We’re committed to improving our ecosystems, quality of life, and communities for the better.
Our passion and commitment to the integration of innovative science and engineering drive us to exceed on behalf of every client.
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Princeton Hydro worked with the United States Army Corps of Engineers (USACE) – New York District and the New York State Department of Environmental Conservation (NYSDEC) on the development of an acceptable monitoring program that was implemented in 2019. As stipulated in the NYSDEC-issued permit, the monitoring program had to follow the New York State Salt Marsh Restoration and Monitoring Guidelines (Guidelines) established in 2000. Working closely with USACE and NYSDEC and following the program specified within the Guidelines, Princeton Hydro established five transects and eighteen associated 1m2 quadrat locations along the five transects. Each transect represented a cross section of the various ecological communities present between Old Place Creek and the upper extent of the mitigation site. The ecological communities monitored across each transect included low marsh, high marsh, transitional zones between low marsh and high marsh, and scrub/shrub, respectively. [gallery link="none" columns="2" ids="19307,19305"] The following metrics were calculated within each 1m2 quadrat: overall percent cover and species composition comprising the observed percent cover. Within each 1m2 quadrat, a 0.25m2 portion of the quadrat was analyzed for stem density and plant height as outlined within the Guidelines. Additionally, the entire mitigation site was investigated for the presence of invasive species with subsequent mapping developed and incorporated into an adaptive management plan. This was then implemented to address the presence of common reed (Phragmites australis). Annual monitoring reports were prepared and submitted to both USACE and NYSDEC detailing the results of the monitoring effort with a focus on the established transects and 1m2 quadrats along each transect. A section of the reports was dedicated to the development of an adaptive management plan to ensure the mitigation site satisfied the requisite 85% vegetative cover comprised of desirable, native species. [post_title] => NYSDEC Wetland Monitoring - Old Place Creek Mitigation Site [post_excerpt] => [post_status] => publish [comment_status] => closed [ping_status] => closed [post_password] => [post_name] => nysdec-wetland-monitoring-old-place-creek-mitigation-site [to_ping] => [pinged] => [post_modified] => 2026-03-06 13:46:46 [post_modified_gmt] => 2026-03-06 13:46:46 [post_content_filtered] => [post_parent] => 0 [guid] => https://princetonhydro.com/?post_type=project&p=19292 [menu_order] => 0 [post_type] => project [post_mime_type] => [comment_count] => 0 [filter] => raw ) [1] => WP_Post Object ( [ID] => 18800 [post_author] => 1 [post_date] => 2025-12-02 20:22:29 [post_date_gmt] => 2025-12-02 20:22:29 [post_content] => The New Jersey Department of Military and Veteran Affairs (NJDMAVA) retained Princeton Hydro to implement ecological services at the Sea Girt National Guard Training Center in the Borough of Sea Girt, Monmouth County, New Jersey. To facilitate portions of the 2025-2029 Integrated Natural Resources Management Plan (INRMP), Princeton Hydro conducted a series of tasks such as delineating the extent of the northern and southern dune protection areas, where suitable habitat for the federally threatened, state endangered piping plover (Charadrius melodus) is present and confirming the extent of wetlands associated with a prior Letter of Interpretation. The project team also conducted an ecological assessment of the existing ecological communities with a focus on identifying the presence/extent/type of invasive species present to inform future targeted habitat management efforts identified within the INRMP and procured, on behalf of NJDMAVA, a Letter of Interpretation – Line Verification, Freshwater Wetlands General Permit 16 – Creation, restoration, and enhancement of habitat and water quality functions and values, and Coastal Zone Management General Permit 24 – Habitat creation, restoration, enhancement, and living shoreline activities. [gallery link="none" columns="2" size="large" ids="18801,18803"] [post_title] => Sea Girt Nation Guard Training Center Habitat Enhancement Project [post_excerpt] => [post_status] => publish [comment_status] => closed [ping_status] => closed [post_password] => [post_name] => sea-girt-nation-guard-training-center-habitat-enhancement-project [to_ping] => [pinged] => [post_modified] => 2025-12-08 21:44:33 [post_modified_gmt] => 2025-12-08 21:44:33 [post_content_filtered] => [post_parent] => 0 [guid] => https://princetonhydro.com/?post_type=project&p=18800 [menu_order] => 0 [post_type] => project [post_mime_type] => [comment_count] => 0 [filter] => raw ) [2] => WP_Post Object ( [ID] => 18610 [post_author] => 1 [post_date] => 2025-11-05 14:49:39 [post_date_gmt] => 2025-11-05 14:49:39 [post_content] => The Anchor QEA–Princeton Hydro team was selected by Audubon New York (and its partners Save the Sound and New York State Parks) to design the restoration and enhancement of an approximately 400-acre tidal marsh on the north-central coast of Long Island. The marsh has experienced restricted tidal flow since an earthen berm was breached in 2012 during Superstorm Sandy. The restricted tidal flow led to marsh degradation, which converted portions of the former salt marsh to brackish and freshwater marsh. The lack of tidal flushing also enabled invasive Phragmites australis to establish and spread within the marsh system. Design goals included:
The Goethals Bridge Replacement Project resulted in unavoidable impacts to 4.929 acres of wetlands and open water associated with the Arthur Kill, requiring the creation of 15.39 acres of mudflat, low marsh, high marsh, and scrub/shrub habitat; and preservation of 3.91 acres of existing low marsh/high marsh and open water habitat. Princeton Hydro worked with the United States Army Corps of Engineers (USACE) – New York District and the New York State Department of Environmental Conservation (NYSDEC) on the development of an acceptable monitoring program that was implemented in 2019. As stipulated in the NYSDEC-issued permit, the monitoring program had to follow the New York State Salt Marsh Restoration and Monitoring Guidelines (Guidelines) established in 2000. Working closely with USACE and NYSDEC and following the program specified within the Guidelines, Princeton Hydro established five transects and eighteen associated 1m2 quadrat locations along the five transects. Each transect represented a cross section of the various ecological communities present between Old Place Creek and the upper extent of the mitigation site. The ecological communities monitored across each transect included low marsh, high marsh, transitional zones between low marsh and high marsh, and scrub/shrub, respectively.
The following metrics were calculated within each 1m2 quadrat: overall percent cover and species composition comprising the observed percent cover. Within each 1m2 quadrat, a 0.25m2 portion of the quadrat was analyzed for stem density and plant height as outlined within the Guidelines. Additionally, the entire mitigation site was investigated for the presence of invasive species with subsequent mapping developed and incorporated into an adaptive management plan. This was then implemented to address the presence of common reed (Phragmites australis). Annual monitoring reports were prepared and submitted to both USACE and NYSDEC detailing the results of the monitoring effort with a focus on the established transects and 1m2 quadrats along each transect. A section of the reports was dedicated to the development of an adaptive management plan to ensure the mitigation site satisfied the requisite 85% vegetative cover comprised of desirable, native species.
The New Jersey Department of Military and Veteran Affairs (NJDMAVA) retained Princeton Hydro to implement ecological services at the Sea Girt National Guard Training Center in the Borough of Sea Girt, Monmouth County, New Jersey. To facilitate portions of the 2025-2029 Integrated Natural Resources Management Plan (INRMP), Princeton Hydro conducted a series of tasks such as delineating the extent of the northern and southern dune protection areas, where suitable habitat for the federally threatened, state endangered piping plover (Charadrius melodus) is present and confirming the extent of wetlands associated with a prior Letter of Interpretation.
The project team also conducted an ecological assessment of the existing ecological communities with a focus on identifying the presence/extent/type of invasive species present to inform future targeted habitat management efforts identified within the INRMP and procured, on behalf of NJDMAVA, a Letter of Interpretation – Line Verification, Freshwater Wetlands General Permit 16 – Creation, restoration, and enhancement of habitat and water quality functions and values, and Coastal Zone Management General Permit 24 – Habitat creation, restoration, enhancement, and living shoreline activities.
The Anchor QEA–Princeton Hydro team was selected by Audubon New York (and its partners Save the Sound and New York State Parks) to design the restoration and enhancement of an approximately 400-acre tidal marsh on the north-central coast of Long Island. The marsh has experienced restricted tidal flow since an earthen berm was breached in 2012 during Superstorm Sandy. The restricted tidal flow led to marsh degradation, which converted portions of the former salt marsh to brackish and freshwater marsh. The lack of tidal flushing also enabled invasive Phragmites australis to establish and spread within the marsh system.
The Anchor QEA–Princeton Hydro team developed 60% Designs, including design drawings, a cost estimate, a long-term management plan, and a QAPP. The project design includes dredging approximately 15,000 cubic yards of material from Sunken Meadow Creek and thin layer placement of dredged material onto adjacent marsh cells to develop low and high marsh footprints; treating approximately 20 acres of Phragmites australis and phased replanting the areas with native species; creating approximately 2,000 linear feet of channels in the marsh and improving approximately 8,500 linear feet of existing channels to enhance drainage and tidal flushing; creating tidal pools and installing anchored rootwads to promote habitat diversity; modifying existing culverts within the primary flow channel through the marsh; and planting within the high and low salt marsh footprints.
Over 40 years ago, Mercer County purchased 279 acres of flood-prone land along Miry Run as part of a restoration and flood mitigation initiative. In 2018, Mercer County Park Commission (MCPC) contracted Princeton Hydro and Simone Collins Landscape Architecture to develop the Miry Run Ponds Master Plan with three primary goals: (1) Provide passive recreation to complement other County activities; (2) Preserve and enhance the habitat, water quality, and natural systems that currently exist onsite; and (3) Provide linkage to adjacent trails and parks.
The team assessed the land area and proposed a concept plan to enhance the area and create recreational lake activities. Applying expertise in science-based assessment and evaluations, we performed:
Our project team facilitated focus groups with local municipalities, residents, interest groups, and County stakeholders to seek their input and report on site evaluation findings. In partnership with the County, we held public meetings to gather feedback on the conceptual site designs. This helped to inform the park planning process and determine how best to manage the site to meet the needs of the community and future generations.
The final Miry Run Pond Master Plan goes above and beyond the original vision, proposing considerable improvements to the area prioritizing valuable natural features, including 34 acres of reforestation, 64 acres of new meadows, 19 acres of vernal pools, and 7.9 miles of walking trails. It serves as a long-term vision and will be implemented over multiple phases. Dredging of the lake began in 2023.
In 2012, Hurricane Sandy left numerous NJ communities with storm damage to homes and infrastructure including Naval Weapons Station (NWS) Earle, which incurred approximately $50M in installation damages that not only impacted mission readiness, but also impacted neighboring communities, where the majority of the installations’ military and civilian employee population resides. It is expected that NWS Earle and its surrounding communities may experience increased frequent flooding from tidal waters and storm surge, adversely affecting ecosystems and presenting challenges to installation resilience and readiness. In response to these past occurrences and the threat of future related coastal hazards, Monmouth County, in cooperation with NWS Earle and the 13 municipalities that surround it, published a Joint Land Use Study in 2017, which defined several goals related to adapting to sea level rise and improving resiliency from future storm events. In 2019, the cooperative published the Raritan/Sandy Hook Bay Coastal Resilience Planning Study (Bayshore Study) which identified potential coastal resilience projects within the region that could improve sustainability and resiliency from current and future coastal hazards and sea level rise.
In 2021, Monmouth County commissioned Princeton Hydro to advance the goals of the Bayshore Study through the Bayshore Coastal Resilience Design Study. The goal of this study is to develop conceptual coastal resilience designs for two of the Bayshore Study projects located on coastal wetlands along Whale Creek in Aberdeen Township and Flat Creek in Union Beach Borough. We conducted site assessments that included desktop investigation, bio-benchmarks, and hydrologic monitoring; completed hydrodynamic modeling to assess the impacts of storms and sea level rise; and developed conceptual restoration designs for both sites. Restoration strategies included removal of invasive species, planting of native species, enhancement of hydrology, and fostering marsh migration. Conceptual designs were presented to a Technical Advisory Committee to solicit feedback for further project development.
This project provided an opportunity to work closely with Monmouth County on an effort to address the threat of future coastal hazards through marsh restoration. The project resulted in the development of conceptual designs for restoration of the tidal marsh ecosystems at Whale Creek and Flat Creek as well as a detailed study report to support those designs.
Princeton Hydro and BRS, Inc. were contracted by the Cities of Trenton and Salem to perform climate change-related hazard vulnerability assessments to inform municipal resilience action plans.
The work was completed as part of the Resilient NJ Program, an assistance program run by the NJDEP Bureau of Climate Resilience Planning. The program supports local and regional climate resilience planning by bringing together planners, engineers, designers, and other experts to address flood- and climate-related hazards. The Cities of Trenton and Salem, like many across the region, already experience climate related hazards such as extreme heat and flooding which disrupts traffic patterns, impacts infrastructure, damages property, and puts lives at risk. These climate-related hazards are expected to worsen over the next century and beyond due to climate change.
In order to prepare for and adapt to climate-related hazards, our team worked to map extreme heat and flooding hazards across these cities under both current climate conditions and future projections. We then assessed the geographic distribution of these hazards to identify at-risk populations and city resources, such as critical infrastructure, community assets, cultural and historic resources, and land developments. These assessments will be used to develop resilience action plans, which will guide future climate hazard policies, planning, and projects in Trenton and Salem.
A key component of our climate hazard vulnerability assessments was to not only provide information needed for planning and decision-making, but to also provide information to the general public. Princeton Hydro and BRS facilitated several public information sessions. The Princeton Hydro-BRS Team provided a primer on climate hazards and presented the vulnerability assessment findings along with a Q&A session. This process invited public feedback and maximized public participation.
Princeton Hydro provided professional planning and engineering services to the City of Hoboken for post-Sandy disaster resilience planning. Hurricane Sandy’s storm tide had community-wide severe impacts to the City. As a result, the City was the first New Jersey municipality to begin a comprehensive evaluation and adaptation of its policies, including updates to the City’s zoning, stormwater, and flood damage prevention ordinances.
Princeton Hydro conducted planning & engineering in support of an amended stormwater management plan, hazard mitigation and emergency management planning, and a stakeholder engagement process. Deliverables included updates to the city’s zoning, stormwater and flood damage prevention ordinances, as well as a Stormwater Management Plan Amendment. The Amendment contained recommendations for a comprehensive stormwater management ordinance that prioritizes the use of green infrastructure practices for runoff volume retention. Princeton Hydro also produced Resilient Building Design Guidelines, which educated homeowners and developers on how to retrofit existing structures, comply with FEMA Substantial Damage/Substantial Improvement standards, and implement best practices when building new construction in flood-prone areas. The plan and recommendations contributed to Hoboken’s initiative, which is ahead of the mandates to be instituted by the North Hudson Sewerage Authority’s Long Term Control Plan to address combined sewer overflows.
Additionally, the City updated the Recreation and Open Space Inventory to be consistent with the City’s open space advancement and stormwater management implementation in parks. A Resilient Capital Improvement Plan was another outcome of their proactive effort and contains details on projects to prepare the City for future natural hazards. Hazard mitigation and emergency management planning resulted in mitigation project development, an Emergency Operations Plan update and a Continuity of Operations/Government plan. Resiliency measures and philosophies were integrated into the Master Plan elements.
The flagship product of this planning effort is the Resilient Building Design Guidelines, educating homeowners and developers with tangible examples on how to retrofit existing structures, comply with FEMA Substantial Damage/Substantial Improvement standards, and best practices when building new construction in floodprone areas. The Guidelines have instructions on how to reduce future flood losses by using flood resistant materials and flood considerate techniques, all in keeping with the character of Hoboken. The Guidelines are a first of their kind in New Jersey and, as the techniques are implemented, the floodprone areas will be safer and recover more quickly after an event. Click here to read and download the complete 52-page guidelines document.
The City received the New Jersey Association for Floodplain Management’s 2015 Outstanding Floodplain Management Award for these efforts.
The Town of Hammonton received a grant from the New Jersey League of Conservation Voters to perform a preliminary feasibility study for the possibility of establishing a stormwater utility in the municipality. The town is uniquely composed of suburban, rural, and agricultural land uses. Like many older municipalities, development outpaced the construction of infrastructure, and the existing pipes, inlets, and manholes have exceeded their useful life by decades. As a result, the town experiences significant flooding during precipitation events.
In 2021, the Town awarded Princeton Hydro with a contract to perform the feasibility investigation. As part of our efforts, Princeton Hydro worked with Town officials to obtain relevant data, including budget information, property classifications, and historical maps and reports. We reviewed the data regarding current stormwater management expenses as well a review of the best available data sources for applicable land use and impervious coverage data. The maps and available GIS data were used to assess the characteristics of the land within each watershed of the Town.
Princeton Hydro developed a stakeholder meeting program, where key individuals, businesses, environmental groups, and nonprofit entities were invited to different forums to learn about stormwater utilities, ask questions, and provide feedback.
The data obtained from the town, in conjunction with the input of the stakeholders, was used to develop a Stormwater Utility Investigation report, which includes preliminary rate structures, that shall be used by the Town Council to decide if it is in their best interest to continue pursuing a stormwater utility and move forward with a comprehensive stormwater utility feasibility study.
The Turkey Foot project is approximately 7.5 acres within the greater 1,200-acre John Heinz National Wildlife Refuge (NWR) at Tinicum. The NWR is located within the City of Philadelphia and neighboring Tinicum Township in Philadelphia and Delaware Counties.
The refuge protects approximately 200 acres of the last remaining freshwater tidal marsh in Pennsylvania and represents an important migratory stopover along the Atlantic Flyway. It also provides protected breeding habitat for State-listed threatened and endangered species, as well as many neotropical migrants, such as the American Bittern (Botaurus lentiginosus), Least Bittern (Ixobrychus exilis), Black-crowned Night-heron (Nycticorax nycticorax), King Rail (Rallus elegans), Great Egret (Ardea alba), Yellow-crowned Night-heron (Nyctanassa violacea), and Sedge Wren (Cistothorus stellaris).
The Turkey Foot project area is an example of one of the historically impacted ecosystems at the Refuge and lends itself to ecological restoration. The approach for this restoration project focused on the creation of approximately four acres of contiguous wetland habitat bordered by a functional riparian buffer.
The proposed design produced by Princeton Hydro resulted in the creation of three habitat zones: 1) intertidal marsh, 2) high marsh, and 3) upland grassland. The integration of high marsh into the proposed design satisfies the refuge’s request to establish foraging, breeding, and nesting habitat for black rail (Laterallus jamaicensis), a proposed threatened species under the Endangered Species Act of 1973. Our approach also included a robust invasive species management plan and adaptive management monitoring program that guided the development of the restored site towards the ultimate goal of establishing a diverse and productive coastal ecosystem within the Turkey Foot project area.
Princeton Hydro conducted wetland delineation, biological benchmarks, and reporting, including a Wetland Delineation Report prepared in compliance with the USACE Nationwide Permit #27 requirements. Additionally, Princeton Hydro’s role included developing engineering plans for the restoration and enhancement of the Turkey Foot project area, mapping topographic and bathymetric existing conditions, assisting with permitting and regulatory approvals, and overseeing construction implementation.
As one of only a few areas of open space left in Point Pleasant, the 13-acre Slade Dale Sanctuary is an important part of the local ecosystem, and is home to a number of unique animals and plants. This waterfront preserve along the North Branch Beaver Dam Creek is predominantly tidal marsh, which provides habitat for various birds, including osprey, as well as passive recreation opportunities for the community.
Unfortunately, the Slade Dale Sanctuary is disappearing. Since 1930, the shoreline of Slade Dale Sanctuary has retreated approximately 300 feet, equal to the length of a football field, and the channels into the marsh have increased in number and size, according to aerial imagery that Princeton Hydro assessed on behalf of American Littoral Society.
In order to stabilize the shoreline, restore the marsh, and enhance the ecological function and integrity of the preserve, American Littoral Society contracted Princeton Hydro to develop a conceptual and engineering design using living shoreline features to enhance ecological value and reduce erosion. To develop a final design, Princeton Hydro mapped historic wetland extents, performed a bathymetric survey, as well as an ecological and engineering assessment of the waterfront.
The final concept utilized a novel, low-cost technique that had never been done in New Jersey - upcycling donated Christmas trees into a living shoreline. The design used a combination of breakwater fence and tree vane structures to attenuate wave action, foster sediment accretion, and reduce erosion along the shoreline. The tree vane structures are located behind the 1977 Tidelands Line to comply with state regulations. Both types of structures mimic naturally occurring debris structures in tidal systems and enhance habitat opportunity and shelter for aquatic life.
To implement this design the trees were transported by volunteers from their staged locations on the marsh to the breakwater sections that were previously installed in the water. The trees were stuffed between the pilings, securely tied down, and staked directly into the creek bottom.
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