参考文献

白晓宇，袁峰，周涛发，等.多重分形方法识别铜陵矿区土壤中Cd的地球化学异常[J].矿物岩石地球化学通报,2007,27 (3):306-310.

陈秉聪，佟金。土壤分形与土壤粘附[J].世界科技研究与发展,1999,2:34-36.

陈俊英，吴普特，张智韬，等.土壤斥水性对含水率的响应模型研究[J].农业机械学报,2012,43(1):63-67.

陈俊英，张智韬，汪志农。土壤斥水性影响因素及改良措施的研究进展[J].农业机械学报,2010,41(7):84-89.

陈世平，李毅，高金芳。覆膜开孔蒸发条件下不同斥水度土壤水盐变化规律[J].农业机械学报,2011,42 (5):86-91.

陈小勇，林鹏。我国红树植物分布的空间自相关分析[J].华东师范大学学报,2000,3:104-109.

陈亚新，史海滨，魏占民。土壤水盐信息空间变异的预测理论与条件模拟[M].北京：科学出版社,2005.

崔敏，宁召民，张志国。斥水性生长介质中湿润剂的使用[J].北方园艺,2007,6:72-73.

都国雄，宁宣熙。上海证券市场的多重分形特性分析[J].系统工程理论与实践,2007,10:40-47.

管孝艳，杨培岭，任树梅，等.基于多重分形理论的壤土粒径分布非均匀性分析[J].应用基础与工程科学学报,2009,17 (2):196-205.

郭丽俊，李毅，李敏，等.盐渍化农田土壤斥水性与理化性质的空间变异性[J].土壤学报,2011,48(2):277-285.

韩博，吕世华，奥银焕。西北戈壁区夏季一次降雨前后土壤温度变化规律分析[J].高原气象,2009,1:36-45.

黄冠华，詹卫华。土壤水分特性曲线的分形模拟[J].水科学进展,2002,13 (1):55-60.

姜秋香，付强，王子龙。空间变异理论在土壤特性分析中的应用研究进展[J].水土保持研究,2008,15(1):250-253.

蒋太明，刘海隆，刘洪斌，等.黄壤坡地土壤水分入渗垂直变异特征分析[J].水土保持学报,2004,18(3):49-56.

敬少群，王佳卫，童迎世。小波变换在少震弱震区地下水位数据分析中的应用[J].华南地震,2002,2(22):9-15.

雷志栋，杨诗秀，许志荣，等.土壤特性空间变异性初步研究[J].水利学报,1985,9:10-21.

李德成，张桃林。中国土壤颗粒组成的分形特征研究[J].土壤与环境,2000,9 (4):263-265.

李亮亮，依艳丽，凌国鑫。地统计学在土壤空间变异研究中的应用[J].土壤通报,2005,36 (2):265-268.

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):1210-1218.

李双成，高伟明，周巧富，等.基于小波变化的NDVI与地形因子多尺度空间相关分析[J].生态学报,2006,26 (12):4198-4203.

李新虎，张展羽，杨洁，等.基于自由搜索人工神经网络的坡地入渗量预测[J].农业工程学报,2009,25 (12):193-197.

李毅，李敏，曹伟，张江辉。农田土壤颗粒尺寸分布分维及颗粒体积分数的空间变异性[J].农业工程学报,2010,26 (1):94-102.

李毅，门旗，罗英。土壤水分空间变异性对灌溉决策的影响研究[J].干旱地区农业研究,2000,18(2):80-85.

李毅，商艳玲，李振华，等.土壤斥水性研究进展[J].农业机械学报,2012,43 (1):68-75.

李子忠，龚元石。不同尺度下田间土壤水分和混合电导率空间变异性与套合结构模型[J].植物营养与肥料学报,2001,7 (3):255-261.

李子忠，龚元石。农田土壤水分和电导率空间变异性及确定其采样数的方法[J].中国农业大学学报,2000,33 (5):59-66.

廖捷。小波分析在我国东部土壤湿度变化研究中的应用[J].长江流域资源与环境,2010,19 (Z2):188-192.

刘春成，李毅，任鑫，等.四种入渗模型对斥水土壤入渗规律的适用性[J].农业工程学报,2011,27(5):62-67 .

刘继龙，马孝义，张振华。土壤水盐空间异质性及尺度效应的多重分形[J].农业工程学报,2010,26(1):81-86.

刘世宾，李毅，贺缠生。斥水土壤的水力参数及水平入渗规律研究[J].排灌机械工程学报,2013,31(11):1000-1006.

刘小刚，赵慧洁，李娜。基于多重分形谱的高光谱数据特征提取[J].光学学报,2009,3:844-848.

鲁植雄，潘君拯。分维与土壤特性时空变异性研究进展[J].农业工程学报,1994,10 (9):14-19.

罗金明，王永洁，邓伟，等.基于小波分析的苏打盐渍土的水盐变化特征[J].土壤通报,2010,41(3):688-694.

屈忠义，陈亚新，史海滨，等.区域土壤水盐动态人工神经网络预测研究[J].灌溉排水学报,2002,21(4):40-44.

屈忠义，陈亚新，杨靖宇。人工神经网络在冻土水盐空间变异与条件模拟中的应用比较[J].农业工程学报,2007,23 (7):48-53.

任鑫，李毅，李敏，等.次生盐渍土垂向剖面斥水性及其与理化性质关系[J].农业机械学报,2011,42(3):58-64.

尚松浩，毛晓敏。基于BP神经网络的土壤冻结温度及未冻水含量预测模型[J].冰川冻土,2001,23(4):414-418.

沈掌泉，施洁斌，王珂，等.应用集成BP神经网络进行田间土壤空间变异研究[J].农业工程学报,2004,20 (3):35-39.

舒乔生，谢立亚。土壤水盐特性的空间尺度效应研究进展[J].土壤,2010,42 (4):513-518.

宋红阳，李毅，贺缠生。不同质地斥水土壤的入渗模型[J].排灌机械工程学报,2013,31 (7):629-635.

孙海清。降雨量与地下水埋深的小波分析——以广饶县井灌区为例[J].水土保持研究,2007,14 (2):55-58.

王金满，杨培岭，任树梅，等.基于人工神经网络的土壤溶质运移模拟与预测[J].沈阳农业大学学报,2004,35 (5-6):486-488.

王政权。地统计学及在生态学中的应用[M].北京：科学出版社,1999.

温惠英，邢康，沈芬。基于Moran模型的道路交通事故空间自相关特征分析[J].交通与计算机,2008,26 (3):31-37.

吴东杰，王金生，滕彦国。小波分解与变化法预测地下水位动态[J].水利学报,2004,5:39-45.

吴延磊，李子忠，龚元石。两种常用方法测定土壤斥水性结果的相关性研究[J].农业工程学报,2007,23 (7):8-13.

谢花林，刘黎明，李波，等.土地利用变化的多尺度空间自相关分析——以内蒙古翁牛特旗为例[J].地理学报,2006,61 (4):389-400.

谢淑云，鲍征宇。多重分形与地球化学元素的分布规律[J].地质地球化学,2003,31 (3):97-102.

颜永强，段文标，王晶。莲花湖库区水源涵养林土壤入渗性能的空间分布特征[J].中国水土保持科学,2008,6 (3):88-93.

杨邦杰,Blackwell P S,Nicholson D F.斥水土壤中的水热运动规律与数值模型[J].土壤学报,1996,33 (4):351-359.

杨邦杰,Blackwell P S,Nicholson D F.斥水土壤中水热运动模型的应用[J].土壤学报,1997,34 (4):427-433.

杨邦杰,Blackwell P S,Nicholson D F.土壤斥水性引起的土地退化、调查方法与改良措施研究[J].环境科学,1994,15 (4):88-90.

杨昊天，刘立超，高艳红，等.腾格里沙漠沙丘固定后土壤的斥水性特征研究[J].中国沙漠,2012,3:674-682.

杨珏，汪德爟。神经网络模型在预测土壤pH值中的应用研究[J].计算机仿真,2004,21 (4):121-124.

杨培岭，罗远培，石元春。用粒径的重量分布表征的土壤分形特征[J].科学通报,1993,38 (20):1896-1899.

杨启红，陈丽华，王宇。不同采样密度的土壤水分特征参数预测[J].灌溉排水学报,2009,28 (3):24-34.

宰松梅，郭冬冬，温季。人工神经网络在土壤含盐量预测中的应用[J].中国农村水利水电,2010,10:33-35.

张朝生，章申，何建邦。长江水系沉积物重金属含量空间分布特征研究——空间自相关与分形方法[J].地理学报,1998,53 (1):87-96.

张继光，陈洪松，苏以荣，等.喀斯特洼地表层土壤水分的空间异质性及其尺度效应[J].土壤学报,2008,45 (3):544-549.

张松林，张昆。全局空间自相关Moran指数和G系数对比研究[J].中山大学学报(自然科学版),2007,46 (4):93-97.

张雪艳，胡云锋，庄大方，等.蒙古高原NDVI的空间格局及空间分异[J].地理研究,2009,28 (1):10-18.

赵小风，黄贤金，张兴榆，等.区域COD、SO ₂ 及TSP排放的空间自相关分析：以江苏省为例[J].环境科学,2009,30 (6):1580-1587.

郑玉胜，黄介生。基于神经网络的灌溉用水量预测[J].灌溉排水学报,2004,2:59-61.

周慧珍，龚子同。土壤空间变异性研究[J].土壤学报,1996,33 (3):232-241.

周良臣。土壤水分预测的BP神经网络方法及模型[J].西北农业学报,2004,13 (4):130-133.

朱磊，周清，王康，等.基于多重分形理论的土壤水非均匀流动分析[J].水科学进展,2009,20 (3):392-397.

Abuelgasim A A,Ross W D,Gopal S,et al.Change detection using adaptive fuzzy neural networks:Environmental damage assessment after the Gulf War [J].Remote Sensing of Environment,1999,70 (2):208-223.

Archibald R D,Harper R J,Fox J E D,et al.Tree performance and root-zone salt accumulation in three dryland Australian plantations [J].Agroforestry Systems,2006,66 (3):191-204.

Arye G,Tarchitzky J,Chen Y.Treated wastewater effects on water repellency and soil hydraulic properties of soil aquifer treatment infiltration basins [J].Journal of Hydrology,2011,397 (1-2):136-145.

Arye G.,Nadav I,Chen Y.Short-term reestablishment of soil water repellency after wetting:Effect on capillary pressure-saturation relationship [J].Soil Science Society of America Journal,2007,71 (3):692-702.

Bachmann J,Deurer M,Arye G.Modeling water movement in heterogeneous water repellent soil:1.Development of a contact angle-dependent water-retention model [J].Vadose Zone Journal,2007,6(3):436-445.

Bachmann J,Horton R,van der Ploeg R R.Isothermal and nonisothermal evaporation from four sandy soils of different water repellency [J].Soil Science Society of America Journal,2001,65 (6):1599-1607.

Bauters T W J,DiCarlo D A T,Steenhuis S,Parlange J Y.Preferential flow in water repellent sands [J].Soil Science Society of America Journal,1998,62 (5):1185-1190.

Ben-Hur M.Sewage water treatments and reuse in Israel.In:Zereini F,Jaeschke W,Eds.In:Water in the Middle East and in North Africa:resources,protection and management [M].Berlin:Springer,2004,pp167-180.

Bird N,Cruz D M,Saa A,et al.Fractal and multifractal analysis of pore-scale images of soil [J].Journal of Hydrology,2006,322 (1):211-219.

Buczko U,Bens O,Durner W.Spatial and temporal variability of water repellency in a sandy soil contaminated with tar oil and heavy metals [J].Journal of Contaminant Hydrology,2006,88 (3):249-268.

Buczko U,Bens O.Assessing soil hydrophobicity and it’s variability through the soil profile using two different methods [J].Soil Science Society of America Journal,2006,70 (3):718-727.

Caniego F J,Espejo R,Martin M A,et al.Multifractal scaling of soil spatial variability [J].Ecological Modelling,2005,182 (3):291-303.

Carrick S,Buchan G,Almond P,Smith N.A typical early time infiltration into a structured soil near field capacity:The dynamic interplay between sorptivity,hydrophobicity,and air encapsulation [J].Geoderma,2011,160 (3):579-589.

Carrillo M L K,Letey J,Yates S R.Measurement of initial soil water contact angle of water repellent soils [J].Soil Science Society of America Journal,1999,63 (3):433-436.

Cerri C E P,Bernoux M,Chaplot V,et al.Assessment of soil property spatial variation in an Amazon pasture:basis for selecting an agronomic experimental area [J].Geoderma,2004,123 (1-2):51-68.

Chau H W,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 [J].Geoderma,2014,221:113-120.

Comegna V,Damiani P,Sommella A.Use of a fractal model for determining soil water retention curves[J].Geoderma,1998,85 (4):307-323.

Crockford S,Topalidis S,Richardson D P.Water repellency in a dry sclerophyll forest-measurements and processes [J].Hydrol.Processes,1991,5:405-420.

Czachor H,Doerr S H,Lichner L.Water retention of repellent and subcritical repellent soils:New insights from model and experimental investigations [J].J.Hydrol.,2010,380:104-111.

DeBano L F.The effect of hydrophobic substances on water movement in soil during infiltration [J].Soil Sci.Soc.Am.J.,1971,35 (2):340-343.

DeBano L F.The effects of fire on soil properties [R].United States Department of Agriculture,Forest Service,General Technical Report,INT-280,151-156,1991.

DeBano L F.Water repellency in soils:a historical overview [J].J.Hydrol.,2000,231-232:4-32.

Dekker L W,Doerr S H,Oostindie K,et al.Water repellency and critical soil water content in a Dune sand[J].Soil Science Society of America Journal,2001,65 (6):1667-1674.

Dekker L W,Jungerius P D.Water repellency in the dunes with special reference to the Netherlands [J].Catena,1990,18:173-183.

Dekker L W,Oostindie K,Ritsema C J.Exponential increase of publications related to soil water repellency[J].Austrlian Journal of Soil Research,2005,43 (3):403-441.

Dekker L W,Ritsema C J.How water moves in a water repellent sandy soil:1.Potential and actual water repellency [J].Water Resour.Res.,1994,30 (9):2507-2517.

Deurer M,Bachmann J.Modeling water movement in heterogeneous water-repellent soil:2.A conceptual numerical simulation [J].Vadose Zone J.,2007,6:446-457.

Diamantopoulos E,Durner W.Physically-based model of soil hydraulic properties accounting for variable contact angle and its effect on hysteresis [J].Advances Water Resour.,2013,59:169-180.

Doerr S H,Shakesby R A,Walsh R P D.Soil water repellency:its causes,characteristics and hydro-geomorphological significance [J].Earth Sci.Rev.,2000,51:33-65.

Doerr S H,Ferreira A J D,Walsh R P D,et al.Soil water repellency as a potential parameter in rainfallrunoff modeling:experimental evidence at point to catchment scales from Portugal [J].Hydrol.Process,2003,17:363-377.

Ellerbrock R H,Gerke H H,Bachmann J,et al.Composition of organic matter fractions for explaining wettability of three forest soils [J].Soil Sci.Soc.Am.J.,2005,69:57-66.

Ersahin S,Brohi A R.Spatial variation of soil water content in topsoil and subsoil of a typic Ustifluvent[J].Agricultural Water Management,2006,83 (1-2):79-88.

Feigin A,Ravina I,Shalhevet J.Irrigation with treated sewage effluent:management for environmental protection [M].Advanced Series in Agricultural Sciences,17.Springer-Verlag,Berlin,1991.

Feng G L,Letey J,Wu L.The influence of two surfactants on infiltration into a water-repellent soil [J].Soil Science Society of America Journal,2002,66 (2):361-367.

Feng G L,Letey J,Wu L.Water ponding depths affect temporal infiltration rates in a water repellent sand [J].Soil Science Society of America Journal,2001,65 (2):315-320.

Filgueira R R,Fournier L L,Sarli G O,et al.Sensitivity of fractal parameters of soil aggregates to different management practices in a Phaeozem in central Argentina [J].Soil and Tillage Research,1999,52(3):217-222.

Ganz C,Bachmann J,Noell U,et al.Hydraulic modeling and in situ electrical resistivity tomography to analyze ponded infiltration into a water repellent sand [J].Vadose Zone J.2014,13:doi:10.2136/vzj2013.04.0074.

Gaston L A,Locke M A,Zablotowicz R M,et al.Spatial variability of soilproperties and weed populations in the Mississippi Delta [J].Soil Science Society of America Journal,2001,65 (2):449-459.

Hallett P D,Baumgartl T,Young I M.Subcritical water repellency of aggregates from a range of soil management practices [J].Soil Science Society of America Journal,2001,65 (1):184-190.

Hallett P D,Nunan N,Douglas J T,et al.The breakdown of water repellency and solute transport through a hydrophobic soil [J].Journal of Hydrology,2000,231:255-264.

Halliwell D J,Barlow K M,Nash D M.A review of the effects of wastewater sodium on soil physical properties and their implications for irrigation systems [J].Australian Journal of Soil Research,2001,39(6):1259-1267.

Hariharan G,Kannan K,Kal S R.Harr wavelet in estimating depth profile of soil temperature [J].Applied Mathematics and Computation,2009,210 (1):119-125.

Hendrickx J M H,Dekker L M,Boersma O H.Unstable wetting fronts in water repellent field soils [J].J.Environ.Qual.,1993,22:109-118.

Horne D J,Melntosh J C.Hydrophobic compounds in sands in New Zealand extraction,hcarcterization and proposed mechanisms for repellency expression [J].J.Hydrol.,2000,231-232:35-46.

Huang G H,Zhang R D,Huang Q Z.Modeling soil water retention curve with a fractal method [J].Pedosphere,2006,16 (2):137-146.

HurraβJ,Schaumann G E.Properties of soil organic matter and aqueous extracts of actually water repellent and wettable soil samples [J].Geoderma,2006,132:222-239.

Iqbal J,Thomasson J A,Jenkins J N,et al.Spatial Variability Analysis of Soil Physical Properties of Alluvial soils [J].Soil Science Society of America Journal,2005,69 (4):1338-1350.

Jaramillo D F,Dekker L W,Ritsema C J,et al.Occurrence of soil water repellency in arid and humid climates [J].Journal of Hydrology,2000,231-232:105-111.

Karunarathna A K,Moldrup P,Kawamoto K,et al.Two Region model for soil water repellency as a function of matric potential and water content [J].Vadose Zone J.,2010,9 (3):719-730.

King P M.Comparison of methods for measuring severity of water repellence of sandy soils and assessment of some factors that affect its measurement [J].Aus.J.Soil Res.,1981,19 (3):275-285.

Kravchenko A,Zhang R.Estimating the soil water retention from particle size distributions:A fractal approach [J].Soil Science,1998,163 (3):171-179.

Krige D G.A statistical approach to some basic mine valuation problems on the Witwatersrand [J].Journal of the South African Institute of Mining and Metallurgy,1994,94 (3):95-112.

Lado M,Ben-Hur M.Treated domestic sewage irrigation effects on soil hydraulic properties in arid and semiarid zones:A review [J].Soil and Tillage Research,2009,10 (1):152-163.

Letey J. ‘Measurementof contact angle,water drop penetration time,and critical surface tension’[C].Proceedings of the Symposium on Water-Repellent Soils,May,1968,University of California,Riverside,43-47.

Li Yi,Li Min,Robert Horton.Single and joint multifractal analysis of soil particle size distributions [J].Pedosphere,2011,21 (1):75-83.

Lichner L,Dlapa P,Doerr S H,et al.Evaluation of different clay minerals as additives for soil water repellency alleviation [J].App.Clay Sci.,2006,31:238-248.

Mallat S.Multi-frequency channel decompositions of images and wavelet models [J].IEEE Trans on Acoustics,Speech and Signal Processing,1989,37 (12):2091-2110.

Mataix-Solera J,Doerr S H.Hydrophobicity and aggregate stability in calcareous topsoils from fire-affected pine forests in southeastern Spain [J].Geoderma,2004,118 (1/2):77-88.

McKissock I,Walker E L,Gilkes R J,et al.The influence of clay type on reduction of water repellency by applied clays:a review of some West Australian work [J].J.Hydrol.,2000,231-232:323-332.

Meyer Y.Wavelets and Operators [M].New York:Cambridge University Press,1989.

Miranda J G V,Montero E,Alves M C,et al.Multifractal characterization of saprolite particle-size distributions after topsoil removal [J].Geoderma,2006,134 (3):373-385.

Müller K,Deurer M.Review of the remediation strategies for soil water repellency [J].Agri.Ecosys.Environ.,2011,144:208-221.

Newton P C D,Carran R A,Lawrence E J.Reduced water repellency of a grassland soil under elevated atmospheric CO ₂ [J].Global Change Biol.,2004,10:1-4.

Oleschko K,Figueroa S B,Miranda M E,et al.Mass fractal dimensions and some selected physical properties of contrasting soils and sediments of Mexico [J].Soil and Tillage Research,2000,55 (1):43-61.

Perrier E,Rieu M,Sposoto G.Models of the water retention curve for soils with a fractal pore size distribution [J].Water Resources Research,1996,32 (10):3025-3031.

Piccolo A,Mbagwu J S C.Role of hydrophobic components of soil organic matter in soil aggregate stability[J].Soil Sci.Soc.Am.J.,1999,63 (6):1801-1810.

Piccolo A,Spaccini R,Habernauer G,et al.Increased sequestration of organic carbon in soil by hydrophobic protection [J].Natur.Wissenschaften,1999,86 (10):496-499.

Pont O,Turiel A,Pérez-Vicente C J.Empirical evidences of a common multifractal signature in economic,biological and physical systems [J].Physica A,2009,388 (10):2025-2035.

Regalado C M,Ritter A.A bimodal four-parameter lognormal linear model of soil water repellency persistence [J].J.Hydrol.Processes,2009,23:881-892.

Regalado C M,Ritter A.A soil water repellency empirical model [J].Vadose Zone J.,2009,8: 136-141.

Ritsema C J,Dekker L W,Hendrickx J M H.Preferential flow mechanism in a water repellent sandy soil[J].Water Resour.Res.,1993,29:2183-2193.

Roberts F J,Carbon B A.Water repellence in sandy soils of south-western Australia.1.Some studies related to field occurrence.Division of Plant Industry CSIRO Australia,Field Station Record,1971,10:13-20.

Rodriguez-Alleres M,de Blas E,Benito E.Estimation of soil water repellency of different particle size fractions in relation with carbon content by different methods [J].Sci.Total Environ.,2007,378:147-150.

Saldana A,Stein A,Zinck J A.Spatial variability of soil properties at different scales within three terraces of the Henares River (Spain)[J].Catena,1998,33 (3):139-153.

Schaap M G,Leij F J.Using neural networks to predict soil water retention and soil hydraulic and saline conductivity [J].Soil& Tillage Research,1998,47 (1):37-42.

Schreiner O,Shorey E C.Chemical nature of soil organic matter [J].USDA Bur.Soils Bull.,1910,74:2-48.

Shu Q,Liu Z,Si B C.Characterizing scale-and location-dependent correlation of water retention parameters with soil physical properties using wavelet techniques [J].Journal of Environmental Quality,2008,37 (6):2284-2292.

Si B C.Spatial scaling anglyses of soil physical properties:a review of spectral and wavelet methods [J].Vadose Zone Journal,2008,7 (2):547-562.

Siebold A,Nardin M,Schultz J,et al.Effect of dynamic contact angle on capillary rise phenomena [J].Colloids and Surfaces.A:Physicochemical Engineer.Aspects.,2000,161:81-87.

Summers R N.The incidence and severity of non-wetting soils of the south coast of Western Australia [D].Perth:Msc Thesis.The University of Western Australia,1987.

Tsegaye T,Hill R L.Intensive tillage effects on spatial variability of soil physical properties [J].Soil Science,1998,163 (2):143-154.

Tyler S W,Wheateraft S W.Fractal process in soil water retention [J].Water Resources Research,1990,26 (5):1017-1054.

Van Dam J C,Hendrickx J M H,Van Genuchten M T H.Water and solute movement in a coarse-textured water-repellent field soil [J].Journal of Hydrology,1990,120 (1):359-379.

van't W,Bessel D.Particle coatings affecting the wettability of soils [J].J.Geophys.Res.,1959,64:263-267.

Vogelmann E S,Reichert J M,Prevedello J,et al.Threshold water content beyond which hydrophobic soils become hydrophilic:The role of soil texture and organic matter content [J].Geoderma,2013,209/210:177-187.

Wallach R,Ben-Arie O,Graber E R.Soil water repellency induced by long-term irrigation with treated sewage effluent [J].Journal of Environmental Quality,2005,34 (5):1910-1920.

Wallism M G,Horne D J,McAuliffe K W.A study of water repellency [J].New Zealand Journal of Agricultural Research,1990,33:139-144.

Wang D,Fu B J,Zhao W W,et al.Multifractal characteristics of soil particle size distribution under different land-use types on the Loess Plateau,China [J].Catena,2008,72 (1):29-36.

Wang Z,Wu L,Wu QJ.Water-entry value as an alternative indicator of soil water-repellency and wettability [J].Journal of Hydrology,2000,231:76-83.

Wang Z,Wu Q J,Wu L,et al.Effects of soil water repellency on infiltration rate and flow instability [J].Journal of Hydrology,2000,231:265-276.

Western A W,Blöschl G,Grayson R B.Geostatistical characterisation of soil moisture patterns in the Tarrawarra catchment [J].Journal of Hydrology,1998,205 (1-2):20-37.

Wetherby K G.The extent and significance of water repellent sands on eyre peninswa technical report [R].South Australia Departmet of Agriculture:47,1984.

Xu Y F,Dong P.Fractal approach to hydraulic properties in unsaturated porous media [J].Chaos,Solitons and Fractals,2004,19 (2):327-337.

Yu L,Qi D W.Analysis and processing of decayed log CT image based on multifractal theory [J].Computers and Electronics in Agriculture,2008,63 (2):147-154.

Zeleke T B,Si B C.Characterizing scale-dependent spatial relationships between soil properties using multifractal techniques [J].Geoderma,2006,134 (3):440-452.

Zeleke T B,Si B C.Scaling properties of topographic indices and crop yield:multifractal and joint multifractal approaches [J].Agronomy Journal,2004,96 (4):1082-1090.

Zeleke T B,Si B C.Scaling relationships between saturated hydraulic conductivity and soil physical properties [J].Soil Science Society of America Journal,2005,69 (6):1691-1702. a+BsE9L2+f0AD+w7qqkzZE6xnXEGaZW6s/0VRBEZvC61IsGBTt+XKSAZTyiZ74eI