2016
DOI: 10.1093/biosci/biw091
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Ecological Consequences of Shoreline Hardening: A Meta-Analysis

Abstract: Protecting coastal communities has become increasingly important as their populations grow, resulting in increased demand for engineered shore protection and hardening of over 50% of many urban shorelines. Shoreline hardening is recognized to reduce ecosystem services that coastal populations rely on, but the amount of hardened coastline continues to grow in many ecologically important coastal regions. Therefore, to inform future management decisions, we conducted a meta-analysis of studies comparing the ecosy… Show more

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Cited by 199 publications
(110 citation statements)
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“…Urban infrastructure impacts on natural ecosystems in a variety of ways, including habitat loss and fragmentation, as well as modification of ecological connectivity, ecosystem functioning and services, and the physico‐chemical environment (Bishop et al., ; Fischer & Lindenmayer, ; LaPoint, Balkenhol, Hale, Sadler, & Ree, ; McKinney, ). The net effect is urbanised ecosystems that are fundamentally different in structure and function to the natural habitat which they displace (Airoldi, Turon, Perkol‐Finkel, & Rius, ; Gittman, Scyphers, Smith, Neylan, & Grabowski, ; Heery et al., ). In some instances the need for urban infrastructure may be circumvented by adding or restoring natural habitats that enhance biodiversity and provide essential functions (Dethier, Toft, & Shipman, ; Sutton‐Grier, Wowk, & Bamford, ).…”
Section: Introductionmentioning
confidence: 99%
“…Urban infrastructure impacts on natural ecosystems in a variety of ways, including habitat loss and fragmentation, as well as modification of ecological connectivity, ecosystem functioning and services, and the physico‐chemical environment (Bishop et al., ; Fischer & Lindenmayer, ; LaPoint, Balkenhol, Hale, Sadler, & Ree, ; McKinney, ). The net effect is urbanised ecosystems that are fundamentally different in structure and function to the natural habitat which they displace (Airoldi, Turon, Perkol‐Finkel, & Rius, ; Gittman, Scyphers, Smith, Neylan, & Grabowski, ; Heery et al., ). In some instances the need for urban infrastructure may be circumvented by adding or restoring natural habitats that enhance biodiversity and provide essential functions (Dethier, Toft, & Shipman, ; Sutton‐Grier, Wowk, & Bamford, ).…”
Section: Introductionmentioning
confidence: 99%
“…For instance, NNBI approaches often do not conform to current permit and zoning regulations. USACE permitting of bulkheads and living shorelines is just one example of where U.S. federal and state regulations have historically inhibited and even discouraged the use of NNBI in preference of traditional built infrastructure, despite the clear socio-ecological benefits of NNBI [9,14,20]. However, USACE has made progress towards addressing this challenge: in March 2017, it implemented Nationwide Permit 54 for living shorelines [52], which will hopefully facilitate the implementation of NNBI shoreline projects.…”
Section: Challenges To Implementing Nnbi Solutionsmentioning
confidence: 99%
“…Dams, levees, canals, and bridges constructed in and across U.S. rivers and waterways have created drinking water reservoirs, reduced flood risk for people and property, generated hydroelectric power, expanded transportation options, improved navigation, and helped grow the U.S. economy, but not without significant socio-ecological consequences [3,4]. In some cases, built infrastructure (e.g., dams, undersized culverts, seawalls, and water-diverting levees and canals) has resulted in significant declines in the abundance of aquatic organisms (e.g., economically valuable anadromous fish species) and the diversity of key habitats, such as the Florida Everglades [4][5][6][7][8][9]. Further, this infrastructure has resulted in flood-related human fatalities and property damage when it has failed [10,11].…”
Section: Introductionmentioning
confidence: 99%
“…Without wetland buffers, pulsed nutrients and sediment loads to coastal water bodies are likely to increase. Loss of wetlands also and eliminate an important larval to juvenile fish and shellfish habitat, further reducing fisheries production potential in these coastal ecosystems (Gittman et al 2016).…”
Section: Coastal Estuaries Bays and Lagoons -Open Water Systemsmentioning
confidence: 99%