Skip to main content
U.S. flag

An official website of the United States government

Hurricane Sandy, one of the most destructive hurricanes in U.S. history, significantly affected the mid Atlantic coast in 2012. In New Jersey, where Sandy made landfall, much of the coast consists of barrier islands - narrow stretches of sand deposited parallel to the mainland coast – that were deeply eroded, overwashed and in places breached by the storm.

Barrier islands and the estuaries behind them house inherently valuable ecosystems, such as the beaches, marshes and waters of the Edwin B. Forsythe National Wildlife Refuge. These dynamic, ever-changing landforms protect coastlines and communities fromstorms, create habitats that are essential for wildlife, and support infrastructure and various recreational and commercial activities.  The ability of barrier island systems to recover and maintain itself in response to hurricanes like Sandy, in addition to persistent coastal change due to sea-level rise, is largely dependent on the availability of sand and the processes that govern the movement of sand along the beach and in/out of tidal inlets.

RV Petrel towing subbottom profiler (yellow raft) parallel to the beach to measure the thickness of sand offshore.
RV Petrel  towing subbottom profiler (yellow raft) parallel to the beach to measure the thickness of sand offshore. (Public domain.)
Beach at the southern end of Long Beach Island in the town of Holgate, NJ.
Beach at the southern end of Long Beach Island in the town of Holgate, NJ.  Note the large eroded scarp on beach with person as scale. (Public domain.)

USGS scientists are studying the evolution and behavior of the New Jersey barrier island system so they can provide managers with the data and tools necessary to reduce vulnerability and ensure that human activities and development do not interfere with the natural resiliency of the barrier island system and thus, the numerous benefits the islands provide.

In 2018, Alex Nichols, Chuck Worley, Seth Ackerman, and Walter Barnhardt of the USGS Woods Hole Coastal and Marine Science Center, along with a constant flow of visitors and help from Stockton University and various local agencies, conducted high resolution geophysical mapping of the inner continental shelf along the town of Beach Haven and in areas next to the Holgate and Little Beach Island portions of the Forsythe National Wildlife Refuge on Long Beach Island, New Jersey.

A renourished dune with protective vegetation planted on the barrier island in Beach Haven, NJ
A renourished dune with protective vegetation planted on the barrier island in Beach Haven, NJ (Public domain.)
R/V Petrel leaving the dock in Beach Haven, NJ to begin the geophysical survey in May 2018.
R/V Petrel leaving the dock in Beach Haven, NJ to begin the geophysical survey in May 2018. (Public domain.)

Working off Stockton University’s research vessel (R/V Petrel), from May 8-15, 2018, the team used a multibeam-sonar system to collect data on bathymetry (sea floor depth) and backscatter across an area of 200 sq km (125 sq miles) of submerged State lands.  These data, combined with sediment samples and bottom photos,  can be used to determine the type of materials (i.e., gravel, sand, mud) that make up the seafloor.  A subbottom (seismic-reflection) system was also deployed  to reveal the underlying geologic structure and stratigraphy, or sediment layers, below the sea floor, and was run concurrently with the multibeam sonar throughout most of the survey.  All of these geophysical systems use acoustic (sound) data, measuring the travel time and intensity of sound reflected by the sea floor and the sediment layers beneath it. The survey team collected approximately 740 linear kilometers of bathymetry and backscatter data, and 700 linear kilometers of subbottom data.

From October 22-23, 2018, Wayne Baldwin and Seth Ackerman, joined by students and researchers from Stockton University, collected geological sampling data using the USGS’s mini SEABed Observation and Sampling System (miniSEABOSS) while again aboard the R/V Petrel. The miniSEABOSS is a specially designed shallow-water sampling device used to collect photos, videos, and sediment grab samples all at the same time within a stainless-steel frame that can be deployed off various research vessels. During the two-day survey, the team collected samples and photographs at 70 sites within the survey area. 

Wayne Baldwin (USGS, far right) with students and staff from Stockton University
Wayne Baldwin (USGS, far right) with students and staff from Stockton University getting ready to deploy the miniSEABOSS off the R/V Petrel during the geological sampling survey in October 2018. (Public domain.)

All these data will help the research team characterize the geologic framework of the region and identify the processes controlling the evolution of the coastal system. Ultimately this will inform coastal management and decision making for improving the resilience of coastal habitat and infrastructure. Mapping will support assessments of the formation, quantity, and potential consequences of using offshore sand for beach and dune restoration projects, as well as potential storm impacts that affect barrier island and inlet stability.

 Displays showing the multibeam-sonar data acquisition and the navigation system
Displays showing themultibeam-sonar data acquisition and the navigation system aboard the R/V Petrel during the geophysical survey in May 2018.(Public domain.)
Chuck Worley (USGS) monitoring the real-time sonar data aboard the R/V Petrel during the geophysical survey in May 2018.
Chuck Worley (USGS) monitoring the real-time sonar data aboard the R/V Petrel during the geophysical survey in May 2018. (Public domain.)

The data release was published in April 2021 and can be downloaded via https://www.sciencebase.gov/catalog/item/5ea2f05c82cefae35a192715.

Ackerman, S.D., Barnhardt, W.A., Worley, C.R., Nichols, A.R., Baldwin, W.E., and Evert, S., 2021, High-resolution geophysical and geological data collected in Little Egg Inlet and offshore the southern end of Long Beach Island, NJ, during USGS Field Activities 2018-001-FA and 2018-049-FA: U.S. Geological Survey data release, https://doi.org/10.5066/P9C3J33K.

Captain Steve Evert (Stockton University) at the helm of the R/V Petrel
Captain Steve Evert (Stockton University) at the helm of the R/V Petrel during the geophysical survey in May 2018.  Captain Evert is also director of the Stockton University Marine Field Station and mentor to several students who joined the team for various parts of the geophysical and sampling surveys. (Public domain.)
Subbottom profiler system towed on pontoons behind the R/V Petrel during the geophysical survey in May 2018
Subbottom profiler system towed on pontoons behind the R/V Petrel during the geophysical survey in May 2018. (Public domain.)

Get Our News

These items are in the RSS feed format (Really Simple Syndication) based on categories such as topics, locations, and more. You can install and RSS reader browser extension, software, or use a third-party service to receive immediate news updates depending on the feed that you have added. If you click the feed links below, they may look strange because they are simply XML code. An RSS reader can easily read this code and push out a notification to you when something new is posted to our site.

Was this page helpful?