[1] IPCC. Third assessment report climate change[C]∥Houghton J T, Ding Y, Griggs D J,eds.The Scientific Basis. Cambridge:Cambridge University Press,2001: 944. [2] Andreae M. Climate effects of changing atmospheric aerosol levels[C]∥Henderson-sellers A. Future Climate of the World.Amsterdam: Elservier,1995:311-392. [3] Tegen I, Lacis A A. Modeling of particle size distribution and its influence on the radiative properties of mineral dust aerosol[J].Journal of Geophysical Research, 1996, 101 (D14):19 237-19 244. [4] Liu Qiang,Wang Mingxing, Li Jing, et al. Present research on atmospheric aerosol and its trends[J].China Powder Science and Technology,1999,5(3):17-23.[刘强,王明星,李晶,等.大气气溶胶的研究现状及发展趋势[J] . 中国粉体技术,1999,5(3):17-23.] [5] Losno R, Bergametti G, Carlier P. Major ions in marine rain water with attention to sources of alkaline and acidic species[J].Atmospheric Environment,1991,25:763-770. [6] Dentener F J, Carmichael G R, Zhang Y, et al. Role of mineral aerosol as a reactive surface in the global troposphere [J].Journal of Geophysical Research,1996,101:22 869-22 889. [7] Harrison S P, Kohfeld K E, Roelandt C, et al. The role of dust in climate changes today , the Last Glacial Maximum and in the future [J].Earth Science Reviews, 2001,54:43-80. [8] Duce R A, Tindale N W. Atmospheric transport of iron and its deposition in the ocean[J].Limnology and Oceanography,1991,36:1 715-1 726. [9] Duce R A. Sources, distributions, and fluxes of mineral aerosols and their relationship to climate[C]∥Charlson R J, Heintwenberg. Aerosol Forcing of Climate. New York: John Wiley &Sons Ltd., 1995:43-72. [10] Meng Ziqiang, Hu Min,Guo Xinbiao,et al. The research status of the impact of sand storms on human health[J].China Public Health,2003,(4):471-472.[孟紫强,胡敏,郭新彪,等.沙尘暴对人体健康影响的研究现状[J].中国公共卫生,2003,(4):471-472.] [11] Joussaume S. Three-dimensional simulation of the atmospheric cycle of desert dust particles using a general circulation model[J]. Journal of Geophysical Research,1990,95:1 909-1 941. [12] Joussaume S. Paleoclimatic tracers: An investigation using an atmospheric general circulation model under ice age conditions, 1. Desert dust[J].Journal of Geophysical Research, 1993, 98: 2 767-2 805. [13] Genthon C. Simulations of desert dust and sea salt aerosols in Antarctica with a general circulation model of the atmosphere[J].Tellus B, 1992,44: 371-389. [14] Gillette D A. Environmental factors affecting dust emission by wind erosion[C]∥Morales C, ed. Saharan Dust. New York: John Wiley,1979:71-94. [15] Marticorena B, Bergametti G. Modeling the atmospheric dust cycle: 1-Design of a soil derived dust production scheme[J].Journal of Geophysical Research,1995, 100:16 415-16 430. [16] Marticorena B, Bergametti G, Aumont B, et al. Modeling the atmospheric dust cycle: 2-Simulation of Saharan sources[J]. Journal of Geophysical Research,1997, 102: 4 387-4 404. [17] Shao Y and Lu H. A simple expression for wind erosion threshold friction velocity[J].Journal of Geophysical Research, 2000,105: 22 437-22 443. [18] Shao Y, Raupach M R, Leys J F. A model for predicting aeolian sand drift and dust entrainment on scales from paddock to region[J]. Australian Journal of Soil Research, 1996, 34: 309-342. [19] Shao Y. A model for mineral dust emission[J]. Journal of Geophysical Research, 2001, 106: 20 239-20 254. [21] Greeley R, Iversen J D. Wind as a Geological Process on Earth, Mars, Venus and Titan[M]. New York: Cambridge University Press, 1985:333. [22] Bagnold R A. The Physics of Blown Sand and Desert Dunes[M]. New York: Methuen, 1941:265. [23] Liu Xianwan. Experimental Aeolian Physics and Engineering[M]. Beijing: China Sciences and Technology Press,1995.[刘贤万.实验风沙物理与风沙工程学[M].北京:科学出版社,1995.] [24] Dong Zhibao,Dong Guangrong,Chen Guangting. The advances in blown sand physics[J].Exploration of Nature,1995,14(53):30-38.[董治宝,董光荣,陈广庭.风沙物理学研究进展与展望[J].大自然探索,1995,14(53):30-38.] [25] Mu Qingsong,Miao Tiande,Ma Chongwu. Threshold velocity for mix-sized sand and formation dynamics of gravel surface[J].Journal of Desert Research,2004,24(3):268-273.[慕青松,苗天德,马崇武.不均匀沙起动理论及戈壁风蚀层形成动力学[J].中国沙漠,2004,24(3):268-273.] [26] Dong Zhibao,Qian Guangqiang. A review on effect of soil moisture on wind erosion threshold velocity[J].Acta Pedologica Sinica,2007,44(5):934-943.[董治宝,钱广强.关于土壤水分对风蚀起动风速影响研究的现状与问题[J].土壤学报,2007,44(5):934-943.] [27] Bisal F,Hsieh J.Influence of moisture on the rodibility of soil by wind[J].Soil Science,1966,102:143-146. [28] Horikawa K,Hotta S,Kubota S.Experimental study of blown sand on a wetted sand surface[J].Coastal Engineering of Japan,1982,25:177-195. [29] He Daliang,Shen Jianyou. Influence of water content on the threshold of sand movement and the rate of sand[J].Journal of Desert Research, 1988,8(4):18-26.[贺大梁,申建友.降水对起沙风速的影响[J].中国沙漠,1988,8(4):18-26.] [30] Hu Mengchun, Liu Yuzhang, Wu Lan, et al. A experimemtal study in wind tunnel on wind erosion of soft in Korqin sandy land[J].Journal of Desert Research,1991,11(1):22-29.[胡孟春,刘玉璋,乌兰, 等.科尔沁沙地土壤风蚀的风洞实验研究[J].中国沙漠,1991,11(1):22-29.] [31] Chepil W S.Influence of moisture on erodibility of soil by wind[J].Proceedings of Soil Science Society of America,1956,20:288-292. [32] Hotta S,Kubota S,Katori S,et al.Sand transport by wind on a wet sand surface[C]∥Proceedings of the 19th Coastal Engineering Conference ASCE. New York:American Society of Civil Engineers,1984:1 263- 1 281. [33] Saleh A, Fryrear D W.Threshold wind velocities of wet soils as affected by wind blown sand[J].Soil Science,1995,160:304-309. [34] Dong Zhibao, Chen Weinan, Li Zhenshan,et al. On resistance of eolian sandy soil moisture to wind erosion[J]. Bulletin of Soil and Water Conservation, 1996,16(2):17-23.[董治宝,陈渭南,李振山,等.风沙土水分抗风蚀性研究[J].水土保持通报,1996,16(2):17-23.] [35] Chen W N,Dong Z B,Li Z S,et al.Wind tunnel test of the influence of moisture on the erodibility of loessial sandy loam soils by wind[J]. Journal of Arid Environments,1996,34:391-402. [36] Kawata Y,Tsuchiya Y.Influence of water content on the threshold of sand movement and the rate of sand transport in blown sand[J].Proceedings of the Japan Society of Civil Engineering,1976,249:95-100. [37] McKenna-Neuman C,Nickling W G.A theoretical and wind tunnel investigation of the effect of capillary water on the entrainment of sediment by wind[J].Canadian Journal of Soil Science,1989,69:79-96. [38] Haines W B.Studies of the physical properties of soils.II.A note on the cohesion developed by capillary forces in an ideal soil[J].Journal of Agricultural Science,1925,15:529-535. [39] Gregory J M,Darwish M M.Threshold friction velocity prediction considering water content[C]∥Presented at the 1990 International Water Meeting of ASAE. Chicago: Illinois,1990:902562. [40] Fécan F, Marticorena B, Bergametti G. Parameterization of the increase of the aeolian erosion threshold wind friction due to soil moisture for semi arid areas[J].Annales Geophysicae, 1999, 17: 149-157. [41] Comelis W M ,Gabriels D,Hartmann R.A param eterization for the threshold shear velocity to initiate deflation of dry and wet sediment[J].Geomorphology,2004,9:43-51. [42] Michael R, Raupach, Hua Lu. Representation of land-surface processes in aeolian transport models[J].Environmental Modelling & Software, 2004,19: 93-112. [43] Van de Ven T A M, Fryrear D W, Spaan W P.Vegetation characteristics and soil loss by wind[J].Journal of Soil and Water Conservation,1989, 44:347-349. [44] Wlolfe S A, Nickling W G.The protective role of sparse vegetation in wind erosion[J].Progress in Physical Geography,1993, 17:50-68. [45] Lettau H. Notes on the aerodynamic roughness parameter estimation on the basis of roughness element description[J].Joumal of Applied Meteorology, 1969, 8:828-830. [46] Lancaster N, Baas A. Influence of vegetation cover on sand transport by wind:Field studies at Owens lake,Califomia[J].Earth Surface Processes and Landforms, 1998, 23:69-82. [47] Wolfe S A, Nickling W G. Shear stress partitioning in sparsely vegetated desert canopies[J].Earth Surface Processes and Landforms, 1996, 21:607-620. [48] Raupach M R. Drag and drag partition on rough surfaces[J].Boundary-Layer Meteorology,1992, 60:375-395. [49] Raupach M R, Gilette D A, Leys J F. The effect of roughness elements on wind erosion threshold[J].Journal of Geophysical Research, 1993, 98:3 023-3 029. [50] Li Xiaoli, Shen Xiangdong. The analysis on the mechanism of anti-wind erosion of soil crust[J].Journal of Arid Land Resources and Environment, 2006, 20(2): 203-207.[李晓丽,申向东. 结皮土壤的抗风蚀性分析[J]. 干旱区资源与环境,2006, 20(2): 203-207.] [51] Nickling W G . The stabilizing role of bonding agents on the entrainment of sediment by wind[J]. Sedimentology,1984, 31:111-117. [52] Zhang Chunlai, Zou Xueyong, Gong Jirui,et al.Aerodynamic roughness of cultivated soil and its influences on soil erosion by wind in a wind tunnel[J].Soil & Tillage Research, 2004, 75:53-59. [53] Kardous M, Bergametti G, Marticorena B. Aerodynamic roughness length related to non-aggregated tillage ridges[J].Annales Geophysicae,2005,23:3 187-3 193. [54] Kardous M, Bergametti G, Marticorena B.Wind tunnel experiments on the effects of tillage ridge features on wind erosion horizontal fluxes[J].Annales Geophysicae,2005, 23: 3 195-3 206. [55] Yue Gaowei, Huang Ning, Zheng Xiaojing.Effect of irregular sand grains and electrostatic force on threshold wind speed[J].Journal of Desert Research, 2003,23(6):621-627.[岳高伟,黄宁,郑晓静. 沙粒形状的不规则性及静电力对起动风速的影响[J].中国沙漠,2003,23(6):621-627.] [56] Zeng Qingcun,Cheng Xueling, Hu Fei. The mechanism of soil erosion and dust emission under the action of nonsteady strong wind with descending motion and gustwind[J]. Climatic and Environmental Research, 2007,12(3):244-250.[曾庆存,程雪玲,胡非. 大气边界层非常定下沉急流和阵风的起沙机理[J].气候与环境研究,2007,12(3):244-250.] [57] McKenna-Neuman C. Effects of temperature and humidity upon the entrainment of sedimentary particles by wind[J]. Boundary-Layer Meteorol, 2003, 108:61-89. [58] Wang Wei,Song Zhenxin,Shao Yaping,et al.Numerical simulation and forecast system of dust storms and its performance test[J].Meteorological Science and Technology, 2005,33(1):25-31.[王炜,宋振鑫,邵亚平,等.沙尘暴天气数值预报系统及其预报效果检验[J].气象科技,2005,33(1):25-31.] [59] Gillette D A. On the production of soil wind erosion aerosols having the potential for long range transport[J].Journal de Recherches Atmospheriques, 1974, 8: 735-744. [60] Gillette D A .Fine particulate emissions due to wind erosion[J].Transactions of the American Society of Agricultural Engineers,1977,20:890-987. [61] Gillette D A. Threshold friction velocities for dust production for agricultural soils[J].Journal of Geophysical Research,1988, 93: 12 645-12 662. [62] Gillette D A. Production of dust that may be carried great distances[M]∥Pewe T L, ed. Desert Dust: Origin, Characteristics and Effect on Man. Boulder: Geological Society of American,1981,186:11-26. [63] Shao Y, Raupach M R and Findlater P A. Effect of saltation bombardment on the entrainment of dust by wind[J].Journal of Geophysical Research,1993,98:12 719-12 726. [64] Gillette D A, Passi R. Modeling dust emission caused by wind erosion[J]. Journal of Geophysical Research,1988,93:14 233-14 242. [65] Nickling W G, Gilles J A. Dust emission and transport in Mali , West Africa [J].Sedimentology, 1993,40:859-868. [66] Borrman S, Jaenicke R. Wind tunnel experiments on the resuspension of the sub-micrometer particles from a sand surface[J].Atmospheric Environment,1987,21:1 891-1 898. [67] Mei Fanmin,Zhang Xiaoye,Lu Huayu,et al. Review on progress in modeling dust emission caused by wind erosion[J].Journal of Desert Research, 2004,24(6):791-797.[梅凡民,张小曳,鹿化煜,等.若干风蚀粉尘释放模型述评[J].中国沙漠,2004,24(6):791-797.] [68] Alfaro S, Gomes L. Modeling mineral aerosol production by wind erosion: Emission intensities and aerosol size distributions in source areas[J].Journal of Geophysical Research, 2001, 106: 18 075-18 084. [69] Alfaro S. Influence of soil texture on the binding energies of fine mineral dust particles potentially released by wind erosion[J].Geomorphology,2008, 93:157-167. [70] Lu H, Shao Y.A new model for dust emission by saltation bombardment[J]. Journal of Geophysical Research, 1999, 104: 16 827-16 842. [71] Arimoto R, Duce R A, Ray B J, et al. Atmospheric trace elements at Enewetak Atoll: 2. Transport to the ocean by wet and dry deposition[J].Journal of Geophysical Research,1985, 90:2 391-2 408. [72] Dulac F, Buat-Menard P, Ezat U, et al. Atmospheric input of trace metals to the western Mediterranean: Uncertainties in modeling dry deposition from cascade impactor data[J].Tellus,1989,41B:362-378. [73] Duce R A, Liss P S, Merrill J T, et al. The atmospheric input of trace species to the world ocean[J].Global Biogeochemical Cycles,1991, 5:193-259.[74] Shao Yaping. Physics and Modelling of Wind Erosion[M].Sydney,Australia:School of Mathematics,The University of New South Wales,2007. [75] Gross G.Numerical Simulation of Canopy Flows[M]. Berlin:Springer-Verlag, 1993. [76] Kaimal J C, Finnigan J J. Atmospheric Boundary Layer Flows, Their Structure and Measurement[M]. Oxford:Oxford University Press, 1994. [77] Fuchs N A. The Mechanics of Aerosols[M]. Oxford: Permagon Press, 1964. [78] Slinn S A. Predictions for particle deposition to vegetative canopies[J].Atmospheric Environment,1982,16:1 785-1 794. [79] Davidson C I, Miller J M, Pleskow M A. The influence of surface structure on predicted particle dry deposition to natural grass canopies[J].Water, Air and Soil Pollution, 1982,18:25-43. [80] Zhang L, Gong S, Padro J, et al. A size-segregated particle dry deposition scheme for an atmospheric aerosol module[J].Atmospheric Environment, 2001,35: 549-560. [81] Wiman B L B, Agren G I. Aerosol depletion and deposition in forests—A model analysis[J]. Atmospheric Environment, 1985, 19: 335-347. [82] Legg B J, Powell F A. Spore dispersal in barley crop: A mathematical model[J]. Agricultural Meteorology, 1979, 20:47-67. [83] Aylor D E. Modeling spore liberated in a barley crop[J].Agricultural Meteorology, 1982, 26:215-219. [84] Peters K, Eiden R. Modelling the dry deposition velocity of aerosol particles to a spruce forest[J]. Atmospheric Environment, 1992, 26A: 2 555-2 564. [85] Chamberlain A C. The movement of particles in plant canopies[C]∥Monteith J L, ed.Vegetation and the Atmosphere. London: Academic Press, 1975:155-228. [86] Ruijgrok W, Davidson C I, Nicholson K W. Dry deposition of particles. Implications and recommendations for mapping of deposition over Europe[J].Tellus,1995,47:587-601. [87] Tammet H, Kimmel V, Israelsson S. Effect of atmospheric electricity on dry deposition of airborne particles from atmosphere[J]. Atmospheric Environment, 2001, 35: 3 413-3 419. [88] Slinn W G N. Air to sea transfer of particles[C]∥Liss P S, Slinn W G N, eds. Air Sea Exchange of Gases and Particles, NATO ASI Series. Dordrecht:Reidel Publishing Company, 1983:299-405. [89] Jung E J. Numerical Simulation of Asian Dust Events: The Impacts of Convective Transport and Wet Deposition[D].Sydney: The University of New South Wales,2004. |