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Tidal Marshes across a Chesapeake Bay Subestuary Are Not Keeping up with Sea-Level Rise

Sea-level rise is a major factor in wetland loss worldwide, and in much of Chesapeake Bay (USA) the rate of sea-level rise is higher than the current global rate of 3.2 mm yr(-1) due to regional subsidence. Marshes along estuarine salinity gradients differ in vegetation composition, productivity, de...

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Autores principales: Beckett, Leah H., Baldwin, Andrew H., Kearney, Michael S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2016
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4965100/
https://www.ncbi.nlm.nih.gov/pubmed/27467784
http://dx.doi.org/10.1371/journal.pone.0159753
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author Beckett, Leah H.
Baldwin, Andrew H.
Kearney, Michael S.
author_facet Beckett, Leah H.
Baldwin, Andrew H.
Kearney, Michael S.
author_sort Beckett, Leah H.
collection PubMed
description Sea-level rise is a major factor in wetland loss worldwide, and in much of Chesapeake Bay (USA) the rate of sea-level rise is higher than the current global rate of 3.2 mm yr(-1) due to regional subsidence. Marshes along estuarine salinity gradients differ in vegetation composition, productivity, decomposition pathways, and sediment dynamics, and may exhibit different responses to sea-level rise. Coastal marshes persist by building vertically at rates at or exceeding regional sea-level rise. In one of the first studies to examine elevation dynamics across an estuarine salinity gradient, we installed 15 surface elevation tables (SET) and accretion marker-horizon plots (MH) in tidal freshwater, oligohaline, and brackish marshes across a Chesapeake Bay subestuary. Over the course of four years, wetlands across the subestuary decreased 1.8 ± 2.7 mm yr(-1) in elevation on average, at least 5 mm yr(-1) below that needed to keep pace with global sea-level rise. Elevation change rates did not significantly differ among the marshes studied, and ranged from -9.8 ± 6.9 to 4.5 ± 4.3 mm yr(-1). Surface accretion of deposited mineral and organic matter was uniformly high across the estuary (~9–15 mm yr(-1)), indicating that elevation loss was not due to lack of accretionary input. Position in the estuary and associated salinity regime were not related to elevation change or surface matter accretion. Previous studies have focused on surface elevation change in marshes of uniform salinity (e.g., salt marshes); however, our findings highlight the need for elevation studies in marshes of all salinity regimes and different geomorphic positions, and warn that brackish, oligohaline, and freshwater tidal wetlands may be at similarly high risk of submergence in some estuaries.
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spelling pubmed-49651002016-08-18 Tidal Marshes across a Chesapeake Bay Subestuary Are Not Keeping up with Sea-Level Rise Beckett, Leah H. Baldwin, Andrew H. Kearney, Michael S. PLoS One Research Article Sea-level rise is a major factor in wetland loss worldwide, and in much of Chesapeake Bay (USA) the rate of sea-level rise is higher than the current global rate of 3.2 mm yr(-1) due to regional subsidence. Marshes along estuarine salinity gradients differ in vegetation composition, productivity, decomposition pathways, and sediment dynamics, and may exhibit different responses to sea-level rise. Coastal marshes persist by building vertically at rates at or exceeding regional sea-level rise. In one of the first studies to examine elevation dynamics across an estuarine salinity gradient, we installed 15 surface elevation tables (SET) and accretion marker-horizon plots (MH) in tidal freshwater, oligohaline, and brackish marshes across a Chesapeake Bay subestuary. Over the course of four years, wetlands across the subestuary decreased 1.8 ± 2.7 mm yr(-1) in elevation on average, at least 5 mm yr(-1) below that needed to keep pace with global sea-level rise. Elevation change rates did not significantly differ among the marshes studied, and ranged from -9.8 ± 6.9 to 4.5 ± 4.3 mm yr(-1). Surface accretion of deposited mineral and organic matter was uniformly high across the estuary (~9–15 mm yr(-1)), indicating that elevation loss was not due to lack of accretionary input. Position in the estuary and associated salinity regime were not related to elevation change or surface matter accretion. Previous studies have focused on surface elevation change in marshes of uniform salinity (e.g., salt marshes); however, our findings highlight the need for elevation studies in marshes of all salinity regimes and different geomorphic positions, and warn that brackish, oligohaline, and freshwater tidal wetlands may be at similarly high risk of submergence in some estuaries. Public Library of Science 2016-07-28 /pmc/articles/PMC4965100/ /pubmed/27467784 http://dx.doi.org/10.1371/journal.pone.0159753 Text en © 2016 Beckett et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Beckett, Leah H.
Baldwin, Andrew H.
Kearney, Michael S.
Tidal Marshes across a Chesapeake Bay Subestuary Are Not Keeping up with Sea-Level Rise
title Tidal Marshes across a Chesapeake Bay Subestuary Are Not Keeping up with Sea-Level Rise
title_full Tidal Marshes across a Chesapeake Bay Subestuary Are Not Keeping up with Sea-Level Rise
title_fullStr Tidal Marshes across a Chesapeake Bay Subestuary Are Not Keeping up with Sea-Level Rise
title_full_unstemmed Tidal Marshes across a Chesapeake Bay Subestuary Are Not Keeping up with Sea-Level Rise
title_short Tidal Marshes across a Chesapeake Bay Subestuary Are Not Keeping up with Sea-Level Rise
title_sort tidal marshes across a chesapeake bay subestuary are not keeping up with sea-level rise
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4965100/
https://www.ncbi.nlm.nih.gov/pubmed/27467784
http://dx.doi.org/10.1371/journal.pone.0159753
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