Paper No. 37-21
Presentation Time: 8:00 AM-12:00 PM
IMPROVING SEA LEVEL MODELS FOR THE NEW YORK BIGHT WITH SUBMERGED PEATS
QUINTANA, Liliette, Academy of the Holy Angels, 315 Hillside Avenue, Demarest, NJ 07627; Academy of the Holy Angels, 315 Hillside Avenue, Demarest, NJ 07627, CHANG, Clara, Earth and Environmental Sciences, Lamont-Doherty Earth Observatory of Columbia University, 61 Route 9W, Palisades, NY 10964 and KINNEY, Sean T., Department of Earth and Environmental Sciences, Lamont-Doherty Earth Observatory of Columbia University, 61 Route 9W, Palisades, NY 10964-1000
Since the early 1900s, scallop fisherman trawling along the shores of Long Island have noted peat deposits under the Atlantic Ocean (1). These deposits are records of submerged land and contain tree trunks and mammoth teeth (2). Previous work (3) has shown that the submerged peat can be up to 12,000 years old. Though these deposits provide a valuable record of past environmental changes and help create models of how and at what rates local sea level has changed, there has not been extensive research on these deposits since the 1970s. Understanding sea level change in the Northeast is especially important due to its high population affected by future sea level rise. New sediment cores conducted by the Bureau of Ocean and Energy Management (BOEM) in this region reveal peat deposits buried under 2-3m of sand and clay 15km off shore Long Island in the Atlantic Ocean (3) and provide the opportunity to investigate a unique pattern of environmental change. We use a variety of techniques to characterize these changes and look for evidence of past storms and sea level change, including: sedimentological analysis and radiocarbon dating.
Our results provide evidence for an event such as a storm or tsunami that drastically transformed the land from terrestrial to marine approximately 5,000-7,000 kyr ago. We are continuing to work on understanding the event caused this change, its rate, and nature of the terrestrial environment. The peat reflects a terrestrial environment and the cores are currently at 24.2m water depth, therefore sea level has risen at least that amount since they formed. This information is crucial for constraining and understanding all the variables that impact sea level change. Since the last glacial maximum (~20,000 ka), when the Laurentide Ice Sheet melted, the land in Canada has been uplifting while the coastal US is sinking. This process, known as glacial isostatic adjustment (GIA) has major implications for forecasting future sea level change in the Northeastern US; however, it is not currently well constrained (4). Our results from the BOEM cores provide important new constraints for North American and Atlantic GIA estimates and will improve sea level and flood models for North America and Europe over the next several hundred years.
- Emery + (1967)
- Whitmore + (1967)
- BOEM, OCS Study Report 2012-008
- Rovere + (2016)
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