Development and Application of a Method to Identify Salt Marsh Vulnerability to Sea Level Rise |
| |
| Authors: | Marci L Cole Ekberg Kenneth B Raposa Wenley S Ferguson Kevin Ruddock Elizabeth Burke Watson |
| |
| Institution: | 1.Save The Bay,Providence,USA;2.Biological Science Department,Diablo Valley College,Pleasant Hill,USA;3.Narragansett Bay National Estuarine Research Reserve,Prudence Island,USA;4.The Nature Conservancy, Rhode Island Chapter,Providence,USA;5.Atlantic Ecology Division, ORD-NHEERL,US Environmental Protection Agency,Narragansett,USA;6.Department of Biodiversity, Earth & Environmental Sciences and The Academy of Natural Sciences,Drexel University,Philadelphia,USA |
| |
| Abstract: | Wetlands are commonly assessed for ecological condition and biological integrity using a three-tiered framework of landscape-scale assessment, rapid assessment protocols, and intensive biological and physiochemical measurements. However, increased inundation resulting from accelerated sea level rise (SLR) is negatively impacting tidal marsh ecosystem functions for US Northeast coastal wetlands, yet relative vulnerability to this stressor is not incorporated in condition assessments. This article assesses tools available to measure coastal wetland vulnerability to SLR, including measurements made as part of traditional rapid condition assessments (e.g., vegetation communities, soil strength), field and remote sensing-based measurements of elevation, VDatum, and Sea Level Affecting Marshes Model (SLAMM) model outputs. A vulnerability metric that incorporates these tools was calibrated and validated using recent rates of marsh vegetation losses (1972–2011) as a surrogate for future vulnerability. The metric includes complementary measures of elevation capital, including the percentage of high vs. low marsh vegetation, Spartina alterniflora height, elevation measurements, and SLAMM outputs that collectively explained 62% of the variability in recent rates of marsh vegetation loss. Stepwise regression revealed that all three elements (elevation, vegetation measures, and SLAMM outputs) explained significant and largely unique components of vulnerability to SLR, with the greatest level of overlap found between SLAMM outputs and elevation metrics. While soil strength varied predictably with habitat zone, it did not contribute significantly to the vulnerability metric. Despite the importance of determining wetland elevation above key tidal datums of mean sea level and mean high water, we caution that VDatum was found to perform poorly in back-barrier estuaries. This factor makes it difficult to compare elevation capital among marshes that differ in tidal range and poses accuracy problems for broad-scale modeling efforts that require accurate tidal datums. Given the pervasive pattern of coastal wetland drowning occurring in the Northeastern USA and elsewhere, we advocate that compilation of regional data on marsh habitats and vulnerability to SLR is crucial as it permits agencies to target adaptation to sites based on their vulnerability or mixture of habitats, it helps match sites to appropriate interventions, and it provides a broader regional context to site-specific management actions. Without such data, adaptation actions may be implemented where action is not necessary and to the disadvantage of vulnerable sites where opportunities for successful adaptation will be missed. |
| |
| Keywords: | |
| 本文献已被 SpringerLink 等数据库收录! |
|
