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16.6 References
Abe, K. and Ziemer, R.R. (1991) Effect of tree roots on a shear zone: Modeling reinforced shear stress. Canadian Journal of Forest Research, 21, 1012–1019.
Adams, P.W. and Sidle, R.C. (1987) Soil conditions in three recent landslides in southeast Alaska. Forest Ecology and Management, 18, 93–102.
Allison, C., Sidle, R.C., and Tait, D. (2004) Application of decision analysis to forest road deactivation in unstable terrain. Environmental Management, 33, 173–185.
Amaranthus, M.P., Rice, R.M., Barr, N.R., and Ziemer, R.R. (1985) Logging and forest roads related to increased debris slides in southwestern Oregon. Journal of Forestry, 83, 229–233.
Aust, W.M., Schoenholtz, S.H., Zaebst, T.W., and Szabo, B.A. (1997) Recovery status of a tupelo-cypress wetland seven years after disturbance: Silvicultural implications. Forest Ecology and Management, 90, 161–169.
Balteanu, D. (1976) Two case studies of mudflows in the Buzau Subcarpathians. Geografiska Annaler, 58A, 165–171.
Benda, L. (1990) The influence of debris flows on channels and valley floors in the Oregon Coast range, U.S.A. Earth Surface Processes and Landforms, 15, 457–466.
Benda, L.E. and Cundy, T.W. (1990) Predicting depositions of debris flows in mountain channels. Canadian Geotechnical Journal, 27, 409–417.
Berris, S.N. and Harr, R.D. (1987) Comparative snow accumulation and melt during rainfall in forested and clear-cut plots in the western Cascades of Oregon. Water Resources Research, 23, 135–142.
Bilby, R.E. and Ward, J.W. (1991) Characteristics and function of large woody debris in streams draining old-growth, clear-cut, and second-growth forests in Southwestern Washington. Canadian Journal of Fisheries and Aquatic Science, 48, 2499–2508.
Billard, A., Muxart, T., Derbyshire, E., Wang, J.T., and Dijkstra, T.A. (1993) Landsliding and land use in the loess of Gansu Province, China. Zeitschrift für Geomorphologie, N.F. Suppl., 87, 117–131.
Bishop, D.M. and Stevens, M.E. (1964) Landslides on Logged Areas, Southeast Alaska (USDA Forest Service Research Report NOR-1, 18 pp.). US Department of Agriculture, Juneau, AK.
Bovis, M.J. and Jakob, M. (1999) The role of debris supply conditions in predicting debris flow activity. Earth Surface Processes and Landforms, 24, 1039–1054.
Bovis, M.J. and Pellerin, D. (1998) Rates of revegetation of gullies in coastal British Columbia: Implications for fine-sediment production (Unpublished annual report). Scientific Council of British Columbia, Victoria, Canada.
Brardinoni, F., Slaymaker, O., and Hassan, M.A. (2003) Landslide inventory in a rugged forested watershed: A comparison between air-photo and field survey data. Geomorphology, 54, 179–196.
Bruijnzeel, L.A. (1990) Hydrology of Moist Tropical Forests and Effects of Conversion (A state of knowledge review). UNESCO International Hydrological Programme, Humid Tropics Programme, Paris.
Burroughs, E.R. and Thomas, B.R. (1977) Declining Root Strength in Douglas-fir after Felling as a Factor in Slope Stability (USDA Forest Service Research Paper INT-190, 27 pp.). US Department of Agriculture, Intermountain Forest and Range Experiment Station, Ogden, UT.
Burroughs, E.R., Chalfant, G.R., and Townsend, M.A. (1976) Slope Stability in Road Construction (102 pp.). Bureau of Land Management, Portland, OR.
Caine, N. (1980) Rainfall intensity-duration control of shallow landslides and debris flows. Geografiska Annaler, 62A, 23–27.
Cannon, S.H. and Reneau, S.L. (2000) Conditions for generation of fire-related debris flows, Capulin Canyon, New Mexico. Earth Surface Proceedings and Landforms, 25, 1103–1121.
Cheng, C.T., Lee, C.T., and Tsai, Y.B. (2000) Fault rupture plane and attenuation model associated with the 1999 Chi-Chi earthquake. Proceedings of the 2000 Annual Meeting of the Geological Society of China (pp. 21–23). Geological Society of China, [in Chinese].
Chigira, M. (2001) Micro-sheeting of granite and its relationship with landsliding specifically after the heavy rainstorm in June 1999, Hiroshima Prefecture, Japan. Engineering Geology, 59, 219–231.
Coker, R.J. and Fahey, B.D. (1993) Road-related mass movement in weathered granite, Golden Downs and Motueka Forests, New Zealand (A note). Journal of Hydrology (N.Z.), 31, 65–69.
Corbett, E.S. and Rice, R.M. (1966) Soil Slippage Increased by Brush Conversion (USDA Forest Service Research Note PSW-128, 8 pp.). US Department of Agriculture, Pacific Southwest Research Station, Berkeley, CA.
Costa, J.E. (1991) Nature, mechanics, and mitigation of the Val Pola landslide, Valtellina, Italy, 1987–1988. Zeitschrift für Geomorphologie, N.F. Suppl., 35, 15–38.
Crozier, M.J., Eyles, R.J., Marx, S.L., McConchie, J.A., and Owen, R.C. (1980) Distribution of landslips in the Wairarapa hill country. New Zealand Journal of Geology and Geophysics., 23, 575–586.
Dhakal, A.S. and Sidle, R.C. (2003) Long-term modeling of landslides for different forest management practices. Earth Surface Processes and Landforms, 28, 853–868.
Dhakal, A.S. and Sidle, R.C. (2004) Pore water pressure assessment in a forest watershed: Simulations and distributed field measurements related to forest practices. Water Resources Research, 40, W02405, doi:1029/2003WR002017.
Dhakal, A.S., Amada, T., and Aniya, M. (2000) Landslide hazard mapping and its evaluation using GIS: An investigation of sampling scheme for grid-cell based quantitative method. Photogrammetric Engineering and Remote Sensing, 66, 981 989.
Dietrich, W.E. and Dunne, T. (1978) Sediment budget for a small catchment in mountainous terrain. Zeitschrift für Geomorphologie, N.F., 29, 191–206.
Dietrich, W.E., Dunne, T., Humphrey, N.F., and Reid, L.M. (1982) Construction of sediment budgets for drainage basins. Sediment Budgets and Routing in Forested Drainage Basins (USDA Forest Service General Technical Report PNW-141, pp. 5–23). US Department of Agriculture, Pacific Northwest Forest and Range Experimental Station, Portland, OR.
Dingman, S.L. (1994) Physical Hydrology (575 pp.). Macmillan, New York.
Duncan, S.H., Ward J.W., and Anderson, R.J. (1987) A method for assessing landslide potential as an aid in forest road placement. Northwest Science, 61, 152–159.
Endo, T. and Tsuruta, T. (1969) The Effect of the Tree’s Roots on the Shear Strength of Soil (Annual Report, 1968, pp. 167-182). Hokkaido Branch, Forestry Experimental Station, Sapporo, Japan.
Fannin, R.J. and Rollerson, T.P. (1993) Debris flows: some physical characteristics and behaviour. Canadian Geotechnical Journal, 30, 71–81.
Fischer, A. and Vasseur, L. (2000) The crisis in shifting cultivation practices and the promise of agroforestry: A review of the Panamanian experience. Biodiversity and Conservation, 9, 739–756.
Fukuda, F. and Ochiai, H. (1993) Landslides caused by the 1993, Hokkaido Nansei-oki earthquake. Shin Sabo Journal, 46, 62–63 [in Japanese].
Garrett, J. (1980) Catchment Authority Work in the Rangitikei Area (Aokautere Scientific Centre Internal Report 21, pp. 23–26). New Zealand Ministry of Works and Development, Wellington.
Garwood, N.C., Janos, D.P., and Brokaw, N. (1979) Earthquake induced landslides: A major disturbance to tropical forests. Science, 205, 997–999.
Golding, D.L. and Swanson, R.H. (1986) Snow distribution patterns in clearings and adjacent forest. Water Resources Research, 22, 1931–1940.
Gomi, T. and Sidle, R.C. (2003) Bedload transport in managed steep-gradient headwater streams of southeast Alaska. Water Resources Research, 39, 1336, doi:10.1029/2003 WR002440.
Gomi, T., Sidle, R.C., Bryant, M.D., and Woodsmith, R.D. (2001) Characteristics of woody debris and sediment distribution in headwater streams, southeast Alaska. Canadian Journal of Forest Research, 31, 1386–1399.
Gomi, T., Sidle, R.C., and Richardson, J.S. (2002) Understanding processes and downstream linkages of headwater systems. BioScience, 52, 905 916.
Gray, D.H. and Megahan, W.F. (1981) Forest Vegetation Removal and Slope Stability in the Idaho Batholith (USDA Forest Service Research Paper INT-271, 23 pp.). US Department of Agriculture, Ogden, UT.
Greenway, D.R. (1987) Vegetation and slope stability. In: M.G. Anderson and K.S. Richards (eds.), Slope Stability (pp. 187–230). John Wiley & Sons, Chichester, UK.
Gupta, R.P. and Joshi B.C. (1990) Landslide hazard zoning using the GIS approach: A case study from the Ramganga catchment, Himalayas. Engineering Geology, 28, 119–131.
Guthrie, R.H. (2002) The effects of logging on frequency and distribution of landslides in three watersheds on Vancouver Island, British Columbia. Geomorphology, 43, 273–292.
Haigh, M.J. (1984) Landslide prediction and highway maintenance in the Lesser Himalaya, India. Zeitschrift für Geomorphologie, N.F. Suppl., 51, 17–37.
Haldemann, E.G. (1956) Recent landslide phenomena in the Rungwe volcanic area, Tanganyika. Tanganyika Notes Record, 45, 3–14.
Harris, A.S. (1967) Natural Reforestation on a Mile-square Clearcut in Southeast Alaska (USDA Forest Service Research Paper PNW-52, 11 pp.). US Department of Agriculture, Pacific Northwest Forest and Range Experimental Station, Portland, OR.
Harwood, R.R. (1996) Development pathways toward sustainable systems following slash-and-burn. Agriculture, Ecosystems and Environment, 58, 75–86.
Hinch, L.W. (1986) The location and geotechnical design of roads in mountainous terrain. Proceedings of the Sino-British Highways and Urban Traffic Conference, Beijing, November 17–22, 1986 (pp. 87–96). Transportation Research Laboratory, Crowthorne, UK.
Iida, T. (1993) A probability model of slope failure and hillslope development. Transactions of Japanese Geomorphological Union, 14, 17–31 [in Japanese].
Innes, J.L. (1985) Magnitude-frequency relations of debris flows in northwest Europe. Geografiska Annaler, 67A, 23–32.
Iverson, R.M., Reid, M.E., and LaHusen, R.G. (1997) Debris-flow mobilization from landslides. Annual Review of Earth and Planetary Sciences, 25, 85–138.
Jakob, M. (2000) The impacts of logging on landslide activity at Clayoquot Sound, British Columbia. Catena, 38, 279–300.
Johnson, K., Olson, E.A., and Manandhar, S. (1982) Environmental knowledge and response to natural hazards in mountainous Nepal. Mountain Research and Development, 2, 175–188.
Jonasson, C., Kot, M., and Kotarba, A. (1991) Lichenometrical studies and dating of debris flow deposits in the High Tatra Mountains, Poland. Geografiska Annaler, 73A, 141–146.
Jones, J.A.A. (1997) Global Hydrology: Processes, Resources and Environmental Management (399 pp.). Longman, Harlow, UK.
Lambereti, G.A., Gregory, S.V., Ashkenas, L.R., Wildman, R.C., and Moore, K.M.S. (1991) Stream ecosystem recovery following a catastrophic debris flow. Canadian Journal of Fisheries and Aquatic Science, 48, 196–208.
Larsen, M.C. and Parks, J.E. (1997) How wide is a road? The association of roads and mass-wasting in a forested montane environment. Earth Surface Processes and Landforms, 22, 835–848.
Larsen, M.C. and Simon, A. (1993) A rainfall intensity-duration threshold for landslides in a humid-tropical environment, Puerto Rico. Geografiska Annaler, 75A, 13–23.
McNaughton, K.G. and Jarvis, P.G. (1983) Predicting effects of vegetation changes on transpiration and evaporation. In: T.T. Kozlowski (ed.), Water Deficits and Plant Growth (Vol. 7, pp. 1–47). Academic Press, New York.
Megahan, W.F. (1977) Reducing erosional impacts of roads. Guidelines for Watershed Management (FAO Conservation Guide, pp. 237-251). UN Food and Agriculture Organization, Rome.
Megahan, W.F. (1983) Hydroligic effects of clearcutting and wildfire on steep granitic slopes in Idaho. Water Resources Research, 19, 811–819.
Megahan, W.F. (1987) Effects of forest roads on watershed function in mountainous areas. In: A.S. Balasubramaniam et al. (eds), Environmental Geotechnics and Problematic Soils and Rocks (pp. 335–348). A.A. Balkema, Rotterdam.
Megahan, W.F., Day, N.F., and Bliss, T.M. (1978) Landslide occurrence in the western and central northern Rocky Mountain physiographic province in Idaho. Proceedings of the 5th North American Forest Soils Conference (pp. 116–139). Colorado State University, Fort Collins, CO.
Montgomery, D.R. and Buffington, J.M. (1997) Channel-reach morphology in mountain drainage basins. Geological Society of America Bulletin, 109, 596–611.
Morrison, P.H. (1975) Ecological and geomorphological consequences of mass movements in the Alder Creek watershed and implications for forest land management (102 pp.). B.A. thesis, University of Oregon, Eugene, OR.
MWD (1970) Wise Land Use and Community Development (Report of technical committee of inquiry into the problems of the Poverty Bay-East Cape District of New Zealand, 119 pp.). Ministry of Works and Development, Wellington.
Noguchi, S., Abdul Rahim, N., Sammori, T., Tani, M., and Tsuboyama, Y. (1996) Rainfall characteristics of tropical rain forest and temperate forest: Comparison between Bukit Tarek in Peninsular Malaysia and Hitachi Ohta in Japan. Journal of Tropical Forest Science, 9, 206–220.
Noguchi, S., Abdul Rahim, N., Zulkifli, Y., Tani, M., and Sammori, T. (1997) Rainfall-runoff responses and roles of soil moisture variations to the response in tropical rain forest, Bukit Tarek, Malaysia. Journal of Forest Research, 2, 125–132.
Nunamoto, S., Suzuki, M., and Ohta, T. (1999) Decreasing trend of deaths and missing persons caused by sediment disasters in the last fifty years in Japan. Sabo Gakkai Journal, 51, 3–12 [in Japanese].
Okunishi, K. and Suwa, H. (1985) Hydrological approach to debris flow. Proceedings of International Symposium on Erosion, Debris Flow and Disaster Prevention, September 3–5, Tsukuba, Japan (pp. 243–247). Public Works Research Institute, Tsukuba, Japan.
O'Loughlin, C.L. (1972) The stability of steepland forest soils in the Coast Mountains, southwest British Columbia. Ph.D. thesis, University of British Columbia, Vancouver.
O'Loughlin, C.L. and Pearce, A.J. (1976) Influence of Cenozoic geology on mass movement and sediment yield response to forest removal, North Westland, New Zealand. Bulletin of International Association of Engineers and Geologists, 14, 41–46.
Onda, Y. (1992) Influence of water storage capacity in the regolith zone on hydrologic characteristics, slope processes, and slope form. Zeitschrift für Geomorphologie, N.F. Suppl., 36, 165–178.
Palacios, D., GarcÃa, R., Rubio, V., and Vigil, R. (2003) Debris flows in a weathered granitic massif: Sierra de Gredos, Spain. Catena, 51, 115–140.
Phillips, C.J. and Watson, A.J. (1994) Structural Tree Root Research in New Zealand: A Review (Landcare Research Science Series No. 7, 71 pp.). Landcare, Lincoln, New Zealand.
Prosser, I.P. and Williams, L. (1998) The effect of wildfire on runoff and erosion in native Eucalyptus forest. Hydrological Processes, 12, 251–265.
Rapp, A. and Nyberg, R. (1981) Alpine debris flows in northern Scandinavia: Morphology and dating by lichenometry. Geografiska Annaler, 63, 183–196.
Rapp, A. and Nyberg, R. (1988) Mass movements, nivation processes and climatic fluctuations in northern Scandinavian mountains. Norsk Geografiska Tidsskrift, 42, 245–253.
Reneau, S.L. and Dietrich, W.E. (1991) Erosion rates in the southern Oregon Coast Range: Evidence for an equilibrium between hillslope erosion and sediment yield. Earth Surface Proceedings and Landforms, 16, 307–322.
Sakals, M.E. and Sidle, R.C. (2004) A spatial and temporal model of root cohesion in forest soils. Canadian Journal of Forest Research, 34, 950–958.
Schroeder, W.L. (1985) The engineering approach to landslide risk analysis. In: D.N. Swanston (ed.), Proceedings of a Workshop on Slope Stability: Problems and Solutions in Forest Management, Seattle, Washington, 6–8 February 1984 (USDA Forest Service General Technical Report PNW-180, pp. 43–50). US Department of Agriculture, Pacific Northwest Forest and Range Experimental Station, Portland, OR.
Shimokawa, E. (1984) A natural recovery process of vegetation on landslide scars and landslide periodicity in forested drainage basins. Proceedings of a Symposium on Effects of Forest Land Use on Erosion and Slope Stability (pp. 99–107). East-West Center, Honolulu, HI.
Shimokawa, E., Jitousono, T., and Takano, S. (1989) Periodicity of shallow landslide on Shirasu (Ito pyroclastic flow deposits) steep slopes and prediction of potential landslide sites. Transactions of Japanese Geomorphological Union, 10, 267–284 [in Japanese].
Sidle, R.C. (1980) Impacts of Forest Practices on Surface Erosion (USDA Extension Publication No. PNW-195, 15 pp.). US Department of Agriculture, Pacific Northwest Forest and Range Experimental Station, Corvallis, OR.
Sidle, R.C. (1984) Shallow groundwater fluctuations in unstable hillslopes of coastal Alaska. Zeitschrift Gletscherkunde und Glazialgeologie, 20, 79–95.
Sidle, R.C. (1991) A conceptual model of changes in root cohesion in response to vegetation management. Journal of Environmental Quality, 20, 43–52.
Sidle, R.C. (1992) A theoretical model of the effects of timber harvesting on slope stability. Water Resources Research, 28, 1897–1910.
Sidle, R.C. (2000) Watershed challenges for the 21st Century: A global perspective for mountainous terrain. Proceedings of Land Stewardship in the 21st Century: The Contributions of Watershed Management (USDA Forest Service Proceedings RMRS-P-13, pp. 45–56). US Department of Agriculture, Rocky Mountain Research Station, Fort Collins, CO.
Sidle, R.C. and Chigira, M. (2004) Landslides and debris flows strike Kyushu, Japan. Eos, Transactions of the American Geophysical Union, 85(15), 145–151.
Sidle, R.C. and Dhakal, A.S. (2002) Potential effects of environmental change on landslide hazards in forest environments. In: R.C. Sidle (ed.), Environmental Change and Geomorphic Hazards in Forests (International Union of Forestry Research Organizations Research Series No. 9, pp. 123–165). CAB International Press, Oxford, UK.
Sidle, R.C. and Wu, W. (1999) Simulating effects of timber harvesting on the temporal and spatial distribution of shallow landslides. Zeitschrift für Geomorphologie, N.F. Suppl., 43, 185–201.
Sidle, R.C., Pearce, A.J., and O'Loughlin, C.L. (1985) Hillslope Stability and Land Use (Water Resources Monograph Vol. 11, 140 pp.). American Geophysical Union, Washington, DC.
Sidle, R.C., Taylor, D., Lu, X.X., Adger, W.N., Lowe, D.J., deLange, W.P., Newnham, R.N., and Dodson, J.R. (2004) Interactions of natural hazards and humans: Evidence in historical and recent records. Quaternary International, 118/119, 181–203.
Skaugset, A., Swall, S., and Martin, K. (1996) The effect of forest road location, construction, and drainage standards on road-related landslides in western Oregon associated with the February 1996 storm. Proceedings of the Pacific Northwest Floods of February 1996 Water Issues Conference, October 7–8, Portland, Oregon (pp. 201–206). American Institute of Hydrology, St Paul, MN.
Slaney, P.A. and Zaldokas, D. (eds) (1997) Fish Habitat Rehabilitation Procedures (Watershed Restoration Technical Circular No. 9, Watershed Restoration Program). British Columbia Ministry of Environment, Vancouver.
Smyth, C.G. and Royle, S.A. (2000) Urban landslide hazards: Incidence and causative factors in Niterói, Rio de Janeiro State, Brazil. Applied Geography, 20, 95–117.
Steiner, F. (1988) Agroforestry’s coming of age. Journal of Soil and Water Conservation, 43, 157–158.
Swanson, F.J. and Swanston, D.N. (1977) Complex Mass Movement Terrains in the Western Cascade Range, Oregon (Reviews in Engineering Geology Vol. 3, Landslides, pp. 113–124). Geological Society of America, Boulder, CO.
Swanson, F.J., Fredriksen, R.L., and McCorison, F.M. (1982) Material transfer in a western Oregon forested watershed. In: R.L. Edmonds (ed.), Analysis of Coniferous Forest Ecosystems in the Western United States (pp. 233–266). Hutchison Ross, Stroudsburg, PA.
Swanson, F.J., Kratz, T.K., Caine, N., and Woodmansee, R.G. (1988) Landform effects on ecosystem patterns and processes. BioScience, 38, 92–98.
Swanston, D.N. and Swanson, F.J. (1976) Timber harvesting, mass erosion, and steepland forest geomorphology in the Pacific Northwest. In: D.R. Coats (ed.), Geomorphology and Engineering (pp. 199–221). Dowden, Hutchison & Ross, Stroudsburg, PA.
Thakur, V.C. (1996) Landslide Hazard Management and Control in India (51 pp.). International Center for Integrated Mountain Development, Kathmandu, Nepal.
Thomas, R.B. and Megahan, W.F. (1998) Peakflow responses to clear cutting and roads in small and large basins, western Cascades, Oregon: A second opinion. Water Resources Research, 34, 3393–3403.
Troendle, C.A. and King, R.M. (1985) The effect of timber harvest on the Fool Creek watershed, 30 years later. Water Resources Research, 21, 1915–1922.
Trustrum, N.A. and DeRose, R.C. (1988) Soil depth-age relationship of landslides on deforested hillslopes, Taranaki, New Zealand. Geomorphology, 1, 143–160.
Trustrum, N.A., Lambert, M.G., and Thomas, V.J. (1983) The impact of soil slip erosion on hill country pasture production in New Zealand. Proceedings of the 2nd International Conference on Soil Erosion and Conservation, University of Hawaii, Honolulu.
van Dine, D.F. (1985) Debris flows and debris torrents in the Southern Canadian Cordillera. Canadian Geotechnical Journal, 22, 44–68.
van Steijn, H. (1996) Debris-flow magnitude-frequency relationships for mountainous regions of Central and Northeast Europe. Geomorphology, 15, 259–273.
Wasson, R.J. (1978) A debris flow at Reshkn, Pakistan Hindu Kush. Geografiska Annaler, 60A, 151–159.
Wemple, B.C., Swanson, F.J., and Jones, J.A. (2001) Forest roads and geomorphic process interactions, Cascade Range, Oregon. Earth Surface Processes and Landforms, 26, 191–204.
Wieczorek, G.F., Lips, E.W., and Ellen, S.D. (1989) Debris flows and hyperconcentrated floods along the Wasatch Front, Utah, 1983 and 1984. Bulletin of Association of Engineers and Geologists, 26, 191–208.
Wu, T.H., McKinnel, W.P., and Swanston, D.N. (1979) Strength of tree roots and landslides on Prince of Wales Island, Alaska. Canadian Geotechnical Journal, 16, 19–33.
Wu, W. and Sidle, R.C. (1995) A distributed slope stability model for steep forested hillslopes. Water Resources Research, 31, 2097–2110.
Xu, J. (1999) Erosion caused by hyperconcentrated flow on the Loess Plateau of China. Catena, 36, 1–19.
Ziemer, R.R. and Swanston, D.N. (1977) Root Strength Changes after Logging in Southeast Alaska (USDA Forest Service Research Note PNW-306, 10 pp.). US Department of Agriculture, Pacific Northwest Forest and Range Experimental Station, Portland, OR.
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Sidle, R.C. (2005). Influence of forest harvesting activities on debris avalanches and flows. In: Debris-flow Hazards and Related Phenomena. Springer Praxis Books. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-27129-5_16
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