Oceanside Beaches and Dunes - Coastal System Change at Fire Island, New York
Oceanfront research at Fire Island, New York, is primarily focused on understanding the long- and short-term behavior of the ocean-facing terrestrial barrier island system, including human influences. The USGS has had ongoing research activities on Fire Island since the late 1990s, providing science to help inform management decisions. Recent efforts include monitoring the response to and recovery from Hurricane Sandy, including the opening and evolution of Wilderness Breach.
Research
Research on the various componenets of the Fire Island system is being conducted at multiple USGS Centers and across projects.
For more than 15 years, the USGS has actively studied natural and human changes to the shoreline, beaches, and dunes at Fire Island. This research program has refined our understanding of the long (decades to centuries)- and short-term (storm events, seasons, years) geomorphological changes on the barrier island that influence natural, cultural, and recreational resources within Fire Island National Seashore, state and county parks, and communities along the island. Furthermore, these efforts have guided impact and recovery assessments that were undertaken in response to Hurricane Sandy in 2012. In addition to helping us understand how the island has evolved in the recent past, these observations serve as critical input to numerical and statistical models that predict future island behavior and guide coastal management and decision-making.
Long-Term Change
Long-term coastal change can occur over historical (10s to 100 years) and geological time scales (100s-1000s years). At Fire Island, the historical record of the position of the island goes back to the 1800s. Changes since then are quantified using historical maps, aerial photos, and modern coastal mapping techniques.
Storm Impacts
Storms are important drivers of coastal change; although they create hazards for coastal communities and infrastructure, they are also critical for moving sand landward from the oceanside of a barrier island to increase island elevation or width and build resiliency.
Beach Recovery
Since Hurricane Sandy, we have developed techniques to monitor short-term changes to the upper beach where both storm impacts and subsequent beach recovery are easily observed and measured.
Breach Evolution
Following the opening of a breach in the Otis Pike Fire Island High Dune Wilderness during Hurricane Sandy, we have actively monitored the breach through repeat bathymetric and topographic surveys. These surveys are being used to develop a numerical model and evaluate processes driving the morphological change of the breach.
Below are other science projects associated with this project.
Coastal System Change at Fire Island, New York
Below are publications associated with this project.
Quantifying anthropogenically driven morphologic changes on a barrier island: Fire Island National Seashore, New York
Inner shelf morphologic controls on the dynamics of the beach and bar system, Fire Island, New York
Geologic framework influences on the geomorphology of an anthropogenically modified barrier island: Assessment of dune/beach changes at Fire Island, New York
A review of sediment budget imbalances along Fire Island, New York: Can nearshore geologic framework and patterns of shoreline change explain the deficit?
Influence of inner-continental shelf geologic framework on the evolution and behavior of the barrier-island system between Fire Island Inlet and Shinnecock Inlet, Long Island, New York
Oceanfront research at Fire Island, New York, is primarily focused on understanding the long- and short-term behavior of the ocean-facing terrestrial barrier island system, including human influences. The USGS has had ongoing research activities on Fire Island since the late 1990s, providing science to help inform management decisions. Recent efforts include monitoring the response to and recovery from Hurricane Sandy, including the opening and evolution of Wilderness Breach.
Research
Research on the various componenets of the Fire Island system is being conducted at multiple USGS Centers and across projects.
For more than 15 years, the USGS has actively studied natural and human changes to the shoreline, beaches, and dunes at Fire Island. This research program has refined our understanding of the long (decades to centuries)- and short-term (storm events, seasons, years) geomorphological changes on the barrier island that influence natural, cultural, and recreational resources within Fire Island National Seashore, state and county parks, and communities along the island. Furthermore, these efforts have guided impact and recovery assessments that were undertaken in response to Hurricane Sandy in 2012. In addition to helping us understand how the island has evolved in the recent past, these observations serve as critical input to numerical and statistical models that predict future island behavior and guide coastal management and decision-making.
Long-Term Change
Long-term coastal change can occur over historical (10s to 100 years) and geological time scales (100s-1000s years). At Fire Island, the historical record of the position of the island goes back to the 1800s. Changes since then are quantified using historical maps, aerial photos, and modern coastal mapping techniques.
Storm Impacts
Storms are important drivers of coastal change; although they create hazards for coastal communities and infrastructure, they are also critical for moving sand landward from the oceanside of a barrier island to increase island elevation or width and build resiliency.
Beach Recovery
Since Hurricane Sandy, we have developed techniques to monitor short-term changes to the upper beach where both storm impacts and subsequent beach recovery are easily observed and measured.
Breach Evolution
Following the opening of a breach in the Otis Pike Fire Island High Dune Wilderness during Hurricane Sandy, we have actively monitored the breach through repeat bathymetric and topographic surveys. These surveys are being used to develop a numerical model and evaluate processes driving the morphological change of the breach.
Below are other science projects associated with this project.
Coastal System Change at Fire Island, New York
Below are publications associated with this project.