[1] Zobeck T M,Sterk G.Measurement and data analysis methods for fleld-scale wind erosion and model validation[J].Earch Surface Processes and Landforms,2003,28:1163-1188.
[2] Van Donk S J,Skidmore E L.Field experiments for evaluating wind erosion models[J].Annals of Arid Zone,2001,40(3):281-302.
[3] Wang G,Li J R,Ravi S,et al.Tracer techniques in aeolian research:pproaches,applications,and challenges[J].Earth-Science Reviews,2017,170:1-16.
[4] Olsson-Seffer P.Relation of wind to topography of coastal drift sands[J].Journal of Geology,1908,16:549-564.
[5] Bagnold R A.The Physics of Blown Sand and Desert Dunes[M].New York,USA:Chapman and Hall,1941.
[6] Chepil W S,Milne R A.Wind erosion of soils in relation to size and nature of the exposed area[J].Scientific Agriculture,1941,21:479-487.
[7] Chepil W S.Dynamics of wind erosion:V.cumulative intensity of soil drifting across eroding fields[J].Soil Science,1946,61:257-263.
[8] Chepil W S.Conversion of relative field erodibility to annual soil loss by wind[J].Soil Science Society of America Journal,1960,24(2):143-145.
[9] Fryrear D W,Stout J E,Hagen L J,et al.Wind erosion:field measurement and analysis[J].Transactions of the American Society of Agricultural Engineers,1991,34(1):155-160.
[10] Van Pelt R S,Zobeck T M,Potter K N.Validation of the Wind Erosion Equation (WEQ) for discrete periods and of the wind erosion stochastic simulator (WESS) for single events[C]//Ascough J C,Flanagan D C. Proceedings of the International Symposium on Soil Erosion Research for the 21st Century.St.Joseph,MI,USA:American Society of Agricultural Engineers,2001:683-686.
[11] Zobeck T M,Van Pelt R S,Stout J E,et al.Validation of the Revised Wind Erosion Equation (RWEQ) for single events and discrete periods[C]//Ascough J C,Flanagan D C.Proceedings of the International Symposium on Soil Erosion Research for the 21st Century.St.Joseph,MI,USA:American Society of Agricultural Engineers,2001:471-474.
[12] Van Pelt R S,Zobeck T M,Potter K N,et al.Validation of the Wind Erosion Stochastic Simulator (WESS) and the Revised Wind Erosion Equation (RWEQ) for single events[J].Environmental Modelling and Software,2003,19:191-198.
[13] Sterk G,Lopez M V,Arrue J L.Saltation transport in a silt loam soil in northeast Spain[J].Land Degradation & Development,1999,10:545-554.
[14] Gomes L,Arrue J L,Lopez M V,et al.Wind erosion in a semi-arid agricultural area of Spain:the WELSONS project[J].Catena,2003,52:235-256.
[15] Web N P,Herrick J E,Van Zee J W,et al.The National Wind Erosion Research Network:building a standardized long-term data resource for aeolian research,modeling and land management[J].Aeolian Research,2016,22:23-36.
[16] 董治宝.中国风沙物理研究五十年(I)[J].中国沙漠,2005,25(3):293-305.
[17] 李振山,倪晋仁,刘贤万.垂直点阵集沙仪的集沙效率[J].泥沙研究,2003(1):24-32.
[18] 李长治,董光荣,石蒙沂.平口式集沙仪的研制[J].中国沙漠,1987,7(3):49-56.
[19] Zhang Z C,Dong Z B,Qian G Q,et al.An investigation into the processes and quantity of dust emissions over gravel and sand deserts in North-Western China[J].Boundary-Layer Meteorology,2017,163(3):523-535.
[20] Wang G X,Tuo W Q,Du M Y.Flux and composition of wind-eroded dust from different landscapes of an arid inland river basin in north-western China[J].Journal of Arid Environments,2004,58:373-385.
[21] 梅凡民,Rajot J,Alfaro S,et al.毛乌素沙地的粉尘释放通量观测及DPM模型的野外验证[J].科学通报,2006,51(11):1326-1332.
[22] Yang X H,He Q,Ali Mamtimin,et al.Diurnal variations of saltation activity at Tazhong:the hinterland of Taklimakan Desert[J].Meteorology and Atmospheric Physics,2013,119:177-185.
[23] Qian G Q,Dong Z B.Airflow patterns upwind of obstacles and their significance for echo dune formation:a field measurement of the effects of the windward slope angle[J].Science in China (Series D),2012,55:545-553.
[24] 邹学勇,张春来,程宏,等.土壤风蚀模型中影响因子的分类与表达[J].地球科学进展,2014,29(8):875-889.
[25] Zhang C L,Zhou N,Zhang J Q.Sand flux and wind profiles in the saltation layer above a rounded dune top[J].Science China:Earth Sciences,2014,57(3):523-533.
[26] Cheng H,He J J,Xu X R,et al.Blown sand motion within the sand-control system in the southern section of the Taklimakan Desert Highway[J].Journal of Arid Land,2015,7(5):599-611.
[27] 王仁德,邹学勇,赵婧妍.北京市农田风蚀的野外观测研究[J].中国沙漠,2011,31(2):400-406.
[28] 王训明,董治宝,屈建军,等.塔克拉玛干沙漠简单线形沙丘形态动力学过程研究[J].中国沙漠,2003,2(3):257-262.
[29] 韩致文,董治宝,王涛,等.塔克拉玛干沙漠风沙运动若干特征观测研究[J].中国科学(D辑),2003,33(3):255-263.
[30] 王仁德,肖登攀,长春平,等.农田风蚀量随风速的变化[J].中国沙漠,2015,35(5):1120-1127.
[31] 张正偲,董治宝.风沙地貌形态动力学研究进展[J].地球科学进展,2014,29(6):734-747.
[32] Walker I J.Physical and logistical considerations of using ultrasonic anemometers in aeolian sediment transport research[J].Geomorphology,2005,68(1/2):57-76.
[33] Roy A G,Biron P,De Serres B.On the necessity of applying a rotation to instantaneous velocity measurements in river flows[J].Earth Surface Processes and Landforms,1996,21(9):817-827.
[34] van Boxel J H,Sterk G,Arens S M.Sonic anemometers in Aeolian sediment transport research[J].Geomorphology,2004,59(1/4):131-147.
[35] Barchyn T E,Hugenholtz C H.Comparison of four methods to calculate aeolian sediment transport threshold from field data:implications for transport prediction and discussion of method evolution[J].Geomorphology,2011,129:190-203.
[36] 朱好,张宏升.沙尘天气过程临界起沙因子的研究进展[J].地球科学进展,2014,26(1):30-38.
[37] Lal R.Soil Erosion Research Methods[M].Delray Beach,USA:St.Lucie Press,1994.
[38] Gillette D A,Stockton P H.Mass momentum and kinetic energy fluxes of saltating particles[M]//Nickling W G.Aeolian Geomorphology.Boston,USA:Allen and Unwin,1986:35-56.
[39] Spaan W P,van den Abeele G D.Wind borne particle measurements with acoustic sensors[J].Soil Technology,1991,4:51-63.
[40] Baas A C W.Evaluation of saltation flux impact responders (Safires) for measuring instantaneous aeolian sand transport intensity[J].Geomorphology,2004,59:99-118.
[41] 申彦波,沈志宝,杜明远,等.敦煌春季沙尘天气过程中某些参量和影响因子的变化特征[J].高原气象,2003,22(4):378-384.
[42] 张宏升,朱好,彭艳,等.沙尘天气过程沙地下垫面沙尘通量的获取与分析研究[J].气象学报,2007,65(5):744-752.
[43] 成天涛,吕达仁,徐永福.浑善达克沙地起沙率和起沙量的估算[J].高原气象,2006,25(2):236-241.
[44] Davidson-Arnott R G D,Bauer B O.Aeolian sediment transport on a beach:thresholds,intermittency and high frequency variability[J].Geomorphology,2009,105:117-126.
[45] Ellis J T,Morrison R F,Priest B H.Detecting impacts of sand grains with a microphone system in field conditions[J].Geomorphology,2009,105:87-94.
[46] Sherman D J,Li B L,Farrell E J,et al.Measuring aeolian saltation:a comparison of sensors[J].Journal of Coastal Research,2011,10059:280-290.
[47] Shaw R H,Pereira A R.Aerodynamic roughness of a plant canopy:a numerical experiment[J].Agricultural Meteorology,1982,26:51-65.
[48] Fox F A,Wagner L E.A laser distance-based method for measuring standing residue[M]//Ascough J C I, Flanagan D C.Soil Erosion Research for the 21st Century.St.Joseph,MI,USA:ASAE,2001:207-210.
[49] 张淼,李强子,蒙继华,等.作物残茬覆盖度遥感监测研究进展[J].光谱学与光谱分析,2011,31(12):3200-3205.
[50] 吕萍,董治宝.戈壁风蚀面与植被覆盖面地表性质粗糙度长度的确定[J].中国沙漠,2003,24(3):279-285.
[51] Poesen J W,Van Wesemael B,Bunte K,et al.Variation of rock fragment cover and size along semiarid hills-lopes:a case study from southeast Spain[J].Geomorphology,1998,23(2/3/4):323-335.
[52] Nyssen J,Poesen J,Moeyersons J,et al.Patial distribution of rock fragment in cultivated soils in Northern Ethiopia as affected by lateral and vertical displacement processes[J].Geomorphology,2002,43(1/2):1-16.
[53] 朱元骏,邵明安.黄土高原水蚀风蚀交错带小流域坡面表土砾石空间分布[J].中国科学(D辑),2008,38(3):375-283.
[54] Kardous M,Bergametti G,Marticorena B.Aerodynamic roughness length related to non-aggregated tillage ridges[J].Annales Geophysicae,2005,23:3187-3193.
[55] Hagen L.A wind erosion prediction system to meet user needs[J].Journal of Soil and Water Conservation,1991,46(2):105-111.
[56] Allmaras R R,Burwell R E,Larson W E,et al.Total Porosity and Random Roughness of the interred zone as Influenced by tillage[M].Washington DC,USA:U.S.Government Print Office,1966.
[57] Fryrear D W.Soil ridges-clods and wind erosion[J].Transactions of the American Society of Agricultural Engineers,1984,18:445-448.
[58] Kuipers H.A relief meter for soil cumulative studies[J].Netherlands Journal of Agricultural Science,1957,5:225-242.
[59] Wagner L W,Yu Y.Digitization of profile meter photographs[J].Transactions of the ASAE,1991,34(2):412-416.
[60] Saleh A.Soil roughness measurement:chain method[J].Journal of Soil and Water Conservation,1993,48:527-529.
[61] Fryrear D W,Saleh A,Bilbro J D,et al.Revised Wind Erosion Equation (RWEQ)[R].Wind Erosion and Water Conservation Research Unit,USDA-ARS,Southern Plains Area Cropping Systems Research Laboratory,1998.
[62] Potter K N,Zobeck T M,Hagen L J.A micro relief index to estimate soil erodibility by wind[J].Transactions of the American Society of Agricultural Engineers,1990,33(1):151-155.
[63] Zobeck T M,Popham T W.Modification of the wind erosion roughness index by rainfall[J].Soil & Tillage Research,1997,42:47-61.
[64] Kardous M,Bergametti G,Marticorena B.Aerodynamic roughness length related to non-aggregated tillage ridges[J].Annals of Geophysics,2005,23,3187-3193.
[65] 周艳莲,孙晓敏,朱治林,等.几种典型地表粗糙度计算方法的比较研究[J].地理研究,2007,26(5):887-896.
[66] Rotach M W.Determination of the zero plane displacement in an urban environment[J].Boundary-layer Meteorology,1994,67:187-193.
[67] 张宏升,陈家宜.非单一水平均匀下垫面空气动力学参数的确定[J].应用气象学报,1997,8(3):310-315.
[68] Martano P.Estimation of surface roughness length and displacement height from single-level sonic anemometer data[J].Journal of Applied Meteorology,2000,39:708-715.
[69] Zobeck T M.Soil properties affecting wind erosion[J].Journal of Soil and Water Conservation,1991,6:112-118.
[70] Pye K,Tsoar H.Aeolian Sand and Sand Dunes[M].London,UK:Springer Verlag,2009:110-113.
[71] Durar A A,Steiner J L,Evett S R,et al.Measured and simulated surface soil drying[J].Agronomy Journal,1995,87:235-244.
[72] Campbell G S,Calissendorff C,Williams J H.Probe for measuring soil specific heat using a heat-pulse method[J].Soil Science Society of America Journal,1991,55:291-293.
[73] Kluitenberg G J,Philip J R.Dual thermal probes near plane interfaces[J].Soil Science Society of America Journal,1999,63:1585-1591.
[74] Idso S B,Jackson R D,Reginato R J,et al.The dependence of bare soil albedo on soil water content[J].Journal of Applied Meteorology,1975,14:109-113.
[75] Skidmore E L,Dickerson J D,Schimmelpfennig F.Evaluating surface-soil water content by measuring reflectance[J].Soil Science Society of America Proceedings,1975,39(2):238-242.
[76] Durar A A,Skidmore E L.The hydrologic components of the wind erosion research model[C]//Agronomy Abstracts.Madison,Wisconsin,USA,1989:238-242.
[77] Webb N P,Strong C L.Soil erodibility dynamics and its representation for wind erosion and dust emission models[J].Aeolian Research,2011,3:165-179.
[78] Zou X Y,Zhang C L,Cheng H,et al.Cogitation on developing a dynamic model of soil wind erosion[J].Science China Earth Science,2015,58:462-473.
[79] Chepil W S.A compact rotary sieve and the importance of dry sieving in physical soil analysis[J].Soil Science Society of America Journal,1962,26:4-6.
[80] Woodruff N P,Siddoway F H.A wind erosion equation[J].Soil Science Society of America Journal,1965,29:602-608.
[81] Hevia G G,Mendez M,Buschiazzo D E.Tillage affects soil aggregation parameters linked with wind erosion[J].Geoderma,2007,140:90-96.
[82] Colazo J C,Buschiazzo D E.Soil dry aggregate stability and wind erodible fraction in a semiarid environment of Argentina[J].Geoderma,2010,159:228-236.
[83] Chepil W S,Bisal F.A rotary sieve method for determining the size distribution of soil clod[J].Soil Science,1943,56:95-100.
[84] Chepil W S.Improved rotary sieve for measuring state and stability of dry soil structure[J].Soil Science Society of America Proceeding,1952,16:113-117.
[85] Lyles L,Dickerson J D,Disrud L A.Modified rotary sieve for improved accuracy[J].Soil Science,1970,109:207-210.
[86] Fryrear D W.Determining soil aggregate stability with a rapid rotaty sieve[J].Journal of Soil and Water Conservation,1985,40:231-233.
[87] Toogood J A.Relation of aggregate stability to properties of Alberta soils[M]//Emerson W W,Bond R D,Dexter A R.Modification of Soil Structure.New York,USA:Wiley,1978:211-215.
[88] López M V,Gracia R,Arrúe J L.An evaluation of wind erosion hazard in fallow lands of semiarid Aragon (NE Spain)[J].Journal of Soil and Water Conservation,2001,56:212-219.
[89] Wang R D,Guo Z L,Chang C P,et al.Quantitative estimation of farmland soil loss by wind-erosion using improved particle-size distribution comparison method(IPSDC)[J].Aeolian Research,2015,19:163-170.
[90] Guo Z L,Chang C P,Wang R D,et al.Comparison of different methods to determine wind-erodible fraction of soil with rock fragments under different tillage/management[J].Soil & Tillage Research,2017,168:42-49.
[91] Feng G L,Sharratt B.Validation of WEPS for soil and PM10 loss from agricultural fields within the Columbia Plateau of the United States[J].Earth Surface Processes and Landforms,2007,32:743-753.
[92] 王仁德,邹学勇,吴晓旭,等.半湿润区农田风蚀物垂直分布特征[J].水土保持学报,2009,23(5):39-43.
[93] Wang R D,Zou X Y,Cheng H,et al.Spatial distribution and source apportionment of atmospheric dust fall at Beijing during spring of 2008-2009[J].Environment Science and Pollution Research,2015,22:3547-3557.
[94] Skidmore E L,Powers D H.Dry soil-aggregate stability:energy based index[J].Soil Science Society of America Journal,1982,46:1274-1279.
[95] Hagen L J.Soil aggregate abrasion by impacting sand and soil particles[J].Transactions of the American Society of Agricultural Engineers,1984,27:805-808,816.
[96] Skidmore E L,Layton J B.Soil measurements to estimate erodibility by wind.In Proceedings of the 1988 Wind Erosion Conference,Gregory J M(ed.).Texas Tech University:Lubbock;1988:133-138.
[97] Boyd D W,Skidmore E L,Thompson J G.A soil-aggregate crushing-energy meter[J].Science Society of America Journal,1983,47:313-316.
[98] Hagen L J,Schroeder B,Skidmore E L.A vertical soil crushing-energy meter[J].Transactions of the American Society of Agricultural Engineers,1995,38(3):711-715.
[99] 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.
[100] Rice M A,Mullins C E,McEwan I K.An analysis of soil crust strength in relation to potential abrasion by saltating particles[J].Earth Surface Processes and Landforms,1997,22:869-883.
[101] 李玄姝,常春平,王仁德.河北坝上土地利用方式对农田土壤风蚀的影响[J].中国沙漠,2014,34(1):23-28.
[102] 李新荣,张元明,赵允阁.生物土壤结皮研究:进展、前沿与展望[J].地球科学进展,2009,24(1):11-24.
[103] Williams J D,Dobrowolski J P,West N E,et al.Microphysics crust and influence on wind erosion[J].Transactions of the ASAE,1995,38(1):131-137.
[104] Goossens D.Effect of soil crusting on the emission and transport of wind-eroded sediment:field measurements on loamy sandy soil[J].Geomorphology,2004,58:145-160.
[105] Zhang J Q,Zhang C L,Ma X J,et al.Dust fall and biological soil crust distribution as indicators of the aeolian environment in China's Shapotou railway protective system[J].Catena,2014,114:107-118.
[106] 申向东,王晓飞,姬宝霖,等.干寒区土壤抗风蚀能力的特征研究[C]//第十三届全国结构工程学术会议论文集(第Ⅱ册).北京:工程力学杂志社,2004:299-302.
[107] 逯海叶.地表土壤抗剪强度影响因素的研究[D].呼和浩特:内蒙古农业大学,2005.
[108] 姚正毅,韩致文,赵爱国,等.化学固沙结层的力学强度与抗风蚀能力关系[J].干旱区资源与环境,2009,23(2):193-197.
[109] Feng G L,Sharratt B,Young F.Soil properties governing soil erosion affected by cropping systems in the U.S.Pacific Northwest[J].Soil & Tillage Research,2011,111(2):168-174.
[110] Li C,Huang H,Li L,et al.Geotechnical hazards assessment on wind-eroded desert embankment in Inner Mongolia Autonomous Region,North China[J].Natural Hazards,2015,76(1):235-257.
[111] Goudie A S,Middleton N J.Desert Dust in the Global System[M].Heidelberg,Germany:Springer-Verlag,2006.
[112] Chepil W S.Wind erodibility of farm fields[J].Journal of Soil Water Conservation,1959,14:214-219.
[113] 吴正.风沙物理与治沙工程学[M].北京:科学出版社,2003:43.
[114] 武建军,孙焕青,李建业,等.蠕移沙粒流体起动风速的实验研究[J].中国沙漠,2011,31(3):571-574.
[115] Stout J E,Fryrear D W.Performance of a windblown particle sampler[J].Transactions of the ASAE,1989,32:2041-2045.
[116] Stout J E,Zobeck T M.The Wolfforth field experiment:a wind erosion study[J].Soil Science,1996,161(9):616-632.
[117] Cheng H,Zou X Y,Liu C C,et al.Transport mass of creeping sand grains and their movement velocities[J].Journal of Geophysical Research:Atmosphere,2013,118:6374-6382.
[118] Shao Y P.A model for mineral dust emission[J].Journal of Geophysical Research,2001,106(D17):20239-20254.
[119] Fryrear D W.A field dust sampler[J].Journal of Soil and Water Conservation,1986,41:117-120.
[120] Wilson S J,Cooke R U.Wind erosion[M]//Kirkby M J,Morgan R P C.Soil Erosion. Chichester,USA:Wiley, 1980:217-251.
[121] Goossens D,Offer Z Y,London G.Wind tunnel and field calibration of five aeolian sand traps[J].Geomorphology,2000,35:233-252.
[122] Mendez M J,Funk R,Buschiazzo D E.Field wind erosion measurements with Big Spring Number Eight (BSNE) and Modified Wilson and Cook (MWAC) samplers[J].Geomorphology,2011,129(1/2):43-48.
[123] 王金莲.布袋式集沙仪结构参数对集沙效率影响的试验研究[D].呼和浩特:内蒙古农业大学,2008.
[124] 臧英,高焕文.土壤风蚀采沙器的结构设计与性能试验研究[J].农业工程学报,2006,22(3):46-50.
[125] 马淑红,张立德,王远超,等.风沙野外监测[J].新疆气象,2002,25(6):25-27.
[126] 董治宝,孙宏义,赵爱国.WITSEG集沙仪:风洞用多路集沙仪[J].中国沙漠,2003,23(6):714-720.
[127] 王仁德,李庆,常春平,等.新型平口式集沙仪对不同粒级颗粒的收集效率[J].中国沙漠,2018,38(4):734-738.
[128] 付丽宏,赵满全.旋风分离式集沙仪设计与试验研究[J].农机化研究,2007,10:102-105.
[129] Van Donk S J,Huang X,Skidmore E L,et al.Wind erosion from military training lands in the Mojave Desert,California,USA[J].Journal of Arid Environments,2003,54(4):687-703.
[130] Lee J A.A field.experiment on the role of small scale wind gustiness in aeolian sand transport[J].Earth Surface Processes and Landform,1987,12(3):331-335.
[131] Janssen W,Tetzlaff G.Development and calibration of registering sediment trap[J].Zeitschrift fur Kulturtechnik und Landentwicklung,1991,32:167-180.
[132] Jackson D W T.A new instantaneous Aeolian sand trap design for field use[J].Sedimentology,1996,43:791-796.
[133] Bauer B O,Namikas S L.Design and field test of a continuously weighing,tipping-bucket assembly for aeolian sand traps[J].Earth Surface Processes and Landforms,1998,23(13):1171-1183.
[134] 郭中领,常春平,王仁德,等.一种自动连续称重式集沙仪:中国,ZL201510352162.6[P].2016-06-29.
[135] Sharratt B,Auvermann B.Dust pollution from agriculture[M]//Van Alfen N.Encyclopedia of Agriculture and Food Systems,Vol.2.San Diego,USA:Elsevier,2014:487-504.
[136] Patashnick H,Rupprecht E G.Continuous PM10 measurements using the tapered element oscillating microbalance[J].Journal of Air and Waste Management Association,1991,47:682-689.
[137] Stetler L D,Saxton K E,Fryrear D W.Wind erosion and PM10 measurements from agricultural fields in Texas and Washington[C]//Proceedings of the Air and Waste Management Association,1994.
[138] Etyemezian V,Nikolich G,Ahonen S,et al.The Portable in Situ Wind Erosion Laboratory (PI-SWERL):a new method to measure PM10 windblown dust properties and potential for emissions[J].Atmosphere Environment,2007,41:3789-3796.
[139] Sweeney M,Etyemezian V,Macpherson T,et al.Comparison of PI-SWERL with dust emission measurements from a straight-line field wind tunnel[J].Journal of Geophysical Resrarch,2008,113:1-12.
[140] 崔梦淳,鹿化煜,Sweeney M,et al.便携式粉尘观测仪测定腾格里沙漠和毛乌素沙地PM10释放通量[J].科学通报,2015,60(17):1621-1630.
[141] 李晓丽,申向东,张雅静.内蒙古阴山北部四王子旗土壤风蚀量的测试分析[J].干旱区地理,2006,29(2):292-296.
[142] Bielders C L,Michels K,Rajot J L.On-farm evaluation of ridging and residue management practices to reduce wind erosion in Niger[J].Science Society of America Journal,2000,64:1776-1785.
[143] Hupy J P.Soil surface texture and vegetative cover as a function of aeolian particulate matter generated in the Jornada basin of New Mexico[C]//Ascough J C,Flanagan D C.Proceedings of the International Symposium on Soil Erosion Research for the 21st Century.St.Joseph,MI,USA:American Society of Agricultural Engineers,2001:211-214.
[144] Rajot J L,Ribolzi O,Thiebaux J P.Wind erosion in a small catchment of grazing area in Northern Burkina Faso:influence of surfacefeatures[C]//Lee J A,Zobeck T M.Proceeding of the ICAR5/GCTE-SEN Joint Meeting.Lubbock,Texas,USA.2002:185-190.
[145] Sterk G,Stein A.Mapping wind-blown mass transport by modeling variability in space and time[J].Soil Science Society of America Journal,1997,61:232-239.
[146] Chappell A,Oliver M A,Warren A,et al.Examining factors controlling the spatial scale of variation in soil redistribution processes from southwest Niger[J].Advances in Hillslope Processes,1996,1:429-449.
[147] Chappell A,McTainsh G,Leys J,et al.Simulations to optimize sampling of aeolian sediment transport in space and time for mapping[J].Earth Surface Processes and Landforms,2003,28:1223-1241.
[148] Gillette D A.Fine particulate emissions due to wind erosion[J].Transactions of the American Society of Agricultural Engineers,1977,20:890-897.
[149] Nickling W G,Gillies J A.Dust emission and transport in Mali,West Africa[J].Sedimentology,1993,40:859-868.
[150] Stetler L D,Saxton K E.Wind erosion and PM10 emission from agricultural fields on the Columbia Plateau[J].Earth Surface Processes and Landforms,1996,21:673-685.
[151] Rajot J L,Alfaro S C,Gomes L,et al.Soil crusting on sandy soils and its influence on wind erosion[J].Catena,2003,53:1-16.
[152] Shao Y P,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.
[153] Alfaro S C,Gomes L.Modeling mineral aerosol production by wind erosion:emission,intensities and aerosol size distributions in source area[J].Journal of Geophysical Research,2001,106(D16):18075-18084.
[154] Gillette D A,Fryrear D W,Gill T E,et al.Relation of vertical flux of particles smaller than 10 pm to total aeolian horizontal mass flux at Owens Lake[J].Journal of Geophysical Research,1997,102(D22):26009-26016.
[155] Van Donk S J,Skidmore E L.A field test of the wind erosion prediction system[C]//ASAE Annual International Meeting.Sacramento,CA,USA,2001.
[156] 戴海伦,金复鑫,张科利.国内外风蚀监测方法回顾与评述[J].地球科学进展,2011,26(4):401-408.
[157] 黄高花,沈冰,张翼,等.西气东输管线(陕西西段)工程对风蚀影响的监测评价[J].水土保持通报,2005,25(4):34-37.
[158] Gachimbi L N,Ndathi A J.Sand dune stabilization for increased biological productivity in the arid parts of Kenya[C]//Proceedings Wind Erosion:An International Symposium.Manhattan,KS,USA,1997.
[159] Huang X,Zhao H,Xu B.Wind erosion on field in a semiarid area of China[C]//Wind Erosion:An International Symposium.Manhattan,KS,USA,1997.
[160] 董治宝,陈广庭.内蒙古后山地区土壤风蚀问题初论[J].土壤侵蚀与水土保持学报,1997,3(2):84-90.
[161] 王仁德,常春平,彭帅,等.基于粒度对比法的坝上农田风蚀与粉尘释放量估算[J].农业工程学报,2013,29(21):108-114.
[162] 王仁德,肖登攀,常春平,等.改进粒度对比法估算单次农田风蚀量[J].农业工程学报,2014,30(21):278-285.
[163] Wang R D,Chang C P,Guo Z L,et al.Quantitative estimation of farmland soil loss by wind-erosion using improved particle-size distribution comparison method(IPSDC)[J].Aeolian Research,2015,19:163-170.
[164] Gillette D A,Hardebeck E,Parker J.Large-scale variability of wind erosion mass flux rates at Owens Lake:2.Role of roughness change,particle limitation,change of threshold friction velocity,and the Owen effect[J].Journal of Geophysical Research,1997,102(22):25989-25998.
[165] 霍俊澎,郭浩,郭翠萍.沙尘测量仪器研发进展[J].中国沙漠,2017,37(5):848-858.
[166] Barchyn T E,Hugenholtz C H,Ellis J T.A call for standardization of Aeolian process measurements:moving beyond relative case studies[J].Earth Surface Processes and Landforms,2011,36(5):702-705.
[167] Qian F F,Jerolmack D,Lancaster N,et al.Ground robotic measurement of aeolian processes[J].Aeolian Research,2017,27:1-11.
[168] Chappell A,McTainsh G H,Leys J F,et al.Using geostatistics to elucidate temporal change in the spatial variation of aeolian sediment transport[J].Earth Surface Processes and Landforms,2003,28:567-585.
[169] Wagner L E.A history of wind erosion prediction models in the United States department of agriculture:the wind erosion prediction system (WEPS)[J].Aeolian Research,2013,10:9-24.
[170] Borelli P,Panagos P,Ballabio C,et al.Towards a pan-European assessment of land susceptibility to wind erosion[J].Land Degradatiion & Development,2016,27(4):1093-1105.
[171] Shinoda M,Gillies J A,Mikam M,et al.Temperature grasslands as a dust source:knowledge,uncertainties,and challenges[J].Aeolian Research,2011,3:271-293.
