Linking Water Infrastructure, Public Health, and Sea Level Rise: Integrated Assessment of Flood Resilience in Coastal Cities

Allen, Thomas R.; Crawford, Thomas W.; Montz, Burrell E.; Whitehead, Jessica; Lovelace, Susan; Hanks, Armon D.; Christensen, Ariel R.; Kearney, Gregory D.

doi:10.1177/1087724x18798380

Cited by 56 publications

(46 citation statements)

References 43 publications

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“…Part 4 assessed what resources were available and at when they might be useful. Participants completed the resilience matrix [39,44] by filling in cells with resources needed for the combined SLR influenced hazards identified in Part 1 of the survey.…”

Section: Coastal Adaptation Surveymentioning

confidence: 99%

“…Water infrastructure exacerbates the issue by over drawing ground water [32]. Climate sensitive coastal hazards include tidal flooding, storm surge, salt intrusion, and rainfall compounded by SLR [39]. Tidal areas, such as the Albemarle Sound and Chowan River have increasing algal blooms [40].…”

Section: Introductionmentioning

confidence: 99%

“…Geographic visualizations facilitate the integration of SLR projections into project planning. In a study of two coastal communities, Charleston, SC and Morehead, NC, Allen et al [39] determined that pairing maps of SLR influenced coastal flooding with the resilience matrix provides unique insights, a better introduction, and faster interaction than the specific judgements and consensus perceived to be required by participants to evaluate maps or a specific hazard scenario exclusively. This is especially pertinent to TEK holders, who are unlikely to make judgements outside their knowledge base [30].…”

Section: Introductionmentioning

confidence: 99%

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The Role of Traditional Knowledge in Coastal Adaptation Priorities: The Pamunkey Indian Reservation

Hutton

Allen

2020

Water

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Coastal reservations are increasingly vulnerable to hazards exacerbated by climate change. Resources for restoration projects are limited. Storm surge, storms, tidal flooding, and erosion endanger artifacts and limit livelihoods of tribes in coastal Virginia. GIS offers a platform to increase communication between scientists, planners, and indigenous groups. The Pamunkey Indian Tribe engaged in a participatory mapping exercise to assess the role of traditional ecological knowledge (TEK) in coastal management decision-making and its capacity to address flooding. Priorities and strategies were spatially referenced using maps of potential sea level rise for 2040, 2060, and 2080, input into a resilience matrix to identify benchmarks for each phase of disaster resilience building, and contextualized with oral histories. Results highlight increased immediacy to protect housing and heritage sites along the shoreline as well as maintain access to the Reservation. Preferences toward structural solutions guided by and facilitating TEK options were expressed. Additional community capacities, tribal council support, federal assistance, impact assessments, and coordination would facilitate risk reduction project implementation. The screening process integrates TEK with planning and is transferable to neighboring tribes.

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Section: Coastal Adaptation Surveymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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The Role of Traditional Knowledge in Coastal Adaptation Priorities: The Pamunkey Indian Reservation

Hutton

Allen

2020

Water

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“…The results of this study are intended to provide coastal New England communities, stakeholders and government officials with information to help inform resiliency planning and wastewater-related regulations over the coming decades. Other regions of the East Coast, including Florida, South Carolina and North Carolina are facing increased frequency and severity of storm events, coupled with sea-level rise, threatening wastewater treatment (Allen et al 2018;Hummel et al 2018;Little et al 2015;Miami-Dade County Department of Regulatory & Economic Resources et al 2018). This phenomenon extends beyond the US East Coast (Hallegatte et al 2013;Neumann et al 2015;Woodruff et al 2013), and many other coastal communities across the globe can apply these modeling methods to assess the risks storms and flood events pose to their near-shore onsite wastewater treatment infrastructure.…”

Section: Introductionmentioning

confidence: 99%

Geospatial Modeling Suggests Threats from Stormy Seas to Rhode Island’s Coastal Septic Systems

Cox

Dowling²,

Loomis

et al. 2020

J. Sustainable Water Built Environ.

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The full-text may be used and/or reproduced, and given to third parties in any format or medium, without prior permission or charge, for personal research or study, educational, or not-for-prot purposes provided that:• a full bibliographic reference is made to the original source • a link is made to the metadata record in DRO • the full-text is not changed in any way The full-text must not be sold in any format or medium without the formal permission of the copyright holders.

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“…On the contrary, the assessment of flood resilience faces many challenges, including its definition, dimensions used (e.g., social, economic, or physical aspects), and methods of quantification [11,12]. Nevertheless, there is a growing number of research projects and studies aiming at quantifying flood resilience using integrated [13] or multi-criteria [14] approaches, assessing climate variability [15] or the impact of infrastructure [16,17] while considering socioeconomic aspects [18]. Governance strategies for improving flood resilience have also been studied [19].…”

Section: Introductionmentioning

confidence: 99%

A Conceptual Time-Varying Flood Resilience Index for Urban Areas: Munich City

Chen

Leandro

2019

Water

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In response to the increased frequency and severity of urban flooding events, flood management strategies are moving away from flood proofing towards flood resilience. The term ‘flood resilience’ has been applied with different definitions. In this paper, it is referred to as the capacity to withstand adverse effects following flooding events and the ability to quickly recover to the original system performance before the event. This paper introduces a novel time-varying Flood Resilience Index (FRI) to quantify the resilience level of households. The introduced FRI includes: a) Physical indicators from inundation modelling for considering the adverse effects during flooding events, and b) social and economic indicators for estimating the recovery capacity of the district in returning to the original performance level. The district of Maxvorstadt in Munich city is used for demonstrating the FRI. The time-varying FRI provides a novel insight into indicator-based quantification methods of flood resilience for households in urban areas. It enables a timeline visualization of how a system responds during and after a flooding event.

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Linking Water Infrastructure, Public Health, and Sea Level Rise: Integrated Assessment of Flood Resilience in Coastal Cities

Cited by 56 publications

References 43 publications

The Role of Traditional Knowledge in Coastal Adaptation Priorities: The Pamunkey Indian Reservation

The Role of Traditional Knowledge in Coastal Adaptation Priorities: The Pamunkey Indian Reservation

Geospatial Modeling Suggests Threats from Stormy Seas to Rhode Island’s Coastal Septic Systems

A Conceptual Time-Varying Flood Resilience Index for Urban Areas: Munich City

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