Affiliation:
1. Department of Civil and Environmental Engineering Louisiana State University Baton Rouge LA USA
2. Coastal & Hydraulics Laboratory U.S. Army Engineering Research and Development Center Vicksburg MS USA
3. Distinguished Professor Emeritus Baruch Institute of Marine Science University of South Carolina Columbia SC USA
Abstract
AbstractThe evolution of coastal wetlands is a complex process which is difficult to forecast, made more complicated by the addition of changing climatic conditions. Here, long term ecological and geomorphological data are coupled to geotechnical measurements at a coastal wetland in North Inlet estuary, South Carolina. The coupled methodology is presented and discussed in context of understanding coastal wetland system evolution in a changing climate. Specifically, the root shear strength of Spartina alterniflora across a range of elevations was investigated using a cone penetrometer test. Elevation, shear strength, and biomass are shown to be critically interconnected. Root strength was shown to decrease with increased inundation time and decreased elevation (i.e., mudflats). Conversely, the data set illustrates the importance of maintaining key elevation ranges in relation to sea‐level to optimize wetland resilience.
Funder
Engineer Research and Development Center
Publisher
American Geophysical Union (AGU)