), Zhang Z-T (张智韬), et al. Amelioration effect of water repellency by tillage. Journal of Drainage and Irrigation Machinery Engineering (排灌机械工程学报), 2012, 30(4): 479-484 (in Chinese) [5] Dekker LW, Ritsema CJ. How water moves in a water repellent sandy soil.1.Potential and actual water repellency. Water Resources Research, 1994, 30: 2507-2517 [6] Wallach R, Ben-Arie O, Graber ER. Soil water repellency induced by long-term irrigation with treated sewage effluent. Journal of Environmental Quality, 2005, 34: 1910-1920 [7] DeBano LF. Water repellency in soils: A historical overview. Journal of Hydrology, 2000, 231-232: 4-32 [8] Debano LF, Krammes JS. Water repellent soils and their relation to wildfire temperatures. International Association of Scientific Hydrology Bulletin, 1996, 2: 14-19 [9] Chau HW, Biswas A, Vujanovic V, et al. Relationship between the severity, persistence of soil water repellency and the critical soil water content in water repellent soils. Geoderma, 2014, 221-222: 113-120 [10] Nguyen HV, Nieber JL, Oduro P, et al. Modeling so-lute transport in a water repellent soil. Journal of Hydro-logy, 1999, 215: 188-201 [11] Li Y (李 毅), Shang Y-L (商艳玲), Li Z-H (李振华), et al. Advance of study on soil water repellency. Transactions of the Chinese Society for Agricultural Machinery (农业机械学报), 2012, 43(1): 68-75 (in Chinese) [12] Wu Y-L (吴延磊), Li Z-Z (李子忠), Gong Y-S (龚元石). Correlations of soil water repellency measurements from two typical methods. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2007, 23(7): 8-13 (in Chinese) [13] Liu C-C (刘春成), Li Y (李 毅), Guo L-J (郭丽俊), et al. Effect of brackish water irrigation on water and salt movement in repellent soils. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2011, 27(8): 39-45 (in Chinese) [14] Song H-Y (宋红阳), Li Y (李 毅), He C-S (贺缠生). Infiltration models for different textures of water-repellent soils. Journal of Drainage and Irrigation Machi-nery Engineering (排灌机械工程学报), 2013, 31(7): 629-635 (in Chinese) [15] Dekker LW, Jungerius PD. Water repellency in the dunes with special reference to the Netherlands. Catena, 1990, 18: 173-183 [16] Zhang P-P (张培培), Zhao Y-G (赵允格), Wang Y (王 媛), et al. Impact of biological soil crusts on soil water repellence in the hilly Loess Plateau region, China. Chinese Journal of Applied Ecology (应用生态学报), 2014, 25(3): 657-663 (in Chinese) [17] Li Y-Y (李玉义), Liu H-D (柳红东), Zhang F-H (张凤华), et al. Assessment on the effect of irrigation technology on soil salinization in Manas River valley, Xinjiang. Journal of China Agricultural University (中国农业大学学报), 2007, 12(1): 22-26 (in Chinese) [18] Guo L-J (郭丽俊), Li Y (李 毅), Li M (李 敏), et al. Spatial variability of soil water repellency and soil physical-chemical properties in saline-alkaline field. Acta Pedologica Sinica (土壤学报), 2011, 48(2): 278-285 (in Chinese) [19] Shao Z-Y (邵志一), Li Y (李 毅). Spatial variability in soil moisture and water repellency in Manasi River basin. Journal of Northwest A&F University (Natural Science) (西北农林科技大学学报: 自然科学版), 2016, 44(2): 206-213 (in Chinese) [20] Bao S-D (鲍士旦). Soil and Agricultural Chemistry Analysis. 3rd Ed. Beijing: China Agriculture Press, 2000 (in Chinese) [21] Lin D-Y (林大仪). Experimental Guidance of Soil Science. Beijing: China Forestry Press, 2004 (in Chinese) [22] Li M (李 敏). Spatial Variability of Fractal Dimensions for Soil Particle Size Distributions and Physical Properties. PhD Thesis. Yangling, Shaanxi: NorthwestA&F University, 2010 (in Chinese) [23] DeBano LF. Water Repellent Soils: A State-of-the-Art. Berkeley, California: United States Department of Agriculture, Forest Service, 1981 [24] Siebold A, Nardin M, Schultz J, et al. Effect of dynamic contact angle on capillary rise phenomena. Journal of Colloids and Surfaces, 2000, 161: 81-87 [25] Siebold A, Walliser A, Nardin M, et al. Capillary rise for thermodynamic characterization of solid particle surface. Journal of Colloid and Interface Science, 1997, 186: 60-70 [26] Washburn EW. The dynamics of capillary flow. Physical Review, 1921, 17: 273-283 [27] Bisdom EBA, Dekker LW, Schoute JF. Water repellency of sieve fractions from sandy soils and relationships with organic material and soil structure. Geoderma, 1993, 56: 105-118 [28] Ma’sham M, Tate ME, Jones GP, et al. Extraction and characterization of water-repellent materials from Australian soils. European Journal of Soil Science, 1988, 39: 99-110 [29] Chen J-Y (陈俊英), Zhang Z-T (张智韬), Wang Z-N (汪志农), et al. Influencing factors and merlioration of soil water repellency. Transactions of the Chinese Society for Agricultural Machinery (农业机械学报), 2010, 41(7): 84-89 (in Chinese) [30] McKissock I, Walker EL, Cilkers RJ, et al. The influence of clay type on reduction of water repellency by applied clays: A review of some West Australian work. Journal of Hydrology, 2000, 231-232: 323-332 [31] Leelamanie DAL, Karube J. Effects of organic compounds, water content and clay on the water repellency of a model sandy soil. Soil Science and Plant Nutrition, 2007, 53: 711-719 [32] Hurraβ J, Schaumann GE. Properties of soil organic matter and aqueous extracts of actually water repellent and wet table soil samples. Geoderma, 2007, 132: 222-239 |