[1] Hu Yamin, Ding Yihui. The progress of RCMs simulation on East Asia region[J].Advances in Earth Science, 2006, 21(9): 956-964.[胡娅敏,丁一汇.东亚地区区域气候模拟的研究进展[J].地球科学进展,2006, 21(9): 956-964.] [2] Wetterhall F,Bárdossy A,Chen D,et al.Daily precipitation downscaling techniques in different climate regions in China[J].Water Resources Research,2006, 42: W11423. [3] Wu Jindong, Wang Futang. Study on the creation of daily climatic variation scenarios with a stochastic weather generator and various interpolations[J].Quarterly Journal of Applied Meteorology,2000,11(2):129-136.[吴金栋,王馥棠.利用随机天气模式及多种插值方法生成逐日气候变化情景的研究[J].应用气象学报,2000,11(2):129-136.] [4] Shen Zuorui. Weather Simulation Model for Crop Protection System Management[D]. Beijing: Beijing Agricultural University, 1988.[沈佐锐. 用于植保系统管理的天气模拟模型[D]. 北京:北京农业大学, 1988.] [5] Ding Yuguo, Zhang Yaocun. A stochastic simulation test for climatological features of precipitation[J].Journal of Nanjing Institute of Meteorology,1989, 12(2): 146-155.[丁裕国, 张耀存. 逐日降水过程的随机模拟实验[J]. 南京气象学院学报, 1989, 12(2):146-155.][6] Chen Mingchang, Zhang Qiang, Yang Jinling, et al. Stochastic simulation model and its verification of precipitation, temperature and sunshining hours[J].Agricultural Research in the Arid Areas,1994,12(2): 17-26.[陈明昌, 张强, 杨晋玲,等.降水、温度和日照时数的随机生成模型和验证[J].干旱地区农业研究, 1994, 12(2): 17-26.] [7] Liao Yaoming, Zhang Qiang, Chen Deliang. Precipitation simulation in China with a weather generator[J].Acta Geographic Sinica,2004, 59(5): 689-698.[廖要明,张强, 陈德亮. 中国天气发生器的降水模拟[J]. 地理学报, 2004, 59(5): 689-698.] [8] Zhang Yan. A Model of Stochastic Weather Simulation for China[D]. Beijing: Beijing Normal University, 2003.[张岩.随机天气模拟研究[D]. 北京:北京师范大学, 2003.] [9] Ross P J. SWIM-A Simulation Model for Soil Water Infiltration and Movement[M].CSIRO Division of Soils,Townsville, Australia, 1990. [10] Lane L J, Nearing M A. USDA-Water Erosion Prediction Project: Hillslope Profile and Watershed Model Documentation[M]. USDA-ARS National Soil Erosion Research Laboratory, West Lafayette,Indiana,1989. [11] Koutsoyiannis D, Onof C. Rainfall disaggregation using adjusting procedures on a Poisson cluster model[J].Journal of Hydrology,2001,246: 109-122. [12] Rhenals-Figueredo A E, Rodriguez-Iturbe I, Schaake J C. Bidimensional Spectral Analysis of Rainfall Events[R]. Report 193, Ralph M. Parsons Laboratory for Water Resources and Hydrodynamics, Massachusetts Institute of Technology, Cambridge, MA, 1974. [13] Woolhiser D A, Goodrich D C. Effects of storm rainfall intensity patterns on surface runoff[J].Journal of Hydrology,1988, 102: 335-354. [14] Lennartsson J, Baxevani A, Chen D. Modelling precipitation in Sweden using multiple step Markov chains and a composite model[J].Journal of Hydrology,2008, 363: 42-59. [15] Srikanthan R, McMahon T A. Stochastic Generation of Rainfall and Evaporation Data[M]. Australian Water Resources Council, Technology Paper No.84, Australian Government,Canberra, 1985. [16] Koutsoyiannis D, Mamassis N. On the representation of hyetograph characteristics by stochastic rainfall models[J].Journal of hydrology,2001,251(1): 65-87. [17] Islam S, Entekhabi D, Bars R L. Parameter estimation and sensitivity analysis for the modified Bartlett-Lewis rectangular pulses model of rainfall[J].Journal of Geophysical Research,1990, 95(D3): 2 093-2 100. [18] Huff F A. Time distribution of rainfall in heavy storms[J].Water Resources Research,1967,3:1 007-1 019. [19] Loukas A, Quick M C. Spatial and temporal distribution of storm precipitation in southwestern British Columbia[J].Journal of Hydrology,1996, 174: 37-56. [20] Wischmeier W H, Smith D D. Predicting Rainfall Erosion Losses: A Guide to Conservation Planning[M]. US Department of Agriculture , Agriculture Handbook No. 537,1978. [21] Renard K G, Foster G R, Weesies G A. Predicting Soil Erosion by Water: A Guide to Conservation Planning with the Revised Universal Soil Loss Equation (RUSLE)[Z].US Department of Agriculture, Agriculture Handbook No.703,1997. [22] Cutrim E C, Martin D W, Butzow D G, et al. Pilot analysis of hourly rainfall in central and eastern Amazonia[J].Journal of Climate,2000,13(7):1 326-1 334. [23] Cameron D, Beven K, Tawn J. An evaluation of three stochastic rainfall models[J].Journal of Hydrology,2000, 228: 130-149. [24] Onof C, Wheater H S. Improved fitting of the Bartlett-Lewis rectangular pulse model for hourly rainfall[J].Hydrological Sciences Journal,1994,39(6):663-680. [25] Restrepo-Posada P,Eagleson P. Identification of independent rainstorms[J].Journal of Hydrology,1982, 55: 303-319. [26] Koutsoyiannis D, Xanthopoulos T. A dynamic model for short-scale rainfall disaggregation[J].Hydrological Sciences Journal, 1990, 35: 305-322. [27] Thorp J M. Mesoscale storm and dry period parameters form hourly precipitation data[J].Atmospheric Environment,1986, 20(9):1 683-1 689. [28] Arnold J G, Williams J R. Stochastic generation of internal storm structure[J].Transaction of the ASAE,1989, 32(1): 161-166.[29] Arnold J G, Williams J R, Nicks A D, et al. A Basin Scale Simulation Model for Soil and Water Resources Management[M]. Texas: A&M University Press, 1990. [30] Nicks A D, Lane L J, Gander G A. Weather generator[C]//Flanagan D C, Nearing M A, eds. USDA-Water Erosion Prediction Project: Hillslope Profile and Watershed Model Documentation. NSERL Report No.10. USDA-ARS National Soil Erosion Research Laboratory, West Lafayette, Indiana, 1995. [31] Neitsch S L, Arnold J G, Kiniry J R, et al. Soil Water Assessment Tool Theoretical Document, Version 2005[M]. Grassland, Soil and Water Research Laboratory, Agricultural Research Service, Temple, TX, 2005. [32] McKague K, Rudra R, Ogilvie J. CLIMGEN-A Convenient Weather Generation tool for Canadian Climate Stations[R]. CSAE/SCGR 2003 Meeting, Montréal, Québec, Paper No. 03-118, 2003. [33] Yu B. An assessment of uncalibrated CLIGEN in Australia[J].Agricultural and Forest Meteorology,2003, 119: 131-148. [34] Connolly R D, Schirmer J, Dunn P K. A daily rainfall disaggregation model[J].Agriculture Forest Meteorology,1998, 92: 105-117. [35] Kavvas M L, Delleur J W. A stochastic cluster model of daily rainfall sequences[J].Water Resources Research,1981, 17:1 151-1 160. [36] Cox D R, Isham V S. Point Processes[M].London:Chapman & Hall,1980. [37] Waymire E, Gupta V K. The mathematical structure of rainfall representations, 1: A review of the stochastic rainfall models; 2: The mathematical structure of rainfall representations; 3: Some applications of the point process theory to rainfall process[J].Water Resources Research,1981,17:1 287-1 294. [38] Rodriguez-Iturbe I, Cox D R, Isham V. Some models for rainfall based on stochastic point processes[J].Proceedings of the Royal Society of London, Series A: Mathematical and Physical Sciences,1987,410:269-288. [39] Rodriguez-Iturbe I, Febres De Power B, Valds J B. Rectangular pulses point process models for rainfall: Analysis of empirical data[J].Journal of Geophysical Research,1987, 92(D8): 9 645-9 656. [40] Rodriguez-Iturbe I, Cox D R, Isham V. A point process model for rainfall: Further developments[J].Proceedings of the Royal Society of London, Series A: Mathematical and Physical Sciences, 1988, 417: 283-298. [41] Onof C, Wheater H S. Improvements to the modeling of British rainfall using a modified random parameter Bartlett-Lewis rectangular pulses model[J].Journal of Hydrology,1994,157:177-195. [42] Glasbey C A, Cooper G, McGechan M B. Disaggregation of daily rainfall by conditional simulation from a point-process model[J].Journal of Hydrology,1995,165:1-9. [43] Cowpertwait P S P, Metcalfe A V, O′Connell P E, et al. Stochastic point process modeling of rainfall: I. Single-site fitting and validation, II. Regionalisation and disaggregation[J].Journal of Hydrology,1996, 175: 17-65. [44] Khaliq M N,Cunnane C. Modeling point rainfall occurrences with the modified Bartlett-Lewis rectangular pulses model[J].Journal of Hydrology,1996,180:109-138. [45] Verhoest N, Troch P A, De Troch F P. On the applicability of Bartlett-Lewis rectangular pulses models in the modeling of design storms at a point[J].Journal of Hydrology, 1997, 202(1): 108-120. [46] Blazkova S, Beven K J. Flood frequency prediction for data limited catchments in the Czech Republic using a stochastic rainfall model and TOPMODEL[J].Journal of Hydrology,1997, 195: 256-278. [47] Onof C, Chandler R E, Kakou A, et al. Rainfall modeling using Poisson cluster processes: A review of developments[J]. Stochastic Environmental Research and Risk Assessment,2000, 14: 384-411. [48] Gyasi-Agyei Y. Identification of regional parameters of a stochastic model for rainfall disaggregation[J].Journal of Hydrology, 1999, 223: 148-163. [49] Gyasi-Agyei Y. Stochastic disaggregation of daily rainfall into one-hour time scale[J].Journal of Hydrology,2005, 309: 178-190.[50] Gyasi-Agyei Y, Willgoose G R. A hybrid model for point rainfall modeling[J].Water Resources Research,1997,33(7):1 699-1 706. [51] Gyasi-Agyei Y, Willgoose G R. Generalisation of a hybrid model for point rainfall[J].Journal of Hydrology,1999, 219(3/4):218-224. [52] Ward RC, Robinson M. Principles of Hydrology[M].London: McGraw-Hill Publishing Company, 2000. [53] Cowpertwait P S P. A generalized point process model for rainfall[J].Proceedings of the Royal Society of London, Series A: Mathematical and Physical Sciences,1994,447:23-37. [54] Kakou A. A Point Process Model for Rainfall with Dependent Duration and intensity[R]. Research Report 196, Depterment of Statistical Science, University College, London,1998. [55] Kakou A, Onof C. A point process model for rainfall with duration intensity dependence[J].Annales Geophysicae, 1996,14(suppl.Ⅱ):C302. [56] Cox D R, Isham V S. Stochastic models of precipitation[C]//Barnett V D, Turkman K F, eds. Statistics for the Environment, 2: Water Related Issues. Wiley, Chichester, 1994:3-18. [57] Onof C,Townend J, Kee R.Comparison of two hourly to 5-min rainfall disaggregators[J].Atmospheric Research,2005,77:176-187. [58] Yin Shuiqing. Characterization and Simulation of Sub-daily Scale Precipitation for China[D]. Beijing: Beijing Normal University, 2008.[殷水清. 日以下尺度降雨特性分析与模拟[D]. 北京:北京师范大学, 2008.] [59] Chen D, Achberger C, Postgård U, et al. Using a Weather Generator to Create Future Daily Precipitation Scenarios for Sweden[R]. Research Report C76, Earth Sciences Centre, University of Gothenburg, Gothenburg, Sweden, 2008. [60] Mao Huiqin, Du Yaodong, Song Lili. Research on probability distribution models of short-period precipitation extreme in Guangzhou[J].Meteorological Monthly,2004,30(10):3-6.[毛慧琴,杜尧东,宋丽莉.广州短历时降水极值概率分布模型研究[J].气象,2004,30(10):3-6.] [61] Fowler H J, Kilsby C G, O′Connell P E. A stochastic rainfall model for the assessment of regional water resource systems under changed climatic conditions[J].Hydrology and Earth System Sciences,2000,4: 261-280. [62] Fowler H J, Kilsby C G, O′Connell P E, et al. A weather-type conditioned multi-site stochastic rainfall model for the generation of scenarios of climatic variability and change[J].Journal of Hydrology,2005, 308(1/4): 50-66. [63] Fan Lijun, Fu Congbin, Chen Deliang. Review on creating future climate change scenarios by statistical downscaling techniques[J].Advances in Earth Science, 2005,20(3):320-329.[范丽军,符淙斌,陈德亮.统计降尺度法对未来区域气候变化情景预估的研究进展[J].地球科学进展, 2005, 20(3): 320-329.] |