Abstract
This paper explores the role of geographic prioritization as a means of identifying lands that are especially well suited to restoration in the historical floodplain of western Oregon's Willamette River. The river and its floodplain have been extensively modified since 1850. As a result, the quantity and quality of river habitat have declined. The approach illustrated here explicitly links the potential for ecological benefits from restoration with the social and economic likelihood of restoration success. Using a consistent analytical framework, longitudinal patterns in selected biophysical and socioeconomic characteristics are quantified along the entire river length, from Eugene to Portland. Areas with high potential for ecological recovery and low socioeconomic constraints have the greatest potential for future restoration. Areas that combine low potential for ecological response with high demographic and economic costs are likely to be poor choices for restoration. Areas with high ecological potential and intermediate levels of socioeconomic constraints present intermediate opportunities for restoration. The paper identifies high priority locations for restoration, assuming the purposes of restoration are to increase river channel complexity, increase floodplain forest area, and increase natural water storage during floods. It concludes by discussing the role of visualizations in citizen involvement.
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Baker, J., Gregory, S., Haggerty, P., Bayley, P., Van Sickle, J., Herlihy, A., Ashkenas, L. and Li, J. (2002) Aquatic life. In Willamette River Basin: Trajectories of Environmental and Ecological Change, A Planning Atlas (D. Hulse, S. Gregory and J. Baker, eds.) 2nd edition, pp. 118–123. Oregon State University Press, Corvallis, Oregon.
Booth, D.B. (1991) Urbanization and the natural drainage system-impacts, solutions and prognosis. Northwest Environment Journal 7, 93–118.
Cohen, W.B., Fiorella, M., Gray, J., Helmer, E. and Anderson, K. (1998) An efficient and accurate method for mapping forest clearcuts in the Pacific Northwest using Landsat imagery. Photogrammetric Engineering & Remote Sensing 64, 293–300.
Cohen, W.B., Spies, T.A. and Fiorella, M. (1995) Estimating the age and structure of forests in a multi-ownership landscape of western Oregon, U.S.A. International Journal of Remote Sensing 16 (4), 721–746
Cohen, W.B., Maiersperger, T.K., Spies, T.A. and Oetter, D.R. (2001) Modeling forest cover attributes as continuous variables in a regional context with Thematic Mapper data. International Journal of Remote Sensing 22 (12), 2279–2310.
Cowx, I.G. and Welcomme, R.L. eds. (1998) Rehabilitation of rivers for fish: A study undertaken by the European Inland Fisheries Advisory Commission of FAO. Blackwell Science Ltd. Malden, Mass. 02148.
Dale, V.H., Brown, S., Haeuber, R.A., Hobbs, N.T., Huntly, N., Naiman, R.J., Riebsame, W.E., Turner, M.G. and Valone, T.J. (2000) ESA Report: Ecological principles and guidelines for managing the use of land. Ecological Applications 10 (3), 639–670.
Enright, C., Aoki, M., Oetter, D., Hulse, D. and Cohen, W. (2002) Land Use/Land Cover ca. (1990) In Willamette River Basin: Trajectories of environmental and ecological change, A planning atlas (D. Hulse, S. Gregory and J. Baker, eds.), 2nd edition, pp. 78–81. Oregon State University Press, Corvallis, Oregon.
Gregory, S., Ashkenas, L., Oetter, D., Minear, P., Christy, J. and Wildman, K. (2002a) Willamette River Channels, 1850, 1895, 1932, 1995, by River Section and Channel Type. In Willamette River Basin: Trajectories of Envi-ronmental and Ecological Change, A Planning Atlas (D. Hulse, S. Gregory and J. Baker, eds.), 2nd edition, pp. 166–173. Oregon State University Press, Corvallis, Oregon.
Gregory, S., Ashkenas, L., Oetter, D., Minear, P., Wildman, K. and Christy, J. (2002b) Pre-EuroAmerican Scenario. In Willamette River Basin: Trajectories of Environmental and Ecological Change, A Planning Atlas (D. Hulse, S. Gregory and J. Baker, eds.), 2nd edition, pp. 92–93. Oregon State University Press, Corvallis, Oregon.
Gregory, S.V., Hulse, D., Landers, D. and Whitelaw, E. (1998) Integration of biophysical and socio-economic patterns in riparian restoration of large rivers. In Hydrology in a Changing Environment (H. Wheater and C. Kirby, eds.), vol. I, Theme 2 Ecological and Hydrological Interactions (D. Gilvear, ed.), pp. 231–247. John Wiley and Sons, Chicester.
Gregory, S.V., Swanson, F.J., McKee, W.A. and Cummins, K.W. (1991) An ecosystem perspective of riparian zones. Bioscience 41, 540–551.
Heard, L.P., Gilbert, W., and Boyer, K. (2004) Understanding the landscape. DVD Teaching Modules, Wildlife Habitat Management Institute, Natural Resources Conservation Services, U.S. Department of Agriculture, 100 Webster Circle, Suite 3, Madison, Mississippi.
Heinz Center for Science, Economics and the Environment (2002) The State of the Nation's Ecosystems: Measuring the Lands, Waters, and Living Resources of the United States.Cambridge University Press, Cambridge.
Holling, C.S. and Gunderson, L.H. (2002) Resilience and adaptive cycles. In Panarchy: Understanding Trans-formations in Human and Natural Systems (L.H. Gunderson and C.S. Holling, eds.), pp. 25–62. Island Press, Washington, D.C.
Hollmann, F.W., Mulder, T.J. and Kallan, J.E. (2000) Methodology and assumptions for the population projections of the United States: 1999 to 2100. U.S. Census Bureau, Department of Commerce (Washington, DC) Population Division Working Paper No. 38.
Hulse, D. and Gregory, S.V. (2001) Alternative Futures as an integrative framework for riparian restoration of large rivers, In Applying Ecological Principles to Land Management (V.H. Dale and R. Haeuber, eds.), chapter 9, pp. 194–212, Springer-Verlag, New York.
Hulse, D., Eilers, J., Freemark, K., White, D. and Hummon, C. (2000) Planning alternative future landscapes in Oregon: evaluating effects on water quality and biodiversity. Landscape Journal 19 (2), 1–19.
Hulse, D., Gregory, S. and Baker, J. eds. (2002) Willamette River Basin: Trajectories of Environmental and Ecological Change, A Planning Atlas. 2nd edition, Oregon State University Press, 182 p.
Hulse, D. and Ribe, R. (2000) Land conversion and the production of wealth. Ecological Applications 10 (3), 679–682.
Jerrick, N., Risser, P. and Bastasch, R. (2001) Restoring a river of life: The Willamette Restoration Strategy Overview. Willamette Restoration Initiative, PO Box 13026, Salem, Oregon 97309-1026.
Johnson, K.N. and Herring, M. (1999) Understanding bioregional assessments. In Bioregional Assessments: Sci-ence at the Crossroads of Management and Policy (K.N. Johnson, F. Swanson, M. Herring and S. Greene, eds.), pp. 352–355. Island Press, Washington, D.C.
Junk, W.J., Bayley, P.B. and Sparks, R.E. (1989) The flood pulse concept in river-floodplain systems. Special Publication of the Canadian Journal of Fisheries and Aquatic Sciences. 106, 110–127.
Kareiva, P. and Wennergren, U. (1995) Connecting landscape patterns to ecosystem and population processes. Nature 373, 299–302
KGW-TV. (1998) "Willamette River: Currents of Change" 28 minute video. KGW-TV, Portland, OR.
Lattin, P and Peneston, B. (1999) Internal Report: Comparison of Land Cover/Land Use Characterizations of Riparian Areas and Watersheds Derived from Aerial Photography and Landsat Thematic Mapper imagery of Phase I Watersheds. Deliverable No. 3–09.010. U.S. Environmental Protection Agency. Corvallis, OR, 97333.
Levin, S. Ecosystems and biosphere as complex adaptive systems (1998) Ecosystems 1, 431–436.
Li, J., Herlihy, A., Gerth, W., Kaufmann, P., Gregory, S., Urquhart, S. and Larsen, D.P. (2001) Variability in stream macroinvertebrates at multiple spatial scales. Freshwater Biology 46, 87–97.
McKay, C. (2001). A Guide to Agency Visioning. Chapter 5: Ecoregion Visioning Process., U.S. Fish and Wildlife Service, U.S. Department of Interior, Federal Aid Division, 911 NE 11th Ave., Portland, OR 97232-4181.
Mooij, W.M. and DeAngelis, D.L. (1999) Error propagation in spatially explicit population models: A reassess-ment. Conservation Biology 13, 930–933.
National Research Council (1992) Restoration of Aquatic Ecosystems. National Academy Press. 552 pp.
National Research Council (2000) Environmental Issues in Pacific Northwest: Forest Management. National Academy Press. 280 pp.
Niemi, G.J., DeVore, P., Detenbeck, N., Taylor, D., Lima, A., Pastor, J., Yount, J.D. and Naiman, R.J. (1990) Overview of case studies on recovery of aquatic systems from disturbance. Environmental Management 14(5), 571–597.
Oetter, D.R., Cohen, W.B., Berterretche, M., Maiersperger, T.K. and Kennedy, R.E. (2001) Land cover mapping in an agricultural setting using multiseasonal Thematic Mapper data. Remote Sensing of Environment 76 (2), 139–156.
Olson, C. and Harris, R. (1997) Applying a two-stage system to prioritize riparian restoration at the San Luis Rey River, San Diego County, California. Restoration Ecology 5(4), 43–55.
Petts, G.E. (1990) The role of ecotones in aquatic landscape management. In The Ecology and Management of Aquatic-Terrestrial Ecotones (R.J. Naiman and H. Dècamps, eds.), pp. 227–261. UNESCO,Paris, and Parthenon, Carnforth, UK.
Riley, A. (1998). Restoring Streams in Cities: A Guide for Planners, Policy Makers, and Citizens. Island Press, Washington, D.C.
Risser, P., Arnold, S., Boggess, W., Gregory, S., Hulse, D., Jepson, P., Johnson, N., Lubchenco, J., Murtaugh, P., Pratt, J., Vavra, M. and Woods, S. (2000) Oregon State of the Environment Report 2000: Statewide Summary. Oregon Progress Board, 775 Summer St. N.E. Suite 330 Salem, OR. 97301-1283.
Russell, G.D., Hawkins, C.P. and O'Neill, M.P. (1997) The role of GIS in selecting sites for riparian restoration based on hydrology and land use. Restoration Ecology 5, 56–68.
Santelmann, M., Freemark, K., White, D., Nassauer, J., Clark, M., Danielson, B., Eilers, J., Cruse, R., Galatowitsch, S., Polasky, S., Vache, K. and Wu, J. (2001) Applying ecological principles to land-use decision making in agricultural watersheds. In Applying Ecological Principles to Land Management (V.H. Dale and R. Haeuber, eds.), pp. 226–254. Springer-Verlag, New York.
Sedell, J.R., Reeves, G.H., Hauer, F.R., Stanford, J.A. and Hawkins, C.P. (1990) Role of refugia in recovery from disturbances: Modern fragmented and disconnected river systems. Environmental Management 14, 711–724.
Steinitz, C. and McDowell, S. (2001) Applying ecological principles to land-use decision making in agricultural watersheds. In Applying Ecological Principles to Land Management (V.H. Dale and R. Haeuber, eds.), pp. 226–254. Springer-Verlag, New York.
Tockner, K. and Schiemer, F. (1997) Ecological aspects of the restoration strategy for a river-floodplain system on the Danube River in Austria. Global Ecology and Biogeography Letters 6, 321–329.
U.S. Environmental Protection Agency. (2000) Environmental Planning for Communities: A Guide to the Envi-ronmental Visioning Process Utilizing a Geographic Information System. EPA/625/R-98/003.
Vannote, R.L., Minshall, G.W., Cummins, K.W., Sedell, J.R. and Cushing, C.E. (1980) The river continuum concept. Canadian Journal of Fisheries and Aquatic Sciences 37, 130–137.
Walters, C. and Korman, J. (1999) Cross-scale modeling of riparian ecosystem responses to hydrologic manage-ment. Journal of Ecosystems 2, 411–421.
White, D., Preston, E.M., Freemark, K.E. and Kiester, A.R. (1999) A hierarchical framework for conserving biodiversity pp. 127–153. In Landscape Ecological Analysis: Issues and Applications (J.M. Klopatek and R.H. Gardner, eds.). Springer-Verlag. New York
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Hulse, D., Gregory, S. Integrating resilience into floodplain restoration. Urban Ecosystems 7, 295–314 (2004). https://doi.org/10.1023/B:UECO.0000044041.94705.52
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DOI: https://doi.org/10.1023/B:UECO.0000044041.94705.52