Aquatic connectivity is a key restoration goal for the New York – New Jersey Harbor & Estuary Program (HEP) and its partners. The creation of connectivity assessment protocols, training methods and data sharing developed by the North Atlantic Aquatic Connectivity Collaborative (NAACC) streamlined the effort to prioritize barrier removal to improve aquatic habitat. HEP combined information collected during the NAACC assessment in a model that evaluates the potential of hydraulic right-sizing of culverts to address flooding. This analyses (developed by Cornell University) uses culvert size and watershed information to assess which maximum storm interval (e.g. a 10-year storm event) a culvert can accommodate without the flow over-topping the road and causing roadside/streambank erosion. This helps predict function under future climate change scenarios.
HEP in partnership with Rutgers University developed recommendations for barrier removal in one subwatershed of the Lower Raritan River based on NAACC, dendritic connectivity, hydraulic model results, and infrastructure condition. Individual culverts were classified on features related to estuarine (diadromous) and freshwater (potadromous) species passage and the size of the rain event they could accommodate as measured by the return period from 2 year to the 500 year storm. This work trained Rutgers University students in the NAACC protocols, disseminating the methodology. The assessment is being shared with stakeholders to advance planning and capital projects that will replace problematic road-stream crossings with climate-ready, connectivity-friendly versions.
NAACC Results – 56 Crossings
Raritan Barrier Restoration Recommendations
- Seeley’s Brook 7 – Most important potadromous barrier, would open up nearly a mile. This may be a quick fix as the problem is mostly just heavy debris and a small inlet drop.
- Fox Creek Dam –Second most important diadromous and potadromous barrier. Big pond behind it so would probably have to consider a fish ladder rather than removal.
- ND 5A – This barrier is superfluous in that it serves no overpass. The culvert could be removed in favor of a cut in the embankment.
- NE 1A – This culvert is completely blocked by soil/debris. This would be a quick fix that restores hydrology and opens up 0.1 miles of habitat for potadromous species.
- NC 1 – A diadromous barrier that also can only handle a 50 year storm. Double culvert with an outlet drop.
- ND 1 – Can only handle a 2 year storm event.
Other important less-feasible barriers
- Seeley’s Brook 1A – This restoration scored the highest in the watershed on the diadromous dendritic evaluation. This is the first barrier that goes under the canal and connects right to the Raritan River. The outlet is underwater. It is unclear that fish will swim into long dark culverts to get into the rest of the Seeley’s Brook habitat.
- Canal Entrance – this is a 25ft long steep slope that would be a large infrastructure fix but would open up >3 miles of aquatic habitat in the canal.
Thomas Grothues (Dept. Marine & Coastal Sciences, School of Environmental and Biological Sciences) and Isabelle Stinnette (NY‑NJ Harbor & Estuary Program) worked with and trained two teams of Rutgers students to be observers in the assessment protocol developed by the North Atlantic Aquatic Connectivity Consortium (NAACC). The project received support from a 2019 Rutgers Raritan River Consortium (R3C) mini-grant. For more information about this project, contact Dr. Grothues at email@example.com or (609) 296-5260.