參考文獻 |
王姵兮(2007)應用TRIGRS模式評估降雨及入滲誘發池上山棕寮地滑,國立中正大學應用地球物理研究所碩士論文,共108 頁。
朱聖心(2001)應用地理資訊系統製作地震及降雨所引致之山崩危險圖,國立臺灣大學土木工程研究所碩士論文,共169頁。
吳輝龍、陳文福、張維訓(2004)集水區地文特性因子與土石流發生機率間相關性之研究-以陳有蘭溪為例,中華水土保持學報,第35卷,第3期,第251-259頁。
李錫堤、潘國樑、林銘郎(2003)山崩調查與危險度評估-山崩潛感分析之研究(1/3),經濟部中央地質調查所報告,第92-11號,共154頁。
李錫堤、潘國樑、林銘郎(2004)山崩調查與危險度評估-山崩潛感分析之研究(2/3),經濟部中央地質調查所報告,第93-17號,共264頁。
李錫堤、潘國樑、林銘郎(2005)山崩調查與危險度評估-山崩潛感分析之研究(3/3),經濟部中央地質調查所報告,第94-18號,共268頁。
李馨慈(2004)應用累積位移法於地震引起之山崩潛勢分析,國立成功大學資源工程學系碩士論文,共103頁。
吳佳郡(2006)降雨誘發山崩之潛感分析初探,國立暨南大學土木工程學系碩士論文,共160 頁。
林書毅(1999)區域性山坡穩定評估方法探討-以林口台地為例,國立中央大學應用地質研究所碩士論文,共92頁。
林信亨、林美聆(2002)地理資訊系統及類神經網路應用於土石流危險溪流危險度判定,地工技術,90期,第73-84頁。
姜壽浩、徐美玲(2006)以局部穩定條件率定之邊坡土壤厚度估測模式,國立台灣大學地理學系地理學報,44:23-38。
張弼超(2005)運用羅吉斯迴歸法進行山崩潛感分析-以臺灣中部國姓地區為例,國立中央大學應用地質研究所碩士論文,共134 頁。
陳嬑璇(2002)溪頭地區山崩潛感圖製作研究,國立臺灣大學土木工程研究所碩士論文,共141頁。
陳本康(2005)石門水庫集水區崩塌特性及潛勢評估研究,國立中興大學水土保持學系博士論文,共193 頁。
經濟部中央地質調查所(2008)易淹水地區上游集水區地質調查與資料庫建置(第1階段96年度)-集水區地質調查及山崩土石流調查與發生潛勢評估計畫,經濟部中央地質調查所報告, 095-B-08-12-2-001-01-0,共667頁。
廖啟雯(2004)機率式地震誘發山崩危害度分析–以國姓地區為例,國立中央大學地球物理研究所博士論文,共120頁。
蔡呈奇(2002)應用地域分析與地理資訊系統繪製土壤圖:以台灣北部火山灰土壤為例,國立台灣大學農業化學研究所博士論文,共168頁。
鄭傑銘(2003)應用 GIS 進行豪雨及地震引致山崩之潛感性分析,國立台灣大學土木工程研究所碩士論文,共136頁。
Ahnert, F.(1970) Functional relationships between denudation, relief, and uplift in large mid-latitude drainage basine, American Journal of Science, 268, 243-263.
Beven, K.J., Kirkby, M.J.(1979) A physically-based, variable contributing area model of basin hydrology, Hydrological Sciences Billetin, 24, 43-69.
Burton, A., Arkell, T.J., Bathrust, J.C.(1998) Field variability of landslide model parameters, Env. Geol., 35, 100-114.
Baum, R. L., Savage, W. Z., Godt, J. W.(2002) TRIGRS – A Fortran program for transient rainfall infiltration and grid-based regional slope-stability analysis, U.S., Geological Survey, 61(Open-file Report 02-424).
Baum, R.L., Coe, J.A., Godt, J.W., Harp, E.L., Reid, M.E., Savage, W.Z., Schulz, W.H., Brien, D.L., Chleborad, A.F., McKenna, J.P., Michael. J.A.,(2005) Regional landslide-hazard assessment for Seattle,Washington, USA. Landslides, 2, 266-279.
Carson, M.A., Kirkby, M.J.(1972) Hillslope Form and Process, Lodon Cambridge University Press.
Chung, C.F., Fabbri, A.G.. (1999) Probabilistic prediction models for landslide hazard mapping. Photogrammetric Engineering & Remote Seneing, 65, 1389-1399.
Chung, C.F., Fabbri, A.G.(2003) Validation of spatial prediction models for landslide hazard mapping. Natural Hazards, 30, 451-472.
Chen, C.Y., Chen, T.C., Yu, F.C., Lin, S.C.(2005) Analysis of time-varying rainfall infiltration induced landslide, Environmental Geology, 48, 466-479.
Dietrich, W.E., Montgomery, D.R.(1994) A Physically Based Model for The Topographic Control on Shallow Landsliding, Water Resources Research, 30, 1153-1171.
Dietrich, W.E., Hus, M.L., Montgomery, D.R.(1995) A process-based model for colluvial soil depth and shallow landsliding using digital elevation data, Hydrological Process, 9, 383-400.
Dietrich, W. E., Montgomery, D.R. (1998) SHALSTAB: A digital terrain model for mapping shallow landslide potential, http://socrates.berkeley.edu/~geomorph/shalstab/.
Delmonaco, G.., Leoni, G., Margottini, C., Puglisi, C., Spizzichino. D.(2003) Large scale debris-flow hazard assessment: a geotechnical approach and GIS modelling, Nat. Hazards Earth Syst. Sci., 3, 443–455
Guimara˜es, R.F., Montgomery, D.R., Greenberg, H.M., Fernandes, N.F., Gomes, R.A.T., Ju´nior, O.A.C.(2003) Parameterization of soil properties for a model of topographic controls on shallow landsliding: application to Rio de Janeiro, Engineering Geology, 69, 99-108.
Heimsath, A.M., Dirtrich, W.E, Nishiizumi, K., Finkel, R.C.(1997) The soil production function and landscape equilibrium, Nature, 388: 358-361.
Huang, J.C., Kao1, S.J., Hsu, M.L., Lin. J.C.,(2006) Stochastic procedure to extract and to integrate landslide susceptibility maps: an example of mountainous watershed in Taiwan, Nat. Hazards Earth Syst. Sci., 6, 803–815
Iverson, R.M.(2000) Landslide triggering by rain infiltration, Water Resources Research, 36, 1897-1910.
Jibson, R.W., Harp, E.L., Michael, J.A.(1998) A method for producing digital probabilistic seismic landslide hazard maps: an example from the Los Angeles, California Area, USGS Open-File Rep. 98-113.
Kirkby, M.J.(1971) Hillslope process-response models based on the continuity equation, Institute of British Geographers, Special Publication, 3, 15-30.
Khazai, B., and Sitar, N.(2000) Landslides in Native Ground: A GIS-Based Approach to Regional Seismic Stability Slope Stability Assessment, http://www2.ced.berkeley.edu:8002/index2.html.
Luzi, L., Pergalani, F., Terlien, M.T.J.(2000) Slope vulnerability to earthquakes at subregional scale, using probabilistic techniques and geographic information systems, Engineering Geology, 58, 313-336.
Lillesand, T.M., Kiefer, R.W.(2000) Remote sensing and image interpretation, Wiley & Sons, New York, 724p.
Montgomery, D.R., Sullivan, K., Greenbery, H.M.(1998) Reginal Test of A Model for Shallow Landsliding, Hydrological Processes 12, 943-955.
O’ loughlin E.M.(1986) Prediction of Surface Saturation Zone in Watural Catchments by Topographic Analysis, Water Resources Research 22, 794-804.
Pack, R.T., Tarboton, D.G., Goodwin, C.N.(1998) The SINMAP Approach to Terrain Stability Mapping. Congress of the International Association of Engineering Geology, Vancouver, British Columbia, Canada, 21-25 September 1998.
Pack, R.T., Tarboton, D.G., Goodwin, C.N.(2001) Assessing Terrain Stability in a GIS using SINMAP, in 15th annual GIS conference, GIS 2001, Vancouver, British Columbia, February 19-22.
Sidle, R.C.(1992) A theoretical model of the effects of timber harvesting on slope stability, Water Resources Research, 28, 1897-1910.
Salciarini, D., Godt, J.W., Savage, W.Z., Conversini, P., Baum, R.L., Michael, J.A.(2006) Modeling regional initiation of rainfall-induced shallow landslides in the eastern Umbria Region of central Italy. Landslides, 3, 181-194.
Zhou, G.., Esaki, T., Mitani, Y., Xie, M., Mori, J.(2003) Spatial probabilistic modeling of slope failure using integrated GIS Monte Carlo simulation approach, Engineering Geology, 68, 373-386. |