PP11E-08
Recent advances in the compilation of holocene relative Sea-level database in North America

Monday, 14 December 2015: 09:45
3014 (Moscone West)
Matteo Vacchi, CEREGE, Aix-en-Provence Cedex, France, Ben Horton, Rutgers University New Brunswick, Marine and Coastal Sciences, New Brunswick, NJ, United States, Simon E Engelhart, University of Rhode Island, Kingston, RI, United States and Daria Nikitina, West Chester University, West Chester, PA, United States
Abstract:
Reconstruction of relative sea level (RSL) has implications for investigation of crustal movements, calibration of earth rheology models and the reconstruction of ice sheets. In recent years, efforts were made to create RSL databases following a standardized methodology. These regional databases provided a framework for developing our understanding of the primary mechanisms of RSL change since the Last Glacial Maximum and a long-term baseline against which to gauge changes in sea-level during the 20th century and forecasts for the 21st.

Here we present two quality-controlled Holocene RSL database compiled for North America. Along the Pacific coast of North America (British Columbia, Canada to California, USA), our re-evaluation of sea-level indicators from geological and archaeological investigations yield 841 RSL data-points mainly from salt and freshwater wetlands or adjacent estuarine sediment as well as from isolation basin. Along the Atlantic coast of North America (Hudson Bay, Canada to South Carolina, USA), we are currently compiling a database including more than 2000 RSL data-points from isolation basin, salt and freshwater wetlands, beach ridges and intratidal deposits. We outline the difficulties and solutions we made to compile databases in such different depostional environment. We address complex tectonics and the framework to compare such large variability of RSL data-point. We discuss the implications of our results for the glacio-isostatic adjustment (GIA) models in the two studied regions.