This project examined the flood mitigation plans of the seven counties in the Raritan River watershed to better understand local government flood mitigation planning in the region. The study examines how county agencies analyze flood risks and mitigation strategies at the watershed level, the challenges that hazard mitigation planners face when thinking and acting at […]
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Blue Carbon in the Tidal Marshes of the Raritan
Tidal marshes provide a range of ecosystem services, including carbon sequestration. Although New Jersey’s tidal marshes appear to have kept pace with historical sea level rise in the pre-industrial period (Kemp et al., 2013), accelerating rates of sea level rise (Sweet et al., 2017) coupled with land-use changes (Lathrop et al., 2014) and sediment starvation […]
Generating an Elevation Grid for the Raritan River Basin
The objective of this project was to develop an elevation/bathymetry grid for the Raritan River Basin as a precursor for a hydrodynamic model. In addition, by identifying data gaps the project provides guidance on future side-scan sonar surveys of the river. Finally, the project assessed options for processing of side-scan sonar data and makes recommendations […]
Assessing Exposure of Water-Dependent Uses to Coastal Flood Hazards
Water-dependent uses along the New Jersey coast rely on access to the water that increasingly threatens to damage their facilities and support infrastructure in the surrounding community. Mal-adaptive planning strategies to enhance resilience could fail to recognize the interrelated systems of benefits and risks that face water-dependent uses, including the spatial constraints that limit the […]
Bloustein, Campo, Flood, mini-grant, resilienceMini-grant enhances weather and climate data collection in the Raritan
Be it drought, flood, excessive heat or cold, climate variability and change, or simply the more “normal” day-to-day conditions in the basin, it is exceedingly beneficial to have adequate and accurate environmental data at hand to assist the research community, decision/policy makers within diverse stakeholder communities and the general public. Rutgers Raritan River Consortium (R3C) […]
climate, minigrant, Robinson, weather station CoCoRaHSShore protection strategies for estuarine beaches: a case study of Cliffwood Beach, NJ
The shoreline of Raritan Bay is developed with homes and recreation sites that are vulnerable to erosion and flooding exacerbated by increased rates of sea level rise. The US Army Corps of Engineers has implemented coastal storm-risk management projects or feasibility studies for several communities on Raritan Bay, but not all locations are included. Municipalities […]
Cliffwood, Miller, minigrant, Nordstrom, Raritan Bay, resilienceCreating a rich digital environment to support resilience on the Lower Raritan
The Raritan River region is the home of many businesses, residential communities, critical facilities, and wildlife species. Flooding is a persistent problem in the Raritan River region when excessive rain from storms affect the river basin. During hurricane events, flooding can be even more severe due to combined storm surge and heavy rainfall effects. For […]
Gong, IRIS, Lidar, minigrant, resilience, RV Rutgers, Whytlaw