SEARCH

SEARCH BY CITATION

References

  • Ardizzone, F., M. Cardinali, A. Carrara, F. Guzzetti, and P. Reichenbach (2002), Impact of mapping errors on the reliability of landslide hazard maps, Nat. Hazards Earth Syst. Sci., 2, 314.
  • Benda, L. E. (1990), The influence of debris flows on channels and valley floors in the Oregon Coast Range, U.S.A. Earth Surf. Processes Landforms, 15, 457466.
  • Benda, L. E., and T. W. Cundy (1990), Predicting deposition of debris flows in mountain channels, Can. Geotech. J., 27, 409417.
  • Benda, L., K. Andras, D. Miller, and P. Bigelow (2004), Confluence effects in rivers: Interactions of basin scale, network geometry, and disturbance regimes, Water Resour. Res., 40, W05402, doi:10.1029/2003WR002583.
  • Borga, M., G. Fontana, C. Gregoretti, and L. Marchi (2002), Assessment of shallow landsliding by using a physically based model of hillslope stability, Hydrol. Processes, 16, 28332851.
  • Brardinoni, F., and M. Church (2004), Representing the landslide magnitude-frequency relation: Capilano River Basin, British Columbia, Earth Surf. Processes Landforms, 29, 115124, doi:10.1002/esp.1029.
  • Brardinoni, F., O. Slaymaker, and M. A. Hassan (2003), Landslide inventory in a rugged forested watershed: A comparison between air-photo and field survey data, Geomorphology, 54, 179196.
  • Brenning, A. (2005), Spatial prediction models for landslide hazards: Review, comparison and evaluation, Nat. Hazards Earth Syst. Sci., 5, 853862.
  • Burroughs, E. R. J., and B. R. Thomas (1977), Declining root strength in Douglas-fir after felling as a factor in slope stability, Res. Pap. INT-190, 27 pp., For. Serv., U.S. Dep. of Agric., Odgen, Utah.
  • Bush, G., C. McConnel, C. Cloyd, K. Musser, B. Metzger, and H. Plumley (1997), Assessment of the effects of the 1996 flood on the Siuslaw National Forest, report, 47 pp., For. Serv., U.S. Dep. of Agric., Corvallis, Oreg.
  • Cenderelli, D. A., and J. S. Kite (1998), Geomorphic effects of large debris flows on channel morphology at North Fork Mountain, eastern West Virginia, USA, Earth Surf. Processes Landforms, 23, 119.
  • Chen, J. C., and C. D. Jan (2003), Probabilistic equation of critical slope for debris-flow occurrence, in Debris-Flow Hazards Mitigation: Mechanics, Prediction, and Assessment, edited by D. Rickenmann, and C. Chen, pp. 8389, Millpress, Rotterdam, Netherlands.
  • Chung, C. J., and A. G. Fabbri (2003), Validation of spatial prediction models for landslide hazard mapping, Nat. Hazards, 30, 451472.
  • Chung, C. J., and A. G. Fabbri (2005), Systematic procedures of landslide-hazard mapping for risk assessment using spatial prediction models, in Landslide Hazard and Risk, edited by T. Glade, M. G. Anderson, and M. J. Crozier, pp. 139174, John Wiley, Hoboken, N. J.
  • Clarke, S., and K. Burnett (2003), Comparison of digital elevation models for aquatic data development, Photogramm. Eng. Remote Sens., 69, 13671375.
  • Coe, J. A., J. W. Godt, R. L. Baum, R. C. Bucknam, and J. A. Michael (2004), Landslide susceptibility from topography in Guatemala, in Landslides: Evaluation and Stabilization, edited by W. Lacerda et al., pp. 6978, Taylor and Francis, Philadelphia, Pa.
  • Collins, B. D., and G. R. Pess (1997), Evaluation of forest practices prescriptions from Washington's Watershed Analysis program, J. Am. Water Resour. Assoc., 35, 969996.
  • Dengler, L., A. K. Lehre, and C. J. Wilson (1987), Bedrock geometry of unchannelized valleys, in Erosion and Sedimentation in the Pacific Rim, edited by B. Beschta et al., pp. 8190, IAHS Press, Washington, D. C.
  • Dietrich, W. E., and T. Dunne (1978), Sediment budget for a small catchment in mountainous terrain, Z. Geomorphol., 29, 191206.
  • Dietrich, W. E., D. Bellugi, and R. R. de Asua (2001), Validation of the shallow landslide model, SHALSTAB, for forest management, in Land Use and Watersheds: Human Influence on Hydrology and Geomorphology in Urban and Forest Areas, Water Sci. Appl. Ser., vol. 2, edited by M. S. Wigmosta, and S. J. Burges, pp. 195227, AGU, Washington, D. C.
  • Dunne, T. (1998), Critical data requirements for prediction of erosion and sedimentation in mountain drainage basins, J. Am. Water Resour. Assoc., 34, 795808.
  • Franklin, J. F., and C. T. Dyrness (1988), Natural Vegetation of Oregon and Washington, 464 pp., Oreg. State Univ. Press, Corvallis.
  • Gershenfeld, N. (1999), The Nature of Mathematical Modeling, 344 pp., Cambridge Univ. Press, New York.
  • Gesch, D., M. Oimoen, S. Greenlee, C. Nelson, M. Steuck, and D. Tyler (2002), The National Elevation Dataset, Photogramm. Eng. Remote Sens., 68, 511.
  • Gomi, T., R. C. Sidle, and J. S. Richardson (2002), Understanding processes and downstream linkages of headwater systems, BioScience, 52, 905916.
  • Guzzetti, F., A. Carrara, M. Cardinali, and P. Reichenbach (1999), Landslide hazard evaluation: A review of current techniques and their application in a multi-scale study, central Italy, Geomorphology, 31, 181216.
  • Guzzetti, F., M. Cardinali, P. Reichenbach, and A. Carrara (2000), Comparing landslide maps: A case study in the Upper Tiber River Basin, central Italy, Environ. Manage., 25, 247263, doi:10.1007/s002679910020.
  • Hack, J. T., and J. C. Goodlett (1960), Geomorphology and forest ecology of a mountain region in the central Appalachians, U.S. Geol. Surv. Prof. Pap., 347, 66 pp.
  • Hammond, C., D. Hall, S. Miller, and P. Swetik (1992), Level 1 Stability Analysis (LISA) documentation for version 2.0, Gen. Tech. Rep. INT-285, 190 pp., Intermountain Res. Stn., U.S. For. Serv., U.S. Dep. of Agric., Ogden, Utah.
  • Hartman, G. F., J. C. Scrivener, and M. J. Miles (1996), Impacts of logging in Carnation Creek, a high-energy coastal stream in British Columbia, and their implication for restoring fish habitat, Can. J. Fish. Aquat. Sci., 53, 237251.
  • Hicks, B. J., J. D. Hall, P. A. Bisson, and J. R. Sedell (1991), Responses of salmonids to habitat changes, in Influences of Forest and Rangeland Management on Salmonid Fishes and Their Habitats, edited by W. R. Meehan, pp. 483518, Am. Fish. Soc., Bethesda, Md.
  • Hofmeister, R. J. (2000), Slope failures in Oregon: GIS inventory for three 1996/97 storm events, Spec. Pap. 34, 20 pp., Oreg. Dep. of Geol. and Min. Ind., Portland.
  • Hovius, N., C. P. Stark, and P. A. Allen (1997), Sediment flux from a mountain belt derived by landslide mapping, Geology, 25, 231234.
  • Hovius, N., C. P. Stark, C. Hao-Tsu, and L. Juin-Chuan (2000), Supply and removal of sediment in a landslide-dominated mountain belt: Central Range, Taiwan, J. Geol., 108, 7389, doi:10.1086/314387.
  • Iverson, R. M. (2000), Landslide triggering by rain infiltration, Water Resour. Res., 36, 18971910.
  • Iverson, R. M., M. E. Reid, and R. G. LaHusen (1997), Debris-flow mobilization from landslides, Annu. Rev. Earth Planet. Sci., 25, 85138.
  • Keim, R. F., and A. E. Skaugset (2003), Modelling effects of forest canopies on slope stability, Hydrol. Processes, 17, 14571467, doi:10.1002/hyp.5121.
  • Kelsey, H. M. (1980), A sediment budget and an analysis of geomorphic process in the Van Duzen River basin, north coastal California, 1941–1975: Summary, Geol. Soc. Am. Bull., 91, 190195.
  • Lamberti, G. A., S. V. Gregory, L. R. Ashkenas, R. C. Wildman, and K. M. S. Moore (1991), Stream ecosystem recovery following a catastrophic debris flow, Can. J. Fish. Aquat. Sci., 48, 196208.
  • Malamud, B. D., D. L. Turcotte, F. Guzzetti, and P. Reichenbach (2004), Landslide inventories and their statistical properties, Earth Surf. Processes Landforms, 29, 687711.
  • Mark, R. K., and E. B. Newman (1988), Rainfall totals before and during the storm: Distribution and correlation with damaging landslides, U.S. Geol. Surv. Prof. Pap., 1434, 1726.
  • May, C. L. (2002), Debris flows through different forest age classes in the central Oregon Coast Range, J. Am. Water Resour. Assoc., 38, 117.
  • May, C. L., and R. E. Gresswell (2003), Processes and rates of sediment and wood accumulation in headwater streams of the Oregon Coast Range, USA, Earth Surf. Processes Landforms, 28, 409424.
  • May, C. L., and R. E. Gresswell (2004), Spatial and temporal patterns of debris-flow deposition in the Oregon Coast Range, USA, Geomorphology, 57, 135149.
  • Miller, A. J. (1990), Fluvial response to debris associated with mass wasting during extreme floods, Geology, 18, 599602.
  • Miller, D. J., and L. E. Benda (2000), Effects of punctuated sediment supply on valley-floor landforms and sediment transport, Geol. Soc. Am. Bull., 112, 18141824.
  • Miller, D. J., C. H. Luce, and L. E. Benda (2003), Time, space, and episodicity of physical disturbance in streams, For. Ecol. Manage., 178, 121140.
  • Mitchell, C. E., P. Vincent, R. J. Weldon, and M. Richards (1994), Present-day vertical deformation of the Cascadia margin, Pacific Northwest, United States, J. Geophys. Res., 99, 12,25712,277.
  • Montgomery, D. R. (1999), Process domains and the river continuum, J. Am. Water Resour. Assoc., 35, 397410.
  • Montgomery, D. R., and W. E. Dietrich (1994), A physically based model for the topographic control on shallow landsliding, Water Resour. Res., 30, 11531171.
  • Montgomery, D. R., K. Sullivan, and H. M. Greenberg (1998), Regional test of a model for shallow landsliding, Hydrol. Processes, 12, 943955.
  • Montgomery, D. R., K. M. Schmidt, H. M. Greenberg, and W. E. Dietrich (2000), Forest clearing and regional landsliding, Geology, 28, 311314.
  • Nakamura, F., F. J. Swanson, and S. M. Wondzell (2000), Disturbance regimes of stream and riparian systems: A disturbance-cascade perspective, Hydrol. Processes, 14, 28492860.
  • Nehlsen, W., J. E. Williams, and J. A. Lichatawich (1991), Pacific salmon at the crossroads: Stocks at risk from California, Oregon, Idaho, and Washington, Fisheries, 16, 421.
  • Niemann, K. O., and D. E. Howes (1991), Applicability of digital terrain models for slope stability assessment, ITC J., 3, 127137.
  • Ohmann, J. L., and M. J. Gregory (2002), Predictive mapping of forest composition and structure with direct gradient analysis and nearest neighbor imputation in coastal Oregon, USA, Can. J. For. Resour., 32, 725741.
  • Oregon Department of Forestry (2006), Oregon administrative rules, division 623: Shallow, rapidly moving landslides and public safety, Salem.
  • Orr, E. L., W. N. Orr, and E. M. Baldwin (1992), Geology of Oregon, 4th ed., 254 pp., Kendall/Hunt, Dubuque, Iowa.
  • Pabst, R. J., and T. A. Spies (2001), Ten years of vegetation succession on a debris-flow deposit in Oregon, J. Am. Water Resour. Assoc., 37, 16931708.
  • Pyles, M. R., and H. A. Froehlich (1987), Discussion of “Rates of landsliding as impacted by timber management activities in northwestern California,” by M. Wolfe and J. Williams, Bull. Assoc. Eng. Geol., 24, 425431.
  • Reeves, G. H., L. E. Benda, K. M. Burnett, P. A. Bisson, and J. R. Sedell (1995), A disturbance-based ecosystem approach to maintaining and restoring freshwater habitats of evolutionarily significant units of anadromous salmonids in the Pacific Northwest, in Evolution and the Aquatic Ecosystem: Defining Unique Units in Population Conservation, American Fisheries Society Symposium 17, edited by J. L. Nielson, and D. A. Powers, pp. 334349, Am. Fish. Soc., Bethesda, Md.
  • Reid, L. M., and T. Dunne (1996), Rapid Construction of Sediment Budgets for Drainage Basins, 160 pp., Catena, Cremlingen, Germany.
  • Reid, M. E., S. D. Ellen, D. L. Brien, J. de la Fuente, J. N. Falls, B. G. Hicks, and T. E. Koler (2001), Comparison of topographic models for predicting debris-slide locations, Eos Trans. AGU, 82(47), Fall Meet. Suppl., Abstract H22G-09.
  • Reneau, S. L., W. E. Dietrich, D. J. Donahue, A. J. T. Jull, and M. Rubin (1990), Late Quaternary history of colluvial deposition and erosion in hollows, central California Coast Ranges, Geol. Soc. Am. Bull., 102, 969982.
  • Rice, S. P., M. T. Greenwood, and C. B. Joyce (2001), Macroinvertebrate community changes at coarse sediment recruitment points along two gravel bed rivers, Water Resour. Res., 37, 27932803.
  • Robison, G. E., K. A. Mills, J. Paul, L. Dent, and A. Skaugset (1999), Storm impacts and landslides of 1996: Final report, For. Pract. Tech. Rep. 4, 145 pp., Oreg. Dep. of For., Salem.
  • Roering, J. J., K. M. Schmidt, J. D. Stock, W. E. Dietrich, and D. R. Montgomery (2003), Shallow landsliding, root reinforcement, and the spatial distribution of trees in the Oregon Coast Range, Can. Geotech. J., 40, 237253.
  • Roering, J. J., J. W. Kirchner, and W. E. Dietrich (2005), Characterizing structural and lithologic controls on deep-seated landsliding: Implications for topographic relief and landscape evolution in the Oregon Coast Range, USA, Geol. Soc. Am. Bull., 117, 654668, doi:10.1130/B25567.1.
  • Rollerson, T. P., T. Millard, and B. Thomson (2002), Using terrain attributes to predict post-logging landslide likelihood on southwestern Vancouver Island, For. Res. Tech. Rep. TR-015, 15 pp., B. C. Minist. of For., Nanaimo, Canada.
  • Schmidt, K. M., J. J. Roering, J. D. Stock, W. E. Dietrich, D. R. Montgomery, and T. Schaub (2001), The variability of root cohesion as an influence on shallow landslide susceptibility in the Oregon Coast Range, Can. Geotech. J., 38, 9951024.
  • Sidle, R. C., and H. Ochiai (2006), Landslides: Processes, Prediction, and Land Use, Water Resour. Monogr. Ser., vol. 18, 312 pp., AGU, Washington, D. C.
  • Sidle, R. C., A. J. Pearce, and C. L. O'Loughlin (Eds.) (1985), Hillslope Stability and Land Use, Water Resour. Monogr. Ser., vol. 11, 140 pp., AGU, Washington, D. C.
  • Soeters, R., and C. J. van Westen (1996), Slope instability recognition, analysis, and zonation, in Landslides, Investigation and Mitigation, Transportation Research Board, National Research Council, Special Report 247, edited by A. K. Turner, and R. L. Schuster, pp. 129177, Natl. Acad. Press, Washington, D. C.
  • Spies, T. A., K. N. Johnson, K. M. Burnett, J. L. Ohmann, B. C. McComb, G. H. Reeves, P. Bettinger, J. D. Kline, and B. Garber-Yonts (2007), Assessing forest policies in the coastal province of Oregon: An overview of biophysical and socio-economic responses, Ecol. Appl., in press.
  • Stark, C. P., and H. Hovius (2001), The characterization of landslide size distributions, Geophys. Res. Lett., 28, 10911094.
  • Swanson, F. J., and C. T. Dyrness (1975), Impact of clearcutting and road construction on soil erosion by landslides in the western Cascade Range, Oregon, Geology, 3, 393396.
  • Swanson, F. J., L. E. Benda, S. H. Duncan, G. E. Grant, W. F. Megahan, L. M. Reid, and R. R. Ziemer (1987), Mass failures and other processes of sediment production in Pacific Northwest forest landscapes, in Streamside Management: Forestry and Fishery Interactions, edited by E. O. Salo, and T. W. Cundy, pp. 938, Inst. of For. Resour., Univ. of Wash., Seattle.
  • Tarboton, D. G. (1997), A new method for the determination of flow directions and upslope areas in grid digital elevation models, Water Resour. Res., 33, 309319.
  • Taylor, G. (1997), Causes of the flood and a comparison to other climate events, in The Pacific Northwest Floods of February 6–11, 1996: Proceedings of the Pacific Northwest Water Issues Conference, edited by A. Laenen, and J. D. Ruff, pp. 37, Am. Inst. of Hydrol., St. Paul, Minn.
  • Taylor, G. H., and C. Hannan (1999), The Climate of Oregon: From Rain Forest to Desert, 211 pp., Oreg. State Univ. Press, Corvallis.
  • Taylor, J. R. (1997), An Introduction to Error Analysis: The Study of Uncertainties in Physical Measurements, 2nd ed., 327 pp., Univ. Sci., Sausalito, Calif.
  • U.S. Department of Agriculture and U.S. Department of the Interior (1994), Standards and Guidelines for Management of Habitat for Late-Successional and Old-Growth Forest Related Species Within the Range of the Northern Spotted Owl, Attachment A to the Record of Decision for Amendments to Forest Service and Bureau of Land Management Planning Documents Within the Range of the Northern Spotted Owl, Portland, Oreg.
  • van Westen, C. J., N. Rengers, and R. Soeters (2003), Use of geomorphological information in indirect landslide susceptibility assessment, Nat. Hazards, 30, 399419.
  • Walker, G. W., and N. S. MacLeod (1991), Oregon geology, map, 2 sheets, scale 1:500,000, Geol. Surv. U.S. Dep. of the Inter., Reston, Va.
  • Washington Department of Natural Resources (2005), Chapter 222-10, in Washington Administrative Code: State Environmental Policy Act Guidelines, pp. 10.110.2, Wash. Dep. of Nat. Resour., Olympia.
  • Wieczorek, G. F. (1984), Preparing a detailed landslide-inventory map for hazard evaluation and reduction, Bull. Assoc. Eng. Geol., 21, 337342.
  • Wieczorek, G. F. (1987), Effect of rainfall intensity and duration on debris flows in central Santa Cruz Mountains, California, in Debris Flows/Avalanches: Process, Recognition, and Mitigation, edited by J. E. Costa, and G. F. Wieczorek, pp. 93104, Geol. Soc. of Am., Boulder, Colo.
  • Wieczorek, G. F., E. L. Harp, R. K. Mark, and A. K. Bhattacharyya (1988), Debris flows and other landslides in San Mateo, Santa Cruz, Contra Costa, Alameda, Napa, Solano, Sonoma, Lake, and Yolo counties, and factors influencing debris-flow distribution, U.S. Geol. Surv. Prof. Pap., 1434, 133162.
  • Wohl, E. E., and P. P. Pearthree (1991), Debris flows as geomorphic agents in the Huachuca Mountains of southeastern Arizona, Geomorphology, 4, 273292.
  • Wu, T. H. (1996), Soil strength properties and their measurement, in Landslides, Investigation and Mitigation, Transportation Research Board, National Research Council, Special Report 247, edited by A. K. Turner, and R. L. Schuster, pp. 319336, Natl. Acad. Press, Washington, D. C.