Evaluating the role of coastal habitats and sea‐level rise in hurricane risk mitigation: An ecological economic assessment method and application to a business decision

Autor:	Sheila M.W. Reddy, Gregory M. Verutes, Joe Faries, Johnathan L. DiMuro, Michael Thompson, Robert J. Griffin, Gregory Guannel, Jorge Brenner, Jodie E. Toft, Jessica A Silver, Jennifer L. Molnar, Anne D. Guerry, Spencer A. Wood, Anthony Rogers, Joey R. Bernhardt, Timothy M. Boucher, Alexander Maas
Rok vydání:	2015
Předmět:	Risk Conservation of Natural Resources Engineering Marsh 010504 meteorology & atmospheric sciences Cost-Benefit Analysis Geography Planning and Development Poison control Context (language use) 010501 environmental sciences 01 natural sciences Ecosystem services Natural hazard Ecosystem 0105 earth and related environmental sciences General Environmental Science geography geography.geographical_feature_category Flood myth Cyclonic Storms business.industry Ecology Environmental resource management Storm General Medicine Models Theoretical Wetlands business Green infrastructure
Zdroj:	Integrated Environmental Assessment and Management. 12:328-344
ISSN:	1551-3793 1551-3777
Popis:	Businesses may be missing opportunities to account for ecosystem services in their decisions, because they do not have methods to quantify and value ecosystem services. We developed a method to quantify and value coastal protection and other ecosystem services in the context of a cost-benefit analysis of hurricane risk mitigation options for a business. We first analyze linked biophysical and economic models to examine the potential protection provided by marshes. We then applied this method to The Dow Chemical Company's Freeport, Texas facility to evaluate natural (marshes), built (levee), and hybrid (marshes and a levee designed for marshes) defenses against a 100-y hurricane. Model analysis shows that future sea-level rise decreases marsh area, increases flood heights, and increases the required levee height (12%) and cost (8%). In this context, marshes do not provide sufficient protection to the facility, located 12 km inland, to warrant a change in levee design for a 100-y hurricane. Marshes do provide some protection near shore and under smaller storm conditions, which may help maintain the coastline and levee performance in the face of sea-level rise. In sum, the net present value to the business of built defenses ($217 million [2010 US$]) is greater than natural defenses ($15 million [2010 US$]) and similar to the hybrid defense scenario ($229 million [2010 US$]). Examination of a sample of public benefits from the marshes shows they provide at least $117 million (2010 US$) in coastal protection, recreational value, and C sequestration to the public, while supporting 12 fisheries and more than 300 wildlife species. This study provides information on where natural defenses may be effective and a replicable approach that businesses can use to incorporate private, as well as public, ecosystem service values into hurricane risk management at other sites.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::eb53106ace6ce55585a84b676f503720 https://doi.org/10.1002/ieam.1678 Zobrazit plný text záznamu Plný text