Modeling the interaction of vegetation and sea level rise on barrier island evolution

Barrier islands provide a first line of defense against ocean flooding and storm surge. Biogeomorphic interactions are recognized as important in coastal system processes, but current barrier island models are primarily dominated by physical processes. Recent research has demonstrated different biog...

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Bibliographic Details
Published in:PLOS ONE
Main Authors: Robson, Gregory, Schoen, Eric, Chan, David M., Ogrosky, H. Reed, Shrestha, Kiran, Zinnert, Julie C.
Other Authors: Rahman, Md. Naimur, Jeffress Interdisciplinary
Format: Article in Journal/Newspaper
Language:English
Published: Public Library of Science (PLoS) 2024
Subjects:
Barrier Island
Barrier Islands
Smith Island
Online Access:http://dx.doi.org/10.1371/journal.pone.0302395
https://dx.plos.org/10.1371/journal.pone.0302395
Description
Summary:Barrier islands provide a first line of defense against ocean flooding and storm surge. Biogeomorphic interactions are recognized as important in coastal system processes, but current barrier island models are primarily dominated by physical processes. Recent research has demonstrated different biogeomorphic states that influence response to sea level rise and other disturbance. Building on this understanding, we present a cellular model utilizing biotic and abiotic processes and their interactions for barrier island evolution. Using the literature and field derived parameters, we model barrier island evolution and compare to three decades of change for Smith Island, a Virginia Coast Reserve barrier island. We conduct simulations that show the impact of biogeomorphic states on island migration under different sea level rise scenarios. We find that migration is highest in areas with low topography and light vegetation cover (i.e. disturbance reinforcing) compared to areas with greater topographic complexity and high cover of woody vegetation i.e. disturbance resisting). This study demonstrates the importance of biogeomorphic interactions for barrier island evolution with sea level rise and will aid future predictions for these important ecosystems with climate change.

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