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Global climate changes recorded in coastal wetland sediments: Empirical observations linked to theoretical predictions

July 30, 2010

Whether coastal areas are experiencing, and responding to, an accelerated rate of global sea-level rise (GSLR) is critically important for the ∼2 billion people living near Earth's oceans. Accretion rates from a suite of physiographically diverse coastal wetlands surrounding Long Island, NY accelerated during the 20th century at 2.3 ± 0.2 × 10−2 mm yr−2, which is comparable to reported rates of GSLR acceleration and global temperature changes. Wetlands varied in tidal range, salinity and geomorphic setting, and were located in embayments with limited human impacts in a region with limited and constant rates of subsidence. From geochronologies with temporal resolutions of 2–5 yr, we constructed new composite histories of sediment accretion and mineral deposition. Wetland dynamics are consistent with predictions from sedimentology and a numerical model of ecogeomorphic response, suggesting that these systems, and likely others worldwide, are responding to accelerated GSLR and related climatic changes.

Publication Year 2010
Title Global climate changes recorded in coastal wetland sediments: Empirical observations linked to theoretical predictions
DOI 10.1029/2010GL043874
Authors Alexander S. Kolker, Matthew L. Kirwan, Steven L. Goodbred, J. Kirk Cochran
Publication Type Article
Publication Subtype Journal Article
Series Title Geophysical Research Letters
Index ID 70230189
Record Source USGS Publications Warehouse
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