土壤水流运动和溶质运移形式研究现状综述(4)
时间:2016-10-31 来源:未知 作者:chunt 本文字数:23281字 [40] De Rooij G H. A three-region analytical model of solute leachingin a soil with a water repellent top layer[J]. Water ResourcesResearch, 1995, 31: 2701-2707.
[41]高朝侠,徐学选,赵娇娜,等。土壤大孔隙流研究现状与发展趋势[J].生态学报,2014,34(11):2801-2811.Gao Zhaoxia, Xu Xuexuan, Zhao Jiaona, et al. Review onmacropore flow in soil [J]. Acta Ecologica Sinica, 2014, 34(11):2801-2811.(in Chinese with English abstract)
[42] Allaire-Leung S E, Gupta S C, Moncrief J F. Water and solutemovement in soil as influenced by macropore characteristics.Macropore continuity[J]. Journal of Contaminant Hydrology, 2000,41: 283-301.
[43] Allaire-Leung S E, Gupta S C, Moncrief J F. Water and solutemovement in soil as influenced by macropore characteristics.Macropore tortuosity[J]. Journal of Contaminant Hydrology ,2000, 41: 303-315.
[44]程竹华,张佳宝,徐绍辉。黄淮海平原三种土壤中优势流现象的试验研究[J].土壤学报,1999,36(2):154-161.Cheng Zhuhua, Zhang Jiabao, Xu Shaohui. Experimental studieson preferential flow in three soils in Huang-Huai-Hai plain [J].Acta Pedologica Sinica, 1999, 36(2): 154-161. (in Chinese withEnglish abstract)
[45] Bouma J . Influence of soil macroporosity on environmentalquality[J]. Advanced in Agronomy, 1991, 46: 1-36.
[46] Beven K, Germann P. Water flow in soil macropores[J]. 1981,32: 15-29.
[47] Dekker L W, Ritsema C J. Preferential flow paths in a waterrepellent clay soil with grass cover[J]. Water Resources Research,1996, 32: 1239-1249.
[48] Kung K J S. Preferential flow in a sandy vadose zone soil. 1.Field observation[J]. Geoderma, 1990, 46: 51-58.
[49] Kung K J S. Preferential flow in a sandy vadose zone soil. 2.Mechanism and implications[J]. Geoderma, 1990, 46: 59-71.
[50] Roth K. Steady state flow in an unsaturated, two dimensional,macroscopically homogeneous, Miller-similar medium [J]. WaterResources Research, 1995, 31: 2127-2140.
[51] Flury M, Flühler H, Jury W A, et al. Susceptibility of soils topreferential flow of water : A field study[J]. Water ResourcesResearch, 1994, 30(7): 1945-1954.
[52] Merdun H, Meral R, Riza D A. Effect of the initial soil moisturecontent on the spatial distribution of the water retention [J].Eurasian Soil Science, 2008, 41(10): 1098-1106.
[53] De Rooij G H. Modeling fingered flow of water in soils owing towetting front instability: a review[J]. Journal of Hydrology, 2000,231-232: 277-294.
[54]盛丰,方妍。土壤水非均匀流动的碘-淀粉染色示踪研究[J].土壤,2012,44(1):144-148.Sheng Feng, Fang Yan. Study on preferential soil water flowusing iodine-starch staining method[J]. Soils, 2012, 44(1): 144-148. (in Chinese with English abstract)
[55] Edwards W M, Shipitalo M J, Owens L B, et al. Rainfall intensityaffects transport of water and chemicals through macropores innon-till soil[J]. Soil Science Society of America Journal, 1992,56: 52-58.
[56] Ghodrati M, Jury W A. A field study using dyes to characterizepreferential flow of water [J]. Soil Science Society of AmericaJournal, 1990, 54(6): 1558-1563.
[57] Ren G L, Izadi B, King B, et al. Preferential transport of bromidein undisturbed cores under different irrigation methods[J]. SoilScience, 1996, 161(4): 214-225.
[58] Sheng F, Wang K, Zhang R, et al. Characterizing soil Preferentialflow using iodine-starch staining experiments and the activeregion model[J]. Journal of Hydrology, 2009, 367: 115-124.
[59] Flury M, Flühler H. Modeling solute leaching in soils bydiffusion-limited aggregation: Basic concepts and applications toconservative solutes[J]. Water Resource Research , 1995 , 31 :2443-2452.
[60] Philip J R . Stability analysis of infiltration[J]. Soil ScienceSociety of America Proceeding, 1975, 39: 1042-1049.
[61] Philip J R. The growth of disturbances in unstable infiltrationflows[J]. Soil Science Society of America Proceeding, 1975, 39:1049-1053.
[62] Parlange J Y, Hill D E. Theoretical analysis of wetting frontinstability in soils[J]. Soil Science, 1976, 122: 236-239.
[63] Nguyena H V, Nieber J L, Ritsemab C J, et al. Modeling gravitydriven unstable flow in a water repellent soil[J]. Journal ofHydrology, 1999, 215: 202-214.
[64] Glass R J, Steenhuis T S, Parlange J Y. Mechanism for fingerpersistence in homogeneous unsaturated porous media: Theoryand verification[J]. Soil Science, 1989, 148: 60-70.
[65] Nieber J L . Modeling finger development and persistence ininitial dry porous media[J]. Geoderma, 1996, 70: 209-229.
[66] Ritsema C J, Dekker L W. Modeling and field evidence of fingerformation and finger recurrence in a water repellent sandy soil[J]. Water Resources Research, 1998, 34: 555-567.
[67]贾宏伟,康绍忠,张富仓,等。土壤水力学特征参数空间变异的研究方法评述[J].西北农林科技大学学报(自然科学版),2004(32):97-102.Jia Hongwei, Kang Shaozhong, Zhang Fucang, et al. A review ofstudy methods on spatial variability of soil hydraulic properties[J]. Journal of Northwest Science Technology University ofAgriculture and Forestry (Nature Science Edition), 2004 (32):97-102. (in Chinese with English abstract)
[68] Tompson A F B, Gelhar L W. Numerical simulation of solutetransport in three-dimensional, randomly heterogeneous porousmedia[J]. Water Resources Research, 1990, 26: 2541-2562.
[69] Feyen J, Jacques D, Timmerman A, et al. Modelling water flowand solute transport in heterogeneous soils: a review of recentapproaches[J]. Journal of Agricultural Engineering Research ,1998, 70: 231-256.
[70]黄冠华。土壤水力特性空间变异的试验研究进展[J].水科学进展, 1999,10(4):450-457.Huang Guanhua. A review of experimental study on spatialvariability of soil hydraulic properties[J]. Advances in WaterScience , 1999 , 10 (4): 450 - 457 . ( in Chinese with Englishabstract)
[71]薛绪掌,张仁铎,桂胜祥。测定尺度对所测土壤导水参数及其空间变异性的影响[J].水土保持通报,2001,21(3):47-51.Xue Xuzhang, Zhang Renduo, Gui Shengxiang. Effect ofmeasurement scales on measured soil hydraulic properties andtheir spatial variability[J]. Bulletin of Soil and Water Conservation,2001, 21(3): 47-51. (in Chinese with English abstract)
[72] Jarvis N J. A review of non-equilibrium water flow and solutetransport in soil macropores: principles, controlling factors andconsequences for water quality[J]. European Journal of SoilScience, 2007, 58: 523-546.
[73] Liu H H, Doughty C, Bodvarsson G S. An active fracture modelfor unsaturated flow and transport in fractured rocks[J]. WaterResources Research, 1998, 34: 2633-2646.
[74]王康,张仁铎,周祖昊,等。多孔介质中非均匀流动模式示踪试验与弥散限制聚合分形模型的应用[J].水利学报,2007,38(6):690-696.Wang Kang, Zhang Renduo, Zhou Zuhao, et al. Experimentalstudy on heterogeneous flow in porous media by tracingtechnology and application of diffusion-limited aggregationfractal modeling[J]. Journal of Hydraulic Engineering, 2007, 38(6): 690-696. (in Chinese with English abstract)[75] Flint A L, Flint L E, Bodvarsson G S, et al. Evolution of theconceptual model of unsaturated zone hydrology at YuccaMountain, Nevada[J]. Journal of Hydrology, 2001, 247: 1 -30.
[76] Wood T R, Norrell G T. Integrated large-scale aquifer pumpingand infiltration tests: groundwater pathways, OU 7-06: SummaryReport [R]. Idaho National Engineering Laboratory, EnvironmentalRestoration Department, Lockheed Martin Idaho TechnologiesCompany, 1996.
[77] Wood T R, Podgorney R K, Faybishenko B. Small scale fieldtests of water flow in a fractured rock vadose zone. Case study tochapter 3 [ M ] / / Looney B , Falta R . Vadose Zone Science andTechnology Solutions. Battelle Press, Columbus, OH, 2000.
[78] Busenberg E, Weeks E P, Plummer L N, et al. Age datingground water by use of chlorofluorocarbons (CCl3F and CCl2F2),and distribution of chlorofluorocarbons in the unsaturated zone,Snake River Plain aquifer, Idaho National EngineeringLaboratory, Idaho [R]. Water - Resources Investigations . Report93-4054(DOE/ID-22107)。 U.S. Geological Survey, Res ton, VA,1993.
[79] Liu H H, Zhang R, Bodvarsson G S. An active region model forcapturing fractal flow patterns in unsaturated soils: Modeldevelopment[J]. Journal of Contaminant Hydrology , 2005 , 80 :18-30.
[80] Witten T A , Sander L M . Diffusion - limited aggregation : Akinetic critical phenomenon[J]. Physics Review Letter, 1981, 47:1400 -1430.
[81] Wilkinson D, Willemsen J F. Invasion percolation: A new formof percolation theory[J]. Journal of Physics A, 1983, 16: 3365-3376.
[82] Meakin P. Diffusion-controlled deposition on fibers and surfaces[J]. Physical Review A, 1983, 27: 2616-2623.
[83] Flury M, Leuenberger J, Studer B, et al. Transport of anions andherbicides in a loamy and sandy field soil[J]. Water ResourcesResearch, 1995, 31: 823-835.
[84] Persson M, Yasuda H, Alberge I J, et al. Modeling plot scale dyepenetration by a diffusion limited aggregation ( DLA ) model[J].Journal of Hydrology, 2001, 250: 98-105.
[85] Paterson L. Diffusion limited aggregation and two-fluid displacementsin porous media[J]. Physics Review Letter, 1984, 52(18): 1621-1624.
[86] Glass R J, Yarrington L. Simulation of gravity fingering in porousmedia using a modified invasion percolation model [J]. Geoderma,1996, 70: 231-252.
[87] Klafter J, Shlesinger M F, Zumofen G. Beyond Brownian motion[J]. Physics Today, 1996, 49(2): 33-39.
[88] Wang K, Zhang R, Yasuda H. Characterizing heterogeneity ofsoil water flow by dye infiltration experiments[J]. Journal ofHydrology, 2006, 328: 559-571.
[89] Liu H H, Zhang G, Bodvarsson G S. The active fracture model:Its relation to fractal flow behavior and a further evaluation usingfield observations[J]. Vadose Zone Journal, 2003, 2: 259-269.
[90]盛丰,王康,张仁铎,等。田间尺度下土壤水流非均匀运动特征的染色示踪研究[J].水利学报,2009,40(1):101-108.Sheng Feng, Wang Kang, Zhang Renduo, et al. Study onheterogeneous characteristics of soil water flow in field [J].Journal of Hydraulic Engineering , 2009 , 40(1): 101 -108. (inChinese with English abstract)
[91] Morris C , Mooney S J . A high - resolution system for thequantification of preferential flow in undisturbed soil usingobservations of tracers[J]. Geoderma, 2004, 118: 133-143.
[92] Weiler M, Flühler H. Inferring flow types from dye patterns inmacroporous soils[J]. Geoderma, 2004, 120: 137-153.
[93] Wang K, Zhang R, Sheng F. Effects of irrigation efficiency onchemical transport processes[J]. Science in China Series E :Technological Science, 2009, 52(11): 1-6.
[94] Yasuda H, Berndtsson R, Persson H, et al. Characterizingpreferential transport during flood irrigation of a heavy clay soilusing the dye Vitasyn Blua[J]. Geoderma, 2001, 100: 49-66.
[95] Bouma J, Dekker L W, W觟sten J H M. A case study oninfiltration into dry clay soil II . Physical measurements [J].Geoderma, 1978, 20(1): 41-51.
[96] Sollins P, Radulovich R. Effects of soil physical structure onsolute transport in a weathered tropical soil[J]. Soil ScienceSociety of America Journal, 1988, 52: 1168-1173.
[97] Natano R, Kawamura N, Ikda J, et al. Evaluation of the effectmorphological features of flow paths on solute transport by usingfractal dimensions of methylene blue staining pattern [J].Geoderma, 1992, 53: 31-44.
[98] Flury M, Flühler H. Brilliant Blue FCF as a dye tracer for solutetransport studies - A toxicological overview [J]. Journal ofEnvironmental Quality, 1994, 23: 1108-1112.
[99] Forrer I, Parrita A, Kasteel R, et al. Quantifying dye tracers insoil profiles by image processing[J]. European Journal of SoilScience, 2000, 51: 313-322.
[100] Noguchi S, Rahim N A, Baharuddin K, et al. Soil physicalproperties and preferential flow pathways in tropical rain forest,Bubit Tarek, Peniusular, Malaysia[J]. Journal of Forest Research,1997, 2: 115-120.
[101]王康。多孔介质非均匀流动显色示踪技术与模拟方法[M].北京:科学出版社,2009.
[102] Flury M, Wai N N. Dyes as tracers for vadose zone hydrology[J].Reviews of Geophysics, 2003, 41, doi:10.1029/2001RGooo109.
[103] Nobles M M, Wilding L P, Lin H S. Flow pathways of bromideand Brilliant Blue FCF tracers in caliche soils[J]. Journal ofHydrology, 2010, 393: 114-122.
[104] Bogner C, Wolf B, Schlather M, et al. Analysing flow patternsfrom dye tracer experiments in a forest soil using extremevalue statistics[J]. European Journal of Soil Science, 2008, 59(1): 103-113.
[105] Wang K , Zhang R . Heterogeneous soil water flow andmacropores described with combined tracers of dye and iodine[J]. Journal of Hydrology, 2011, 397(1-2): 105-117.
[106] Lu J, Wu L. Visualizing bromide and iodide water tracer in soilprofiles by spray methods[J]. Journal of Environmental Quality,2003, 32: 363-367.
[107] Van Ommen H C, Dekker L W, Dijksma R, et al. A newtechnique for evaluating the presence of preferential flow pathsin non-structured soils[J]. Soil Science Society of AmericaJournal, 1988, 52: 1192-1193.
[108] Hangen E, Gerke H H, Schaaf W, et al. Flow path visualizationin a lignitic mine soil using iodine-starch staining[J]. Geoderma,2004, 120: 121-135.
[109] Posadas D A N , Tannús A , Panepucci H , et al . Magneticresonance imaging as a non-invasive technique for investigating3-D preferential flow occurring within stratified soil samples[J].Computers and Electronics in Agriculture, 1996, 14(4): 255-267.
[110] Sheng F, Liu H H, Wang K, et al. Investigation into preferentialflow in natural unsaturated soils with field multiple-tracerinfiltration experiments and the active region model[J]. Journalof Hydrology, 2014, 508: 137-146.
[111]徐宗恒,徐则民,曹军尉,等。土壤优先流研究现状与发展趋势[J].土壤,2012,44(6):905-916.Xu Zongheng, Xu Zemin, Cao Junwei, et al. Present and futureresearch of preferential flow in soil[J]. Soils, 2012, 44(6): 905-916. (in Chinese with English abstract)
[112] Germann P F, Di Pietro L. Scales and dimensions of momentumdissipation during preferential flow in soils[J]. Water ResourcesResearch, 1999, 35(5): 1443-1454.
[113] Brandt H. A study of the speed of sound in porous granularmedia[J]. Journal of Applied Mechanics, 1954, 22: 479-486.
[114] Blum A , Flamme I , Friedli T , et al . Acoustic tomographyapplied to water flow in unsaturated soils[J]. Soil Science Societyof America, 2004, 3: 288-299.
[115] Flammer I, Blum A, Leiser A, et al. Acoustic assessment of flowpatterns in unsaturated soil[J]. Journal of Applied Geophysics,2001, 46(2): 115-128.
[116]陈风琴,石辉。岷江上游三种典型植被下土壤优势流现象的染色法研究[J].生态科学,2006,25(1):69-73.Chen Fengqin, Shi Hui. A study on soil preferential flow underthree vegetations in the upper reach of Min Jiang River bybrilliant blue dye[J]. Ecologic Science, 2006,25(1): 69-73. (inChinese with English abstract)[117] Radulovich R , Solorzano E , Sollins P . Soil macropore sizedistribution from water breakthrough curves[J]. Soil ScienceSociety of America Journal, 1989, 53(2): 556-559.
[118] Mooney S J, Morris C. Morphological approach to understandingpreferential flow using image analysis with dye tracers and X-ray computed tomography[J]. Catena, 2008, 73(2): 204-211.
[119] Paola F. Magnetic resonance for fluids in porous media at theUniversity of Bologna[J]. Magnetic Resonance Imaging, 2005,23(2): 125-131.
[120] 冯杰,郝振纯。 CT 扫描确定土壤大孔隙分布[J]. 水科学进展,2002,13(5):611-617.Feng Jie, Hao Zhenchun. Distribution of soil macroporescharacterized by CT[J]. Advances in Water Science, 2002, 13(5): 611-617. (in Chinese with English abstract)
[121] Gómez-Ortiz D, Martín-Crespo T, Rodríguez I, et al. Theinternal structure of modern barchan dunes of the Ebro RiverDelta ( Spain ) from ground penetrating radar [J]. Journal ofApplied Geophysics, 2009, 68(2), 159-170.
[122] Kung K J S, Donohue S V. Improved solute sampling protocol ina sandy vadose zone using ground-penetrating radar. [J]. SoilScience Society of America Journal, 1991, 55: 1543-1545.
[123] Vanderborght J, Kemna A, Hardelauf H, et al. Potential ofelectrical resistivity tomography to infer aquifer transportcharacteristics from tracer studies: A synthetic case study [J].Water Resource Research, 2005, 41, W06013, doi:10.1029/2004WR003774.
[41]高朝侠,徐学选,赵娇娜,等。土壤大孔隙流研究现状与发展趋势[J].生态学报,2014,34(11):2801-2811.Gao Zhaoxia, Xu Xuexuan, Zhao Jiaona, et al. Review onmacropore flow in soil [J]. Acta Ecologica Sinica, 2014, 34(11):2801-2811.(in Chinese with English abstract)
[42] Allaire-Leung S E, Gupta S C, Moncrief J F. Water and solutemovement in soil as influenced by macropore characteristics.Macropore continuity[J]. Journal of Contaminant Hydrology, 2000,41: 283-301.
[43] Allaire-Leung S E, Gupta S C, Moncrief J F. Water and solutemovement in soil as influenced by macropore characteristics.Macropore tortuosity[J]. Journal of Contaminant Hydrology ,2000, 41: 303-315.
[44]程竹华,张佳宝,徐绍辉。黄淮海平原三种土壤中优势流现象的试验研究[J].土壤学报,1999,36(2):154-161.Cheng Zhuhua, Zhang Jiabao, Xu Shaohui. Experimental studieson preferential flow in three soils in Huang-Huai-Hai plain [J].Acta Pedologica Sinica, 1999, 36(2): 154-161. (in Chinese withEnglish abstract)
[45] Bouma J . Influence of soil macroporosity on environmentalquality[J]. Advanced in Agronomy, 1991, 46: 1-36.
[46] Beven K, Germann P. Water flow in soil macropores[J]. 1981,32: 15-29.
[47] Dekker L W, Ritsema C J. Preferential flow paths in a waterrepellent clay soil with grass cover[J]. Water Resources Research,1996, 32: 1239-1249.
[48] Kung K J S. Preferential flow in a sandy vadose zone soil. 1.Field observation[J]. Geoderma, 1990, 46: 51-58.
[49] Kung K J S. Preferential flow in a sandy vadose zone soil. 2.Mechanism and implications[J]. Geoderma, 1990, 46: 59-71.
[50] Roth K. Steady state flow in an unsaturated, two dimensional,macroscopically homogeneous, Miller-similar medium [J]. WaterResources Research, 1995, 31: 2127-2140.
[51] Flury M, Flühler H, Jury W A, et al. Susceptibility of soils topreferential flow of water : A field study[J]. Water ResourcesResearch, 1994, 30(7): 1945-1954.
[52] Merdun H, Meral R, Riza D A. Effect of the initial soil moisturecontent on the spatial distribution of the water retention [J].Eurasian Soil Science, 2008, 41(10): 1098-1106.
[53] De Rooij G H. Modeling fingered flow of water in soils owing towetting front instability: a review[J]. Journal of Hydrology, 2000,231-232: 277-294.
[54]盛丰,方妍。土壤水非均匀流动的碘-淀粉染色示踪研究[J].土壤,2012,44(1):144-148.Sheng Feng, Fang Yan. Study on preferential soil water flowusing iodine-starch staining method[J]. Soils, 2012, 44(1): 144-148. (in Chinese with English abstract)
[55] Edwards W M, Shipitalo M J, Owens L B, et al. Rainfall intensityaffects transport of water and chemicals through macropores innon-till soil[J]. Soil Science Society of America Journal, 1992,56: 52-58.
[56] Ghodrati M, Jury W A. A field study using dyes to characterizepreferential flow of water [J]. Soil Science Society of AmericaJournal, 1990, 54(6): 1558-1563.
[57] Ren G L, Izadi B, King B, et al. Preferential transport of bromidein undisturbed cores under different irrigation methods[J]. SoilScience, 1996, 161(4): 214-225.
[58] Sheng F, Wang K, Zhang R, et al. Characterizing soil Preferentialflow using iodine-starch staining experiments and the activeregion model[J]. Journal of Hydrology, 2009, 367: 115-124.
[59] Flury M, Flühler H. Modeling solute leaching in soils bydiffusion-limited aggregation: Basic concepts and applications toconservative solutes[J]. Water Resource Research , 1995 , 31 :2443-2452.
[60] Philip J R . Stability analysis of infiltration[J]. Soil ScienceSociety of America Proceeding, 1975, 39: 1042-1049.
[61] Philip J R. The growth of disturbances in unstable infiltrationflows[J]. Soil Science Society of America Proceeding, 1975, 39:1049-1053.
[62] Parlange J Y, Hill D E. Theoretical analysis of wetting frontinstability in soils[J]. Soil Science, 1976, 122: 236-239.
[63] Nguyena H V, Nieber J L, Ritsemab C J, et al. Modeling gravitydriven unstable flow in a water repellent soil[J]. Journal ofHydrology, 1999, 215: 202-214.
[64] Glass R J, Steenhuis T S, Parlange J Y. Mechanism for fingerpersistence in homogeneous unsaturated porous media: Theoryand verification[J]. Soil Science, 1989, 148: 60-70.
[65] Nieber J L . Modeling finger development and persistence ininitial dry porous media[J]. Geoderma, 1996, 70: 209-229.
[66] Ritsema C J, Dekker L W. Modeling and field evidence of fingerformation and finger recurrence in a water repellent sandy soil[J]. Water Resources Research, 1998, 34: 555-567.
[67]贾宏伟,康绍忠,张富仓,等。土壤水力学特征参数空间变异的研究方法评述[J].西北农林科技大学学报(自然科学版),2004(32):97-102.Jia Hongwei, Kang Shaozhong, Zhang Fucang, et al. A review ofstudy methods on spatial variability of soil hydraulic properties[J]. Journal of Northwest Science Technology University ofAgriculture and Forestry (Nature Science Edition), 2004 (32):97-102. (in Chinese with English abstract)
[68] Tompson A F B, Gelhar L W. Numerical simulation of solutetransport in three-dimensional, randomly heterogeneous porousmedia[J]. Water Resources Research, 1990, 26: 2541-2562.
[69] Feyen J, Jacques D, Timmerman A, et al. Modelling water flowand solute transport in heterogeneous soils: a review of recentapproaches[J]. Journal of Agricultural Engineering Research ,1998, 70: 231-256.
[70]黄冠华。土壤水力特性空间变异的试验研究进展[J].水科学进展, 1999,10(4):450-457.Huang Guanhua. A review of experimental study on spatialvariability of soil hydraulic properties[J]. Advances in WaterScience , 1999 , 10 (4): 450 - 457 . ( in Chinese with Englishabstract)
[71]薛绪掌,张仁铎,桂胜祥。测定尺度对所测土壤导水参数及其空间变异性的影响[J].水土保持通报,2001,21(3):47-51.Xue Xuzhang, Zhang Renduo, Gui Shengxiang. Effect ofmeasurement scales on measured soil hydraulic properties andtheir spatial variability[J]. Bulletin of Soil and Water Conservation,2001, 21(3): 47-51. (in Chinese with English abstract)
[72] Jarvis N J. A review of non-equilibrium water flow and solutetransport in soil macropores: principles, controlling factors andconsequences for water quality[J]. European Journal of SoilScience, 2007, 58: 523-546.
[73] Liu H H, Doughty C, Bodvarsson G S. An active fracture modelfor unsaturated flow and transport in fractured rocks[J]. WaterResources Research, 1998, 34: 2633-2646.
[74]王康,张仁铎,周祖昊,等。多孔介质中非均匀流动模式示踪试验与弥散限制聚合分形模型的应用[J].水利学报,2007,38(6):690-696.Wang Kang, Zhang Renduo, Zhou Zuhao, et al. Experimentalstudy on heterogeneous flow in porous media by tracingtechnology and application of diffusion-limited aggregationfractal modeling[J]. Journal of Hydraulic Engineering, 2007, 38(6): 690-696. (in Chinese with English abstract)[75] Flint A L, Flint L E, Bodvarsson G S, et al. Evolution of theconceptual model of unsaturated zone hydrology at YuccaMountain, Nevada[J]. Journal of Hydrology, 2001, 247: 1 -30.
[76] Wood T R, Norrell G T. Integrated large-scale aquifer pumpingand infiltration tests: groundwater pathways, OU 7-06: SummaryReport [R]. Idaho National Engineering Laboratory, EnvironmentalRestoration Department, Lockheed Martin Idaho TechnologiesCompany, 1996.
[77] Wood T R, Podgorney R K, Faybishenko B. Small scale fieldtests of water flow in a fractured rock vadose zone. Case study tochapter 3 [ M ] / / Looney B , Falta R . Vadose Zone Science andTechnology Solutions. Battelle Press, Columbus, OH, 2000.
[78] Busenberg E, Weeks E P, Plummer L N, et al. Age datingground water by use of chlorofluorocarbons (CCl3F and CCl2F2),and distribution of chlorofluorocarbons in the unsaturated zone,Snake River Plain aquifer, Idaho National EngineeringLaboratory, Idaho [R]. Water - Resources Investigations . Report93-4054(DOE/ID-22107)。 U.S. Geological Survey, Res ton, VA,1993.
[79] Liu H H, Zhang R, Bodvarsson G S. An active region model forcapturing fractal flow patterns in unsaturated soils: Modeldevelopment[J]. Journal of Contaminant Hydrology , 2005 , 80 :18-30.
[80] Witten T A , Sander L M . Diffusion - limited aggregation : Akinetic critical phenomenon[J]. Physics Review Letter, 1981, 47:1400 -1430.
[81] Wilkinson D, Willemsen J F. Invasion percolation: A new formof percolation theory[J]. Journal of Physics A, 1983, 16: 3365-3376.
[82] Meakin P. Diffusion-controlled deposition on fibers and surfaces[J]. Physical Review A, 1983, 27: 2616-2623.
[83] Flury M, Leuenberger J, Studer B, et al. Transport of anions andherbicides in a loamy and sandy field soil[J]. Water ResourcesResearch, 1995, 31: 823-835.
[84] Persson M, Yasuda H, Alberge I J, et al. Modeling plot scale dyepenetration by a diffusion limited aggregation ( DLA ) model[J].Journal of Hydrology, 2001, 250: 98-105.
[85] Paterson L. Diffusion limited aggregation and two-fluid displacementsin porous media[J]. Physics Review Letter, 1984, 52(18): 1621-1624.
[86] Glass R J, Yarrington L. Simulation of gravity fingering in porousmedia using a modified invasion percolation model [J]. Geoderma,1996, 70: 231-252.
[87] Klafter J, Shlesinger M F, Zumofen G. Beyond Brownian motion[J]. Physics Today, 1996, 49(2): 33-39.
[88] Wang K, Zhang R, Yasuda H. Characterizing heterogeneity ofsoil water flow by dye infiltration experiments[J]. Journal ofHydrology, 2006, 328: 559-571.
[89] Liu H H, Zhang G, Bodvarsson G S. The active fracture model:Its relation to fractal flow behavior and a further evaluation usingfield observations[J]. Vadose Zone Journal, 2003, 2: 259-269.
[90]盛丰,王康,张仁铎,等。田间尺度下土壤水流非均匀运动特征的染色示踪研究[J].水利学报,2009,40(1):101-108.Sheng Feng, Wang Kang, Zhang Renduo, et al. Study onheterogeneous characteristics of soil water flow in field [J].Journal of Hydraulic Engineering , 2009 , 40(1): 101 -108. (inChinese with English abstract)
[91] Morris C , Mooney S J . A high - resolution system for thequantification of preferential flow in undisturbed soil usingobservations of tracers[J]. Geoderma, 2004, 118: 133-143.
[92] Weiler M, Flühler H. Inferring flow types from dye patterns inmacroporous soils[J]. Geoderma, 2004, 120: 137-153.
[93] Wang K, Zhang R, Sheng F. Effects of irrigation efficiency onchemical transport processes[J]. Science in China Series E :Technological Science, 2009, 52(11): 1-6.
[94] Yasuda H, Berndtsson R, Persson H, et al. Characterizingpreferential transport during flood irrigation of a heavy clay soilusing the dye Vitasyn Blua[J]. Geoderma, 2001, 100: 49-66.
[95] Bouma J, Dekker L W, W觟sten J H M. A case study oninfiltration into dry clay soil II . Physical measurements [J].Geoderma, 1978, 20(1): 41-51.
[96] Sollins P, Radulovich R. Effects of soil physical structure onsolute transport in a weathered tropical soil[J]. Soil ScienceSociety of America Journal, 1988, 52: 1168-1173.
[97] Natano R, Kawamura N, Ikda J, et al. Evaluation of the effectmorphological features of flow paths on solute transport by usingfractal dimensions of methylene blue staining pattern [J].Geoderma, 1992, 53: 31-44.
[98] Flury M, Flühler H. Brilliant Blue FCF as a dye tracer for solutetransport studies - A toxicological overview [J]. Journal ofEnvironmental Quality, 1994, 23: 1108-1112.
[99] Forrer I, Parrita A, Kasteel R, et al. Quantifying dye tracers insoil profiles by image processing[J]. European Journal of SoilScience, 2000, 51: 313-322.
[100] Noguchi S, Rahim N A, Baharuddin K, et al. Soil physicalproperties and preferential flow pathways in tropical rain forest,Bubit Tarek, Peniusular, Malaysia[J]. Journal of Forest Research,1997, 2: 115-120.
[101]王康。多孔介质非均匀流动显色示踪技术与模拟方法[M].北京:科学出版社,2009.
[102] Flury M, Wai N N. Dyes as tracers for vadose zone hydrology[J].Reviews of Geophysics, 2003, 41, doi:10.1029/2001RGooo109.
[103] Nobles M M, Wilding L P, Lin H S. Flow pathways of bromideand Brilliant Blue FCF tracers in caliche soils[J]. Journal ofHydrology, 2010, 393: 114-122.
[104] Bogner C, Wolf B, Schlather M, et al. Analysing flow patternsfrom dye tracer experiments in a forest soil using extremevalue statistics[J]. European Journal of Soil Science, 2008, 59(1): 103-113.
[105] Wang K , Zhang R . Heterogeneous soil water flow andmacropores described with combined tracers of dye and iodine[J]. Journal of Hydrology, 2011, 397(1-2): 105-117.
[106] Lu J, Wu L. Visualizing bromide and iodide water tracer in soilprofiles by spray methods[J]. Journal of Environmental Quality,2003, 32: 363-367.
[107] Van Ommen H C, Dekker L W, Dijksma R, et al. A newtechnique for evaluating the presence of preferential flow pathsin non-structured soils[J]. Soil Science Society of AmericaJournal, 1988, 52: 1192-1193.
[108] Hangen E, Gerke H H, Schaaf W, et al. Flow path visualizationin a lignitic mine soil using iodine-starch staining[J]. Geoderma,2004, 120: 121-135.
[109] Posadas D A N , Tannús A , Panepucci H , et al . Magneticresonance imaging as a non-invasive technique for investigating3-D preferential flow occurring within stratified soil samples[J].Computers and Electronics in Agriculture, 1996, 14(4): 255-267.
[110] Sheng F, Liu H H, Wang K, et al. Investigation into preferentialflow in natural unsaturated soils with field multiple-tracerinfiltration experiments and the active region model[J]. Journalof Hydrology, 2014, 508: 137-146.
[111]徐宗恒,徐则民,曹军尉,等。土壤优先流研究现状与发展趋势[J].土壤,2012,44(6):905-916.Xu Zongheng, Xu Zemin, Cao Junwei, et al. Present and futureresearch of preferential flow in soil[J]. Soils, 2012, 44(6): 905-916. (in Chinese with English abstract)
[112] Germann P F, Di Pietro L. Scales and dimensions of momentumdissipation during preferential flow in soils[J]. Water ResourcesResearch, 1999, 35(5): 1443-1454.
[113] Brandt H. A study of the speed of sound in porous granularmedia[J]. Journal of Applied Mechanics, 1954, 22: 479-486.
[114] Blum A , Flamme I , Friedli T , et al . Acoustic tomographyapplied to water flow in unsaturated soils[J]. Soil Science Societyof America, 2004, 3: 288-299.
[115] Flammer I, Blum A, Leiser A, et al. Acoustic assessment of flowpatterns in unsaturated soil[J]. Journal of Applied Geophysics,2001, 46(2): 115-128.
[116]陈风琴,石辉。岷江上游三种典型植被下土壤优势流现象的染色法研究[J].生态科学,2006,25(1):69-73.Chen Fengqin, Shi Hui. A study on soil preferential flow underthree vegetations in the upper reach of Min Jiang River bybrilliant blue dye[J]. Ecologic Science, 2006,25(1): 69-73. (inChinese with English abstract)[117] Radulovich R , Solorzano E , Sollins P . Soil macropore sizedistribution from water breakthrough curves[J]. Soil ScienceSociety of America Journal, 1989, 53(2): 556-559.
[118] Mooney S J, Morris C. Morphological approach to understandingpreferential flow using image analysis with dye tracers and X-ray computed tomography[J]. Catena, 2008, 73(2): 204-211.
[119] Paola F. Magnetic resonance for fluids in porous media at theUniversity of Bologna[J]. Magnetic Resonance Imaging, 2005,23(2): 125-131.
[120] 冯杰,郝振纯。 CT 扫描确定土壤大孔隙分布[J]. 水科学进展,2002,13(5):611-617.Feng Jie, Hao Zhenchun. Distribution of soil macroporescharacterized by CT[J]. Advances in Water Science, 2002, 13(5): 611-617. (in Chinese with English abstract)
[121] Gómez-Ortiz D, Martín-Crespo T, Rodríguez I, et al. Theinternal structure of modern barchan dunes of the Ebro RiverDelta ( Spain ) from ground penetrating radar [J]. Journal ofApplied Geophysics, 2009, 68(2), 159-170.
[122] Kung K J S, Donohue S V. Improved solute sampling protocol ina sandy vadose zone using ground-penetrating radar. [J]. SoilScience Society of America Journal, 1991, 55: 1543-1545.
[123] Vanderborght J, Kemna A, Hardelauf H, et al. Potential ofelectrical resistivity tomography to infer aquifer transportcharacteristics from tracer studies: A synthetic case study [J].Water Resource Research, 2005, 41, W06013, doi:10.1029/2004WR003774.
- 相关内容推荐
相近分类:
- 上一篇:水溶肥料中有毒有害重金属含量状况调查
- 下一篇:土壤酶活性的影响因子与展望
推荐阅读
