Abstract
Despite massive investment in flood control infrastructure (FCI), neither cities nor rivers have been well served—flooding continues to challenge cities around the world, while riverine ecosystems are degraded by FCI. Although new flood hazard management concepts have shifted the focus away from FCI, many cities continue to count on FCI to prevent flood damage. It is assumed that existing built-up areas can only count on FCI, as large-scale retreat is often impossible. However, flood adaptation—retrofitting the built environment to prevent damage during flooding—as an option is often ignored. This paper argues against the continual use of FCI to prevent flood damage by reviewing FCI’s established problems. The paper examines human–river interactions associated with FCI, focusing on the feedback mechanisms in the interactions, with a case study on the Lower Green River (LGR) valley in King County, Washington, USA. An urban ecology research model is employed to organize the case study, where interactions between floodplain urbanization, FCI, flow and sediment changes, flood risk, and riverine ecosystem are explored and two feedback mechanisms—river adjustment and flood risk perception—are explicitly addressed. The resulting complex dynamics, in terms of cross–scale interactions, emergence, nonlinearity, and surprises, are synthesized and limitations of FCI outlined. Flood adaptation is explored as a plausible alternative to flood control to nurture flood resilience. A management scenario of flood adaptation for the City of Kent—the largest municipality in the LGR valley—is developed to discuss the implications of flood adaptation on flood risk and river restoration.
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References
Abbe TS, Montgomery DR (1996) Large woody debris jams, channel hydraulics and habitat formation in large rivers. Regul Rivers Res Manag 12(2–3):201–221
Adger WN, Hughes TP, Folke C, Carpenter SR, Rockström J (2005) Social-ecological resilience to coastal disasters. Science 309:1036–1039
Alberti M, Marzluff JM, Shulenberger E, Bradley G, Ryan C, Zumbrunnen C (2003) Integrating humans into ecology: opportunities and challenges for studying urban ecosystems. Bioscience 53(12):1169–1179
Anchor Environmental (2004) Lower Green River baseline habitat survey report. Prepared for WRIA 9 Technical Committee and King County Department of Natural Resources and Parks, Water and land Resources Division
Anderson M, Walling DR, Bates P (eds) (1996) Floodplain processes. Wiley, Chichester
Ashley ST, Ashley WS (2008) Flood fatalities in the United States. J Appl Meteorol Climatol 47:805–818
Ashley R, Blanksby J, Chapman J, Zhou JJ (2007) Towards integrated approaches to reduce flood risk in urban areas. In: Ashley R, Garvin S, Pasche E, Vassilopoulos A, Zevenbergen C (eds) Advances in urban flood management. Taylor & Francis, New York, pp 415–432
Baan PJA, Klign F (2004) Flood risk perception and implications for flood risk management in the Netherlands. Int J River Basin Manag 2(2):113–122
Batker D, Barclay E, Boumans R, Hathaway T (2005) Ecosystems services enhanced by salmon habitat conservation in the Green/Duwamish and Central Puget Sound Watershed. Prepared for WRIA 9 Steering Committee and King County Department of Natural Resources and Parks, Water and Land resources Division
Berkes F (2007) Understanding uncertainty and reducing vulnerability: lessons from resilience thinking. Nat Hazards 41(2):283–295
Berkes F, Colding J, Folke C (eds) (2003) Navigating social-ecological system: building resilience for complexity and change. Cambridge University Press, Cambridge
Bernhardt E, Bunn SE, Hart DD, Malmqvist B, Muotka T, Naiman RJ, Pringle C, Reuss M, van Wilgen B (2006) Perspective: the challenge of ecologically sustainable water management. Water Policy 8(5):475–479
Bosher L (2009) Briefing: researching a more resilient built environment. Proc Inst Civ Eng Urban Des Plan 162(DP2):59–61
Brookes A (1988) Channelized rivers: perspectives for environmental management. Wiley, New York
Brown AG (1996) Floodplain palaeoenvironments. In: Anderson MG, Walling DE, Bates PD (eds) Floodplain processes. Wiley, New York, pp 95–138
Bunn SE, Arthington AH (2002) Basic principles and ecological consequences of altered flow regimes for aquatic biodiversity. Environ Manag 30(4):492–507
Burton I, Kates RW, White GF (1993) The environment as hazard, 2nd edn. The Guilford Press, New York
Castonguay S (2007) The production of flood as natural catastrophe: extreme events and the construction of vulnerability in the drainage basin of the St. Francis River (Quebec), mid-nineteenth to mid-twentieth century. Environ Hist 12:820–844
Changnon SA (2003) Shifting economic impacts from weather extremes in the United States: a result of societal changes, not global warming. Nat Hazards 29:273–290
Church M (2002) Geomorphic thresholds in riverine landscapes. Freshw Biol 47:541–557
City of Kent (2004) City of Kent comprehensive emergency management plan: hazard identification and vulnerability analysis, 2nd edn
Clark C (1982) Flood. Time-Life Books, Alexandria
Coffin C, Lee S, DeGasperi C (2011) Green river temperature total maximum daily load water quality improvement report. Washington State Department of Ecology Publication No. 11-10.046
Collins B, Sheikh A (2005) Historical aquatic habitats in the Green and Duwamish River valleys and the Elliot Bay nearshore, King County, Washington. Project completion report to King County Department of Natural Resources and Parks
Colten CE, Sumpter AR (2009) Social memory and resilience in New Orleans. Nat Hazards 48(3):355–364
Correia FN, Fordham M, Saraiva DG, Bernado F (1998) Flood hazard assessment and management: interface with the public. Water Resour Manag 12(3):209–227
Cuny FC (1991) Living with floods: alternatives for riverine flood mitigation. Land Use Policy 8(4):331–342
Day JW, Boesch DF, Clairain EJ, Kemp GP, Laska SB, Mitsch WJ, Orth K, Mashriqui H, Reed DJ, Shabman L, Simenstad CA, Streever BJ, Twilley RR, Watson CC, Wells JT, Whigham DF (2007) Restoration of the Mississippi Delta: lessons from Hurricanes Katrina and Rita. Science 315:1679–1684
Dunne T, Dietrich WE (1979) Geomorphology and hydrology of the Green River. In: Jones and Jones (eds) A river of green. Report to King County, pp A1–A33
Etkin D (1999) Risk transference and related trends: driving forces towards more mega-disasters. Environ Hazards 1:69–75
Everard M, Moggridge HL (2012) Rediscovering the value of urban rivers. Urban Ecosyst 15:293–314
FEMA: FEMA Region X Mitigation (2009) HAZUS analysis for the Green River Valley
Fiering MB (1982) Alternative indices of resilience. Water Resour Res 18(1):33–39
Folke C, Jansson A, Larsson J, Costanza R (1997) Ecosystem appropriation by cities. Ambio 26:167–172
Folke C, Carpenter S, Elmqvist T, Gunderson L, Holling CS, Walker B (2002) Resilience and sustainable development: building adaptive capacity in a world of transformations. Ambio 31(5):437–440
Folke C, Carpenter SR, Walker B, Scheffer M, Chapin T (2010) Resileince thinking: integrating resilience, adaptability and transformability. Ecol Soc 15(4):20
Freitag B, Bolton S, Westerlund F, Clark JLS (2009) Floodplain management: a new approach for a new era. Island Press, Washington, DC
Gergel AE, Carpenter SR, Stanley EH (2005) Do dams and levees impact nitrogen cycling? Simulating the effects of flood alterations on floodplain denitrification. Glob Chang Biol 11:1352–1367
Godschalk DR (2003) Urban hazard mitigation: creating resilient cities. Nat Hazards Rev 4(3):136–143
Griggs GB, Paris L (1982) Flood control failure: San Lorenzo River, California. Environ Manag 6(5):407–419
Grimm NB, Faeth SH, Golubiewski NE, Redman CL, Wu J, Bai X, Briggs JM (2008) Global change and the ecology of cities. Science 319:756–760
Guikema SD (2009) Infrastructure design issues in disaster-prone-regions. Science 323:1302–1303
Gunderson LH (2010) Ecological and human community resilience in response to natural disasters. Ecol Soc 15(2):18
Gunderson LH, Holling CS (eds) (2002) Panarchy: understanding transformations in human and natural systems. Island Press, Washington, DC
Gurnell A, Lee M, Souch C (2007) Urban rivers: hydrology, geomorphology, ecology, and opportunities for change. Geogr Compass 1(5):1118–1137
Hallegatte S (2009) Strategies to adapt to an uncertain climate change. Glob Environ Chang 19:240–247
Hewitt K, Burton I (1971) The hazardousness of a place: a regional ecology of damaging events. University of Toronto Press, Toronto
Holling CS (1973) Resilience and stability of ecological systems. Annu Rev Ecol Syst 4:1–23
Holling CS (1996) Surprise for science, resilience for ecosystems, and incentives for people. Ecol Appl 6(3):733–735
Holling CS, Meffe GK (1996) Command and control and the pathology of natural resource management. Conserv Biol 10(2):328–337
IPCC: Intergovernmental Panel on Climate Change (2007) Summary for policymakers. In: Solomon S, Qin D, Manning M, Chen Z, Marquis M, Averyt KB, Tignor M, Miller HL (eds) Climate change 2007: the physical science basis. Contribution of working group I to the fourth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge
IPCC: Intergovernmental Panel on Climate Change (2012) Summary for Policymakers. In: Field CB, Barros V, Stocker TF, Qin D, Dokken DJ, Ebi KL, Mastrandrea MD, Mach KJ, Plattner GK, Allen SK, Tignor M, Midgley PM (eds) Managing the risks of extreme events and disasters to advance climate change adaptation. A special report of working groups I and II of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, pp 1–19
Jones HP, Hole DG, Zavaleta ES (2012) Harnessing nature to help people adapt to climate change. Nat Clim Chang 2:504–509
Kerwin J, Nelson TS (eds) (2000) Habitat limiting factors and reconnaissance assessment report, Green/Duwamish and Central Puget Sound Watersheds (WRIA 9 and Vashon Island), vol 1. King County Department of Natural Resources
King County (2006) Flood hazard management plan: King County, Washington. King County Department of Natural Resources and Parks, Water and Land Resources Division, Seattle, Washington
Klijn F, van Buuren M, van Rooij SAM (2004) Flood-risk management strategies for an uncertain future: living with Rhine River floods in the Netherlands? Ambio 33(3):141–147
Kroes DE, Hupp CR (2010) The effect of channelization of floodplain sediment deposition and subsidence along the Pocomoke River, Maryland. J Am Water Resour As 46(4):686–699
Laituri MJ (2000) Cultural perspectives of flooding. In: Wohl EE (ed) Inland flood hazards: human, riparian, and aquatic communities. Cambridge University Press, Cambridge, pp 451–468
Lane EW (1955) The importance of fluvial morphology in hydraulic engineering. Proc Am Soc Civ Eng 81(795):1–17
Lane SN, Richards KS (1997) Linking river channel form and process: time, space and causality revisited. Earth Surf Process Landf 22:249–260
Liao K-H (2012) A theory on urban resilience to floods—a basis for alternative planning practices. Ecol Soc 17(4):48
Liu J, Dietz T, Carpenter SR, Alberti M, Folke C, Moran E, Pell AN, Deadman P, Kratz T, Lubchenco J, Ostrom E, Ouyang Z, Provencher W, Redman CL, Schneider SH, Taylor WW (2007) Complexity of coupled human and natural systems. Science 317:1513–1516
Mantua N, Tohver I, Hamlet A (2010) Climate change impacts on streamflow extremes and summertime stream temperature and their possible consequences for freshwater salmon habitat in Washington State. Clim Chang 102:187–223
Milly PCD, Betancourt J, Falkenmark M, Hirsch RM, Kundzewicz ZW, Lettenmaier DP, Stouffer RJ (2008) Stationarity is dead: whither water management? Science 319:573–574
Montz BE, Tobin GA (2008) Livin’ large with levees: lessons learned and lost. Nat Hazards Rev 9(3):150–157
Moss T, Monstadt J (eds) (2008) Restoring floodplains in Europe: policy contexts and project experiences. IWA, London
Mount JF (1995) California rivers and streams: the conflict between fluvial processes and land use. University of California Press, Berkeley
Mullineaux DR (1970) Geology of the Renton, Auburn and Black Diamond quadrangles, King County, WA. USGS Professional Paper 672
Naiman RJ, Décamps H, McClain ME (2005) Riparia: ecology, conservation, and management of streamside communities. Elsevier Academic Press, New York
Naiman RJ, Helfield JM, Bartz KK, Drake DC, Honea JM (2009) Pacific salmon, marine-derived nutrients and the characteristics of aquatic and riparian ecosystems. In: Haro AJ, Smith KL, Rulifson TA, Moffitt CM, Klauda RJ, Dadswell MJ, Cunjak RA, Cooper JE, Beal KL, Avery TS (eds) Challenges for diadromous fishes in a dynamic global environment, vol 69. American Fisheries Society symposium, Bethesda, pp 395–425
Nakao T, Tanimoto K (1997) Comprehensive flood control measures in the Tsurumi River Basin in Japan. Water Int 22(4):252–258
Nelson DR, Adger WN, Brown K (2007) Adaptation to environmental change: contributions of a resilience framework. Annu Rev Environ Resourc 32:395–419
NHC: Northwest Hydraulic Consultants (2008) Floodplain mapping study for Lower Green River: river miles 3.85 to state highway 18 (RM 33.25). Prepared for King County River and Floodplain Management Water and Land resources Division, Department of Natural resources and Parks
NHRAIC: National Hazards Research and Applications Information Center (1992) Floodplain management in the United States: an assessment report, vol 1. Prepared for Federal Interagency Floodplain Management Task Force
Nienhuis PH, Leuven RSEW (2001) River restoration and flood protection: controversy or synergism? Hydrobiologia 444:85–89
Nilsson C, Berggren K (2000) Alterations of riparian ecosystems caused by river regulation. Bioscience 50(9):783–792
Obropta CC, Kallin PL (2007) The restoration of an urban floodplain in Rahway, New Jersey. Ecol Restor 25(3):175–182
Opperman JJ, Galloway GE, Fargione J, Mount JF, Richter BD, Secchi S (2009) Sustainable floodplains through large-scale reconnection to rivers. Science 326:1487–1488
Pahl-Wostl C (2002) Towards sustainability in the water sector: the importance of human actors and processes of social learning. Aquat Sci 64:394–411
Pahl-Wostl C (2006) The importance of social learning in restring the multifunctionality of rivers and floodplains. Ecol Soc 11(1):10
Palmer MA (2010) Beyond infrastructure. Science 467:534–535
Parker DJ (1995) Floodplain development policy in England and Wales. Appl Geogr 15(4):341–363
Parker DJ (ed) (2000a) Floods, v1 and v2. Routledge, London
Parker DJ (2000b) Introduction. In: Parker DJ (ed) Floods, v2. Routledge, London, pp 3–5
Pess GR, Morley SA, Hall JL, Timm RK (2005) Monitoring floodplain restoration. In: Roni P (ed) Monitoring stream and watershed restoration. American Fisheries Society, Bethesda, pp 122–166
Petts GE (1984) Impounded rivers: perspectives for ecological management. Wiley, Chichester
Petts GE, Nestler J, Kennedy R (2006) Advancing science for water resources management. Hydrobiologia 565:277–288
Philippi NS (1996) Floodplain management: ecologic and economic perspectives. R.G. Landes Company, Austin
Phillips JD (1991) Multiple modes of adjustment in unstable river channel cross-sections. J Hydrol 123:39–49
Pielke RA (1999) Nine fallacies of floods. Clim Chang 42:413–438
Pinay G, Clement JC, Naiman RJ (2002) Basic principles and ecological consequences of changing water regimes on nitrogen cycling in fluvial systems. Environ Manag 30(4):481–491
Pinter N (2005) One step forward, two steps back on U.S. floodplains. Science 308:207–208
Poff NL, Allan JD, Bain MB, Karr JR, Prestegaard KL, Richter BD, Sparks RE, Stromberg JC (1997) The nature flow regime: a paradigm for river conservation and restoration. Bioscience 47(11):769–784
Poff NL, Richter BD, Arthington AH, Bunn SE, Naiman RJ, Kendy E, Acreman M, Apse C, Bledsoe BP, Freeman MC, Henriksen J, Jacobson RB, Kennen JG, Merritt DM, O’Keeffe JH, Olden JD, Rogers K, Tharme RE, Warner A (2010) The ecological limits of hydrologic alteration (ELOHA): a new framework for developing regional environmental flow standards. Freshw Biol 55:147–170
Postel S, Richter B (2003) Rivers for life: managing water for people and nature. Island Press, Washington, DC
Powell AE (2010) The infrastructure roundtables: seeking solutions to an American crisis. Civ Eng 80(4):42–61
Quinn TP (2005) The behavior and Ecology of Pacific Salmon and Trout. American Fisheries Society, Bethesda
Rahn PH (1984) Flood-plain management program in Rapid City, South Dakota. Geol Soc Am Bull 95:838–843
Reinelt L (ed) (2005) WIRA 9 strategic assessment report: scientific foundation for salmonid habitat conservation. Prepared for Water Resources Inventory Area (WRIA) 9 Steering Committee
Richter BD, Baumgartner JV, Powell J, Braun DP (1996) A method for assessing hydrologic alteration within ecosystems. Conserv Biol 10(4):1163–1174
Ruggerone GT, Weitkamp DE (2004) WRIA 9 Chinook salmon research framework: identifying key research questions about Chinook salmon life histories and habitat use in the Middle and Lower Green River, Duwasmish waterway, and marine nearshore areas. Prepared for WRIA 9 Steering Committee and WRIA 9 Steering Committee
Sato M (1997) The price of taming a river: the decline of Puget Sound’s Duwamish/Green waterway. The Mountaineers, Seattle
Satterstrom FN (1982) An analysis of shoreline policy along the Green River in King County, Washington. Master thesis, University of Washington
Scawthorn C, Flores P, Blais N, Seligson H, Tate E, Chang S, Mifflin E, Thomas W, Murphy J, Jones C, Lawrence M (2006) HAZUS-MH flood loss estimation methodology II: damage and loss assessment. Nat Hazards Rev 7(2):72–81
Schumm SA (2005) River variability and complexity. Cambridge University Press, Cambridge
Siegrist M, Gutscher H (2008) Natural hazards and motivation for mitigation behavior: people cannot predict the affect evoked by a severe flood. Risk Anal 28(3):771–778
Simon A (1989) A model of channel response in disturbed alluvial channels. Earth Surf Process Landf 14:11–26
Smith K, Ward R (1998) Floods: physical processes and human impacts. Wiley, New York
Smits AJM, Nienhuis PH, Saeijs HLF (2006) Changing estuaries, changing views. Hydrobiologia 565:339–355
Sommer TR, Harrell WC, Solger AM, Tom B, Kimmerer W (2004) Effects of flow variation on channel and floodplain biota and habitats of the Sacramento River, California, USA. Aquat Conserv: Mar Freshw Ecosyst 14:247–261
Swenson RO, Whitener K, Eaton M (2003) Restoring floods on floodplains: riparian and floodplain restoration at the Cosumnes River Preserve. In: Faber PM (ed) California riparian systems: processes and floodplains management, ecology, and restoration. Proceedings of the 2001 riparian habitat and floodplains conference. Riparian Habitat Joint Venture, Sacramento, pp 224–229
Tetra Tech (2010) Green River external advisory review panel report. Prepared for King County Department of Natural Resources and Parks, Water and Land Resources Division, River and Floodplain Management Section
Thomson G, Clark D, McCracken H (eds) (2005) Salmon habitat plan: making our watershed fir for a king. Prepared for Green/Duwasmish and Central Puget Sound Watershed Water Resource Inventory Area 9 (WRIA 9) forum
Tobin GA (1995) The levee love affair: a stormy relationship? Water Resour Bull 31(3):359–367
Tockner K, Bunn SE, Gordon C, Naiman RJ, Quinn GP, Standford JA (2008) Flood plains: critically threatened ecosystems. In: Polunin NVC (ed) Aquatic ecosystems. Cambridge University Press, Cambridge, pp 45–61
Vis M, Klijn F, de Bruijn KM, van Buuren M (2003) Resilience strategies for flood risk management in the Netherlands. Int J River Basin Manag 1(1):33–40
Vitousek PM, Aber JD, Howarth RW, Likens GE, Matson PA, Schindler DW, Schlesinger WH, Tilman GD (1997) Human alteration of the global nitrogen cycle: causes and consequences. Ecol Appl 7(3):737–750
Walker B, Holling CS, Carpenter SR, Kinzig A (2004) Resilience, adaptability and transformability in social-ecological systems. Ecol Soc 9(2):5
Ward JV, Standford JA (1995) Ecological connectivity in alluvial rivers ecosystems and its disruption by flow regulation. Regul Rivers Res Manag 11:105–119
Welcomme R (2008) World prospects for floodplain fisheries. Ecohydrol Hydroecol 8(2–4):169–182
White GF (1945) Human adjustment to floods: a geographical approach to the flood problem in the United States. University of Chicago, Chicago
Williams P (1998) Inviting trouble downstream. Civ Eng 68(2):50–53
WIRA (Watershed Resource Inventory Area) 9 Implementation Technical Committee (2012) WRIA 9 status and trends monitoring report: 2005–2010. Prepared for the Watershed Resource Inventory Area 9 Watershed Ecosystem Forum, Seattle, WA
Wohl EE (ed) (2000a) Inland flood hazards: human, riparian, and aquatic communities. Cambridge University Press, Cambridge
Wohl EE (2000b) Inland flood hazards. In: Wohl EE (ed) Inland flood hazards: human, riparian, and aquatic communities. Cambridge University Press, Cambridge, pp 3–36
Wohl EE (2000c) Geomorphic effects of floods. In: Wohl EE (ed) Inland flood hazards: human, riparian, and aquatic communities. Cambridge University Press, Cambridge, pp 167–187
Zevenbergen C, Gersonius B (2007) Challenges in urban flood management. In: Ashley R, Garvin S, Pasche E, Vassilopoulos A, Zevenbergen C (eds) Advances in urban flood management. Taylor & Francis, New York, p 1
Zevenbergen C, Cashman A, Evelpidou N, Pasche E, Garvin S, Ashley R (2011) Urban flood management. CRC Press, London
Acknowledgments
I am indebted to several members from the Department of Natural Resources and Parks of King County, Washington: Dennis Clark, Josh Latterell, and Doug Osterman were immensely supportive and generous in sharing their wealth of knowledge about the Green/Duwamish River basin; Andy Levesque and Sarah McCarthy provided insights into current management issues of the basin; Kyle Comanor, Ken Zweig, and Laurel Preston provided associated GIS and other data. I am also thankful to Kelley S. Stone from FEMA Region X for her insights into the flood management practices in the region, as well as Paul Schlenger and John Small from Anchor QEA, LLC, for sharing the habitat survey data. This paper tremendously benefited from the discussion with several faculty members from the University of Washington: Marina Alberti, Robert Mugerauer, Robert J. Naiman, Robert Freitag, Brain Collins, and Charles A. Simenstad, as well as Christopher P. Konrad of USGS and Dan Siemann of the National Wildlife Federation. Finally, I thank Marina Alberti, Robert Mugerauer, Robert J. Naiman, Christopher P. Konrad, and Dennis Clark again for their valuable comments that helped to improve this paper. I also thank two anonymous reviewers for their constructive comments.
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Liao, KH. From flood control to flood adaptation: a case study on the Lower Green River Valley and the City of Kent in King County, Washington. Nat Hazards 71, 723–750 (2014). https://doi.org/10.1007/s11069-013-0923-4
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DOI: https://doi.org/10.1007/s11069-013-0923-4