Setting the Precedent: Blue Acres Floodplain Restoration in Linden

The City of Linden, located 13 miles southwest of Manhattan in Union County, New Jersey, is a highly urbanized area with a complex mix of residential, commercial, and industrial land uses. Originally settled as farmland on broad marshes, the City has deep roots in industrial production that emerged in the 19th century, and its easily accessible location on the Arthur Kill tidal straight helped fuel this industrial development.

Now, the City of Linden, which is home to more than 40,000 people, is considered a transportation hub: it has three major highways running through it (the New Jersey Turnpike, Route 1, and Route 27); its rail station provides critical commuter and industry access; the Linden Municipal Airport is a gateway to the NY/NJ metropolitan area; and its access point on the Arthur Kill is used by shipping traffic to the Port Authority of NY and NJ.

Unfortunately, the industrial boom left a legacy of pollution in the city, so much, that the Tremley Point Alliance submited an official Envionmental Justice Petition to the state. In 2005, the New Jersey Environmental Task Force selected the community for the development of an Environmental Justice Action Plan and listed it as one of six environmental justice communites in New Jersey.

As do many urban municipalities, Linden suffers severe flooding from heavy rains and storms. One of the significant sources of flood water threatening the City comes from stormwater runoff.

Like other communities in the Arthur Kill Watershed, Linden also suffers severe flooding from heavy rains and storms with one of the significant sources of flood water coming from stormwater runoff. Due to a high percentage of impervious cover from houses, roadways, and sidewalks, even small rain events generate a significant amount of stormwater runoff. Over time, these conditions have been exacerbated by the historic loss of coastal wetlands and outdated infrastructure. Nuisance flooding is especially problematic as runoff cannot drain from the area at a sufficient rate to prevent flooding during normal or elevated tidal conditions. Very simply, heavy rainfall is one factor contributing to recurring flooding.

In 2012, Hurricane Sandy caused wide-spread destruction throughout New Jersey and the entire eastern seaboard. The City of Linden was hard hit, and the City’s Tremley Point neighborhood was especially storm-ravaged. Tremley Point, a low-lying community of about 275 homes located at the headwaters of Marshes Creek and in the 100-year floodplain of the Rahway River, is regularly flooded during normal rain events. During Hurricane Sandy, local news outlets reported that a 15-foot tidal surge overtook Tremley Point homes, destroyed roads, and washed up hazardous material such as a 150-gallon diesel tank.

To help communities like Tremley Point recover, the New Jersey Department of Environmental Protection (NJDEP) launched the Blue Acres program under which NJDEP purchases homes from willing sellers at pre-Sandy market values, so residents in areas of repetitive and catastrophic flooding can rebuild their lives outside flood-prone areas. Structures are demolished and the properties are permanently preserved as open space for recreation or conservation purposes. The program began in 1995 and expanded with federal funding after Sandy. The goal of the Blue Acres Program is to dramatically reduce the risk of future catastrophic flood damage and to help families to move out of harm’s way.

As part of the NJDEP Blue Acres Program, Princeton Hydro, in collaboration with the City of Linden, Rutgers University, NJDEP, Phillips 66, National Fish and Wildlife Foundation, New Jersey Corporate Wetlands Restoration Partnership, and Enviroscapes, has undertaken one of the first ecological restoration projects within Blue Acres-acquired properties, which are located in the Tremley Point neighborhood. This project increases storm resiliency by reducing flooding and stormwater runoff by improving the ecological and floodplain function within the former residential properties acquired by the NJDEP Blue Acres Program.

The City of Linden Blue Acres restoration project increases storm resiliency by reducing flooding and stormwater runoff by improving the ecological and floodplain function within the former residential properties acquired by the NJDEP Blue Acres Program.

The project includes the development and implementation of an on-the-ground green infrastructure-focused floodplain enhancement design involving the restoration of native coastal floodplain forest and meadow, as well as floodplain wetlands. The restored area provides natural buffering to storm surge and enhances floodplain functions to capture, infiltrate, store, and slow excess stormwater to reduce the risk of future flood damage. In addition, it restores natural habitat and provides public recreation access on NJDEP Blue Acres property.

The design includes re-planting the parcels and the installation of a walking path through part of the area. It also includes the creation of a floodplain bench for the adjacent drainage ditch, an unnamed tributary to Marshes Creek. A floodplain bench is a low-lying area adjacent to a stream or river constructed to allow for regular flooding in these areas. Site improvements include grading of the floodplain bench and minor depressional area; 6-12-inches of tilling, soil amendment, and planting within the planting area; and construction of the gravel pathway.

The project will result in valuable environmental and community benefits to the area, including an annual reduction in stormwater runoff of 4.1 million gallons. This represents a 45% reduction in stormwater runoff. Restoration of the floodplain will also help reduce community vulnerability to storms. The hope is that this project will be a model that fosters more floodplain restoration projects in the future.

For more information on the Blue Acres Program, please visit the DEP website.

Regional Watershed Planning: A Critical Strategy to Prevent HABs

Photo by @likethedeaadsea, submitted during our 2019 #LAKESAPPRECIATION Instagram Photo Contest.

Harmful Algae Blooms (HABs) were in the spotlight last summer due to the severe impacts they had on lakes throughout the country. Nation-wide, HABs caused beach closures, restricted lake usage, and lead to wide-ranging health advisories. There were 39 confirmed harmful algal bloom (HAB) outbreaks in New Jersey alone.

As a reminder, HABs are rapid, large overgrowths of cyanobacteria. These microorganisms are a natural part of aquatic ecosystems, but, under the right conditions (primarily heavy rains, followed by hot, sunny days), these organisms can rapidly increase to form cyanobacteria blooms, also known as HABs. HABs can cause significant water quality issues; produce toxins that are incredibly harmful (even deadly) to humans, animals, and aquatic organisms; and negatively impact economic health, especially for communities dependent on the income of jobs and tourism generated through their local lakes.

“A property’s value near an infested lake can drop by up to $85,000, and waterside communities can lose millions of dollars in revenue from tourism, boating, fishing and other sectors,” reports Princeton Hydro President Geoff Goll, P.E.

Generally, the health of a private lake is funded and managed in isolation by the governing private lake association group. But, in order to mitigate HABs and protect the overall health of our local waterbodies, it’s important that we look beyond just the lake itself. Implementing regional/watershed-based planning is a critical step in preventing the spread of HABs and maintaining the overall health of our natural resources.

At the end of 2019, the Borough of Ringwood became the first municipality in New Jersey to take a regional approach to private lake management through a public-private partnership with four lake associations.

The Borough of Ringwood is situated in the heart of the New Jersey Highlands, is home to several public and private lakes, and provides drinking water to millions of New Jersey residents. In order to take an active role in the management of these natural resources, Ringwood hired Princeton Hydro, a leader in ecological and engineering consulting, to design a municipal-wide holistic watershed management plan that identifies and prioritizes watershed management techniques and measures that are best suited for immediate and long-term implementation.

Map showing the four private lakes involved in the Borough of Ringwood's regional holistic watershed management plan.

Funding for Ringwood’s Watershed-based Assessment is being provided by the New Jersey Highlands Council through a grant reimbursement to the Borough of Ringwood. The Highlands Council offers grant funding and assistance to support the development and implementation of a wide range of planning initiatives. Examples of the types of efforts that can be funded for municipalities and counties include:

  • Land Use and Development projects like sustainable economic development planning and green building and environmental sustainability planning;
  • Infrastructure projects like stormwater management and water use/conservation management;
  • Resource Management projects like habitat conservation, lake management and water quality monitoring; and
  • Recreation and Preservation projects like land preservation and stewardship, farmland preservation and agriculture retention, and historic preservation.

Chris Mikolajczyk, CLM, Princeton Hydro’s Aquatics Senior Project Manager and the Ringwood project’s lead designer, presented with Keri Green of the NJ Highlands Council, at a recent New Jersey Coalition of Lake Associations meeting. The duo showcased Ringwood’s unique approach, spread the word about available funding through the NJ Highlands Council, and encourage other municipalities to follow Ringwood’s lead in taking a regional approach to lake and watershed management.

Mikolajczyk said, “This regional approach to lake and watershed management is a no-brainer from a scientific, technical, and community point of view. Historically, however, municipal governments and private lake associations have rarely partnered to take such an approach. The hope is that the Borough of Ringwood efforts, funded by the New Jersey Highlands Council, will set a precedent for this logical watershed management strategy and open the door for future public-private partnerships.”

This integrated approach to watershed and lake management is an important preventative measure to improve water quality for millions of people and reduce potential future incidents of aquatic invasive species and harmful algal blooms throughout the region.

To learn more about NJ Highlands Council and available grant funding, go here.
To download a complete copy of the presentations given by Mikolajczyk and Green at the recent NJCOLA meeting, go here.
To learn more about Princeton Hydro’s pond, lake and watershed management services, go here.

 

Winter Events Spotlight: Webinars, Courses, & Conferences

Throughout the first quarter of 2020, Princeton Hydro is participating in a variety of events focused on conserving, restoring, and protecting our precious water resources. Here’s a snapshot of what’s to come:

January 21: American Sustainable Business Council Webinar

As part of ASBC’s “Clean Water is Good for Business” campaign, the organization is hosting this online training session for businesses to help elevate their voice on clean water issues. Titled “Making the Business Case on Clean Water Issues to the Media,” this webinar will help you find and approach the right journalists, make the most compelling arguments for your policy agenda, enhance your credibility and confidence, and much more! The webinar is lead by Bob Keener, Deputy Director of Public Relations at American Sustainable Business Council; Dana Patterson, Marketing & Communications Manager at Princeton Hydro; Rita Yelda, Outreach & Communications Manager at Coalition for the Delaware River Watershed; and Colton Fagundes, Policy Associate at American Sustainable Business Council.

Learn more & Register

 

January 28: NJDEP’s Harmful Algal Blooms Summit

The New Jersey Department of Environmental Protection is hosting a Harmful Algal Blooms (HABs) Summit. The summit is part of Governor Phil Murphy and the NJDEP’s three-pronged, $13 million initiative to reduce and prevent future HABs in New Jersey. This is the first of two regional summits taking place in early 2020 with the goal of improving communication throughout lake communities and sharing information ahead of the warmer months when HABs begin to appear. The summit includes a presentation from Princeton Hydro’s Dr. Fred Lubnow who will discuss the prevention, management and treatment of HABs. 

Learn more about NJDEP’s HABs Initiative

 

January 29-30: 2020 Delaware Wetlands Conference

Wetland enthusiasts, experts and students from the Mid-Atlantic region will gather together in Wilmington, Delaware to attend the 9th biennial 2020 Delaware Wetlands Conference. Participants will share the latest in wetland research, innovations to outreach and education, and the progress of conservation programs. Senior Ecologist Michael Rehman of Princeton Hydro, a proud sponsor of the event, is giving a presentation on urban wetland restoration. Swing by our exhibitor booth to say hello!

Learn more & Register

 

JANUARY 2019 – MAY 2020: TEMPLE UNIVERSITY WETLAND ECOLOGY COURSE

Our Vice President Mark Gallagher and Founding Principal and Consultant Dr. Steve Souza are teaching an applied wetland ecology graduate course at Temple University. The 17-week Spring semester course, which includes weekly lectures as well as field trips, will provide students with an opportunity to study real-world examples of wetland and riparian restoration and the integration of wetland ecology and restoration design within the context of green infrastructure. Students will gain an increased understanding of the ecological functions of wetland and riparian ecosystems; be introduced to the principles of applied ecology as related to wetland and riparian ecosystem restoration; get hands-on experience with how to use green infrastructure techniques in urban and suburban settings to control and abate stormwater impacts; and learn about state and federal regulations.

LEARN MORE

 

JANUARY 2019 – MAY 2019: DELAWARE VALLEY UNIVERSITY WATERSHED MANAGEMENT COURSE

Dr. Fred Lubnow, Princeton Hydro’s Director of Aquatic Programs, is teaching a “Watershed Management” course at Delaware Valley University. The course provides participants with the skills needed to understand the concepts and terminology of hydrologic processes and watersheds, including evapotranspiration, soil water, infiltration, runoff, and stream flow. Through hands-on laboratory exercises and engaging lectures, students will also develop skills in environmental awareness, ecological awareness, and land stewardship, which will help them understand the key processes involved in managing watershed resources sustainably.

LEARN MORE

 

March 2: SAME Philadelphia Post Small Business Conference

Society for American Military Engineers (SAME) gives leaders from the A/E/C, environmental, and facility management industries the opportunity to come together with federal agencies in order to showcase best practices and highlight future opportunities for small businesses to work in the federal market. Princeton Hydro’s Chief Operating Officer and Director of Geosciences Engineering Kevin Yezdimer, P.E. and Marketing Coordinator Kelsey Mattison are excited to participate in and exhibit at this year’s SAME SBC Philadelphia Post Conference. The program consists of networking events, small business exhibits, a variety of speakers and much more.

LEARN MORE & REGISTER

 

March 4-5: Pennsylvania Lake Management Society (PALMS) Conference

PALMS is hosting its 30th annual conference during which lake professionals, students, recreation enthusiasts, lakeside residents and community members will join together to explore a variety of topics related to managing lakes and reservoirs. This year’s conference themed, “Reflecting on our Past While Looking to the Future,” offers a collection of professional presentations, workshops and panel discussions. Dr. Fred Lubnow and Michael Hartshorne of Princeton Hydro are both giving presentations on harmful algae blooms. View the full conference agenda here, and be sure to visit the Princeton Hydro exhibitor booth to chat about the latest advancements in pond, lake and watershed management.

Learn more & Register

 

March 20: 24th Annual NJ Land Conservation Rally

The New Jersey Conservation Foundation is hosting its 24th Annual NJ Land Conservation Rally, a one-day educational conference focused on conserving New Jersey’s open space and farmland. This year’s conference, which Princeton Hydro is a proud sponsor of, includes training workshops, roundtable discussions, exhibitors, and a variety of networking opportunities. Click here to view the full conference agenda, including presentor bios and presentation abstracts. We hope you’ll stop by the Princeton Hydro exhibitor booth to say hello!

Learn more & Register

 

March 22: Stroud Water Research Center’s Lecture Series Event

Stroud Water Research Center is dedicated to understanding the ecology of streams, rivers, and watersheds. Its freshwater research, environmental education, watershed restoration, and stewardship programs enable businesses, policymakers, landowners, and individuals to make informed decisions that affect water quality and availability around the world. As part of Stroud’s environmental education mission, it is hosting a lecture series. Princeton Hydro is excited to sponsor the “World Water Day: Research & Restoration with Stroud Microbiologist Dr. Jinjun Kan.” Stay tuned for more info on this lecture!

Learn more about Stroud

 

March 27: University of Pennsylvania’s 14th Annual Graduate Student Research Conference

Penn’s Master of Environmental Studies and Master of Science in Applied Geosciences programs will host the 14th Annual Graduate Student Research Conference. This event, a celebration of academic excellence for Penn’s professional master’s programs, will kick off with a keynote address from Kathy Klein, Executive Director of the Partnership for the Delaware Estuary.  40+ graduating students from the Masters of Environmental Studies and Master of Science in Applied Geoscience programs will present their research posters during the event. Participants will also have the opportunity to  network with local organizations and Penn collaborators, including Princeton Hydro.

Learn more & RSVP

 

STAY TUNED FOR MORE EVENT SPOTLIGHTS!

 

 

 

SAME NJ Post Honors Princeton Hydro’s Marketing Manager

Princeton Hydro’s Marketing and Communications Manager Dana Patterson was presented with the Society of American Military Engineers (SAME) New Jersey Post’s “Young Member Award” for her efforts in maintaining and advancing the objectives of the organization.

Marketing and Communications Manager Dana Patterson was presented with the Society of American Military Engineers (SAME) New Jersey Post's "Young Member Award" for her efforts in maintaining and advancing the objectives of the organization.The mission of SAME is to build leaders and lead collaboration among government and industry to develop multidisciplinary solutions to national security infrastructure challenges. Princeton Hydro joined SAME as a sustaining member in 2018, and actively supports the organization and its goals. Ms. Patterson has been active with the New Jersey Post since joining Princeton Hydro in October of 2018, and was elected into the SAME New Jersey Post Board of Directors Secretary position in Summer of 2019. In addition to her board role, she is an active member of the SAME NJ Post Small Business Council and assists with the organization’s social media marketing.

“I am honored and humbled to accept this award from the SAME New Jersey Post. It has been rewarding to collaborate with such a dedicated group of volunteers who share insights and ideas on business development, leadership, and federal opportunity tracking, while also empowering youth to participate in the STEM field,” said Ms. Patterson. “I look forward to inspiring more members of the NJ community to engage with our organization.”

The SAME NJ Post 2020 Award Ceremony is held each year to recognize members for their outstanding contributions to the Post and its community. The following volunteers were also recognized with awards:

Congratulations to all the award winners and many thanks to SAME NJ Post.

For more information about SAME NJ Post, go here. To learn more about the national SAME organization, go here.

2019 Successes: A Year in Review

Over the last two decades, we’ve restored many miles of rivers, improved water quality in hundreds of ponds and lakes, and enhanced thousands of acres of ecosystems in the Mid-Atlantic and New England regions. In 2019, we had our best year yet. As we reflect back on 2019 and set our sights on 2020, we have many successes to celebrate:

1. We Designed the Largest Dam Removal in New Jersey.

The century-old Columbia Dam was removed and fish passage was restored on the 42-mile long Paulins Kill river, an important tributary to the Delaware River in northwestern New Jersey. On Earth Day 2019, just two months after the river finally flowed free, we were thrilled to discover the return of American shad upstream for the first time in over 100 years.

Hudson River Bear Mountain Bridge (Photo from Wikipedia)

2. We Conceptualized Six Sites Along the Hudson River for Habitat Restoration.

Our team completed a feasibility study for the U.S. Army Corps of Engineers (USACE), which identified and conceptualized restoration opportunities at six key sites. For this Hudson River Habitat Restoration Integrated Feasibility Study and Environmental Assessment, Princeton Hydro collected and analyzed data, reviewed existing conditions, and drafted conceptual restoration designs. Our final report was just highlighted by USACE at the 2019 Planning Community of Practice (PCoP) national conference at the Kansas City District as an example of a successfully implemented Ecosystem Restoration Planning Center of Expertise (ECO-PCX) project.

3. National and Regional News Outlets Featured Princeton Hydro Harmful Algal Bloom Experts.

After a record-breaking number of HABs broke out in lakes across the region, our Aquatics Team was called upon for their expertise and insights into why the outbreak was happening, what could be done to treat it, and what preventative actions will lessen the likelihood of future outbreaks. In addition to being featured in various regional news outlets covering the HABs topic, Princeton Hydro experts were featured in the New York Times and the Washington Post for their leadership at the largest lake in New Jersey, Lake Hopatcong. (Photo credit: Washington Post)

4. Our Staff Presented, Exhibited, and Attended Over 50 Events.

From galas to environmental conferences and river restoration tours to college courses, the Princeton Hydro team participated in more than 50 events throughout 2019. Dr. Clay Emerson, PE taught a Green Infrastructure Stormwater Management Course at Montclair University. Kelsey Mattison, Marketing Coordinator, presented at the 3rd Annual New Jersey Watershed Conference. And, at the New Jersey Land Conservation Rally, we had three presentations on citizen science, marketing strategy, and lake stewardship. Various team members rolled up their sleeves to volunteer to plant trees at Exton Park on Arbor Day, build a rain garden in Clawson Park, and restore eroding shoreline in Point Pleasant. Stayed tuned for more in 2020!

5. We’re Restoring the Northernmost Freshwater Tidal Marsh on the Delaware River.

Mercer County’s John A. Roebling Memorial Park is home to the northernmost freshwater tidal marsh on the Delaware River, Abbott Marshland, an area containing valuable habitat for many rare species. Unfortunately, the area has experienced a significant amount of loss and degradation, partially due to the introduction of the invasive Phragmites australis. The Princeton Hydro team proudly removed this invasive species and is restoring the marsh to enhance plant diversity, wildlife habitat, and water quality.

6. We Upcycled Christmas Trees to Stabilize an Eroding Shoreline for the First Time in NJ.

To prevent further erosion at the Slade Dale Sanctuary in Point Pleasant, dozens of volunteers helped stabilize the shoreline using recycled Christmas trees, a technique never been done before in New Jersey. The 13-acre Slade Dale Sanctuary is an important part of the local ecosystem and much work is being done there to restore the marsh and enhance the ecological function and integrity of the preserve. Princeton Hydro developed a conceptual and engineering design using living shoreline features, including tree vane structures to attenuate wave action, foster sediment accretion, and reduce erosion.

7. Princeton Hydro Earned Three Prestigious Awards.

The Friends of the Presumpscot River awarded Laura Wildman, P.E., with its “Chief Polin Award” for her accomplishments and efforts in bringing life back to the Presumpscot River and rivers across the nation. The New Jersey Highlands Coalition honored Founding Principal Dr. Stephen Souza with a Lifetime Achievement Award, touting his dedication to preserving and protecting New Jersey’s watersheds and natural resources. And, our Pin Oak Forest and Wetland Restoration project earned the “Land Ethics Award of Merit” from Bowman’s Hill Wildflower Preserve for its remarkable restoration achievements.

8. We’re Converting an Urban, Flood-Prone Industrial Site into a Thriving Public Park.

Along the Third River and Spring Brook, two freshwater tributaries of the Passaic River, a former industrial site that is highly-disturbed and flood-prone is being transformed into a thriving public park. The team broke ground on this important ecological restoration and urban wetland creation project in March and the restoration work continues. Princeton Hydro is serving as the ecological engineer to Bloomfield Township providing a variety of services and expertise.

9. Princeton Hydro Welcomed 12 New Staff and Added Two Key Positions.

As part of the expansion of our growing business, Princeton Hydro added 12 team members with expertise and qualifications in a variety of fields. In July, we announced a new executive position in the firm, Chief Operating Officer, to which Kevin M. Yezdimer, P.E. was appointed. We also created an internal Human Resources Department and hired Samara McAuliffe as Employee Relations Manager. Princeton Hydro has grown from a small, four-person idea operating out of a living room to a 65+ person qualified Small Business with six office locations in the Northeast region.

10. New Year, New Locations!

We’re moving on up! In 2019, we moved our D.C. Regional Office down the road from Annapolis, MD to Bowie, MD expanding into a larger office space to accommodate our staff growth and providing opportunity for more growth in the region. And, in late 2019, through our strategic partnership with Merestone Consulting, we opened a sixth office in Wilmington, Delaware. Stay tuned for more information!

 

Thank you for supporting Princeton Hydro and sharing our stories. We truly appreciate each and every one of our clients and partners. Cheers to a fruitful 2020 and beyond!

Feasibility Study Identifies Key Opportunities for Hudson River Habitat Restoration

Hudson River Bear Mountain Bridge (Photo from Wikipedia)

The Hudson River originates at the Lake Tear of the Clouds in the Adirondack Mountains at an elevation of 4,322 feet above sea level. The river then flows southward 315 miles to New York City and empties into the New York Harbor leading to the Atlantic Ocean. The Hudson River Valley lies almost entirely within the state of New York, except for its last 22 miles, where it serves as the boundary between New York and New Jersey.

Hudson River Basin (Image by USACE)Approximately 153 miles of the Hudson River, between the Troy Dam to the Atlantic Ocean, is an estuary. An estuary is defined by the USEPA as “a partially enclosed, coastal water body where freshwater from rivers and streams mixes with salt water from the ocean. Estuaries, and their surrounding lands, are places of transition from land to sea. Although influenced by the tides, they are protected from the full force of ocean waves, winds and storms by landforms such as barrier islands or peninsulas.”

The Hudson River’s estuary encompasses regionally significant habitat for anadromous fish and globally rare tidal freshwater wetland communities and plants, and also supports significant wildlife concentrations. As a whole, the Hudson River provides a unique ecosystem with highly diverse habitats for approximately 85% of New York State’s fish and wildlife species, including over 200 fish species that rely on the Hudson River for spawning, nursery, and forage habitat.

The Hudson is an integral part of New York’s identity and plays a vital role in the lives of the people throughout the area. Long valued as a transportation corridor for the region’s agricultural and industrial goods, and heavily used by the recreation and tourism industries, the Hudson plays a major role in the local economy. It also provides drinking water for more than 100,000 people.

At the end of the American Revolution, the population in the Hudson River Valley began to grow. The introduction of railroad travel in 1851 further accelerated development in the area. Industrial buildings were erected along the river, such as brick and cement manufacturing, which was followed by residential building. Along with the aforementioned development, came the construction of approximately 1,600 dams and thousands of culverts throughout the Hudson River.

According to the U.S. Army Corps of Engineers (USACE), these human activities have significantly degraded the integrity of the Hudson River ecosystem and cumulatively changed the morphology and hydrology of the river. Over time, these changes have resulted in large-scale losses of critical shallow water and intertidal wetland habitats, and fragmented and disconnected habitats for migratory and other species. Most of this loss and impact has occurred in the upper third portion of the estuary.

As part of the effort to restore the vital river ecosystem, the USACE New York District launched a Hudson River Habitat Restoration Feasibility Study, which helps to establish and evaluate baseline conditions, develop restoration goals and objectives, and identify key restoration opportunities. Princeton Hydro participated in data collection and analysis, conceptual restoration designs, and preparation of the USACE Environmental Assessment for the Hudson River Habitat Restoration Ecosystem Restoration Draft Integrated Feasibility Study and Environmental Assessment.

Basic map depicting project sites (Created by Princeton Hydro)The study area includes the Hudson River Valley from the Governor Mario M. Cuomo Bridge downstream to the Troy Lock and Dam upstream. The primary restoration objectives include restoring a mosaic of interconnected, large river habitats and restoring lost connectivity between the Hudson River and adjacent ecosystems.

A total of six sites were evaluated using topographic surveys, installation and monitoring of tide gauges, evaluation of dam and fish barrier infrastructure, and field data collection and analysis to support Evaluation of Planned Wetlands (EPW) and Habitat Suitability Indices (HSI) functional assessment models. Literature reviews were also completed for geotechnical, hazardous toxicity radioactive waste, and aquatic organism passage measures.

Multiple alternatives for each of the six sites were created in addition to the preparation of conceptual designs, quantity take-offs, and cost estimates for construction, monitoring and adaptive management, and long-term operation and maintenance activities.

Princeton Hydro also prepared an environmental assessment in accordance with NEPA standards, addressing all six sites along the Hudson River and its tributaries. This assessment served to characterize existing conditions, environmental impacts of the preferred Proposed Action and No Action Alternatives, and regional cumulative environmental impacts. Our final report was highlighted by USACE at the 2019 Planning Community of Practice (PCoP) national workshop at the Kansas City District as an example of a successfully implemented Ecosystem Restoration Planning Center of Expertise (ECO-PCX) project.

USACE’s specific interest in Hudson River restoration stems from the aforementioned dramatic losses of regional ecosystems, the national significance of those ecosystems, and the apparent and significant opportunity for measurable improvement to the degraded ecological resources in the river basin.

The feasibility study is among the first of several critical steps in restoring the Hudson River’s ecosystem function and dynamic processes, and reestablishing the attributes of a natural, functioning, and self-regulated river system. Stay tuned for more updates on the Hudson River restoration efforts.

Flipping the Script on American Environmental Thought: FREE Presentation Download

 

The Watershed Institute held its 3rd Annual New Jersey Watershed Conference, an educational event that aims to advance knowledge and communications on issues related to water quality and quantity across the state. The event included a variety of presentations from local experts on watershed management, stormwater, and problems and solutions related to the health of New Jersey’s watersheds.

During the conference, Princeton Hydro’s Marketing Coordinator Kelsey Mattison, a St. Lawrence University graduate with a degree in English and environmental studies, lead a workshop that explored binaries in environmental thought and how to break through those limiting thought processes in order to advance a more productive and shared understanding of our natural world.

The presentation, titled “Flipping the Script on American Environmental Thought,” discussed how black-and-white thought processes (a.k.a. binaries) cause us to view issues as one or the other, leaving little to no room for the possibility of blending the two.

Historically, American thought has viewed environmental issues through a binary lens: either we favor human society, or we favor the environment, and this juxtaposition has rarely allowed for integration between the two perspectives.

Take, for example, the two concepts of preservation and conservation toted by John Muir and Gifford Pinchot, respectively. Muir’s concept of preservation argued that humans should set land aside to leave untouched to preserve its natural beauty, while Pinchot’s concept of conservation advocated for a responsible use of the land’s resources. Both are forms of environmental advocacy, but neither leave much room to combine the two ideas, ultimately creating a black and white binary surrounding human responsibility to the planet. This makes it difficult to then make any compromise on issues related to managing or utilizing our natural resources.

The workshop also explored answers to the important question of: “How do we flip the script to be more inclusive?” Participants discussed ideas around utilizing Values-Based Communication in order to connect with people from different groups/with different values. A few of the communication strategies Kelsey presented, include:

  • Finding Common Ground:

    When groups are telling such different narratives, it can be hard to see that their goals might actually be completely in line. By first identifying what each group’s priorities are, we can better understand their needs in order to help fulfill them. This allows people with seemingly conflicting beliefs to work towards a common goal.

  • Seeing More than Two Sides:

    Generally, people default to thinking there are only two sides to an issue, but no conflict is ever truly just one thing or the other. Even if there are overtly two options, the issue is always more complex. When resolving conflict, it’s almost always possible to find at least one thing the two sides have in common.

Overall, Kelsey’s workshop emphasized the importance of open-mindedness and inclusion in our approach to environmental action in order to bring people together and foster real change. If you’re interested in learning more, click here for a free download of Kelsey’s full presentation.

The New Jersey Watershed Conference, of which Princeton Hydro was a sponsor and exhibitor, also included presentations on topics ranging from urban flooding to microplastics in our waterways to green infrastructure. Dr. Fred Lubnow, Princeton Hydro’s Director of Aquatic Programs, presented on the “Causes and Impacts of Harmful Algal Blooms.” To view the complete agenda, go here.

Princeton Hydro is a proud supporter of The Watershed Institute, a nonprofit organization comprised of policy advocates, scientists, land and water stewards, naturalists, and educators. Focused on the Central New Jersey area, the Watershed Institute speaks out for water and environment, protects and restores sensitive habitats, tests waterways for pollution, and inspires others to care for the natural world. For more information, or to become a member, go here.

Identifying, Understanding and Addressing Harmful Algae Blooms

Harmful Algae Bloom Visible in Owasco Lake. Photo by: Tim Schneider

Harmful Algae Blooms (HABs) were in the spotlight this summer due to the severe impacts they had on lakes throughout the country. The nation-wide HABs outbreak caused beach closures, restricted access to lake usage, and wide-ranging health advisories.

What exactly are HABs? Why were they so severe this summer? Will this trend continue? Can anything be done to prevent the occurrence or mitigate the impacts?

In this blog, we provide answers to all of those questions, exploring what HABs are, why they occur, why they were particularly prevalent this summer, and what we can do to combat them.

What are HABs?

Simply put, HABs are rapid, large overgrowths of cyanobacteria. Cyanobacteria, also known as blue-green algae, aren’t actually algae, they are prokaryotes, single-celled aquatic organisms that are closely related to bacteria and can photosynthesize like algae. These microorganisms are a natural part of aquatic ecosystems, but, under the right conditions (primarily heavy rains, followed by hot, sunny days), these organisms can rapidly increase to form cyanobacteria blooms, also known as HABs.

HABs can cause significant water quality issues in lakes and ponds, often forming a visible and sometimes odorous scum on the surface of the water. They can produce toxins that are incredibly harmful (even deadly) to humans, animals, and aquatic organisms. HABs also negatively impact economic health, especially for communities dependent on the income of jobs and tourism generated through their local lakes and waterways.

What causes HABs?

HABs are caused by a complex set of conditions, and many questions remain about exactly why they occur and how to predict their timing, duration, and toxicity. Primarily, HABs are caused by warmer temperatures and stormwater run-off pollutants, including fertilizers with phosphates.

NY Times article, featuring Princeton Hydro, looks at how climate change affects lakes nationwide, using NJ as an example. Photo by: Rick Loomis, NY Times.HABs are induced by an overabundance of nutrients in the water. The two most common nutrients are fixed nitrogen (nitrates and ammonia) and phosphorus. Discharges from wastewater treatment plants, runoff from agricultural operations, excessive fertilizer use in urban/suburban areas, and stormwater runoff can carry nitrogen and phosphorus into waterways and promote the growth of cyanobacteria.

Climate change is also a factor in HAB outbreaks, which typically occur when there are heavy rains followed by high temperatures and sunshine. Climate change is leading to more frequent, more intense rainstorms that drive run-off pollutants into waterways, coupled with more hot days to warm the water. These are the ideal conditions for HABs, which in recent years have appeared in more places, earlier in the summer.

With climate change and increasing nutrient pollution causing HABs to occur more often and in locations not previously affected, it’s important for us to learn as much as we can about HABs so that we can reduce their harmful effects.

What Can I Do to Prevent HABs?

Signs on the closed beach at Hopatcong State Park warn residents of the Harmful Algae Bloom at Lake Hopatcong on July 2019, in Landing, NJ. (Photo by: Danielle Parhizkaran of NorthJersey.comThe number one thing individuals can do to protect their waterbodies and prevent HABs is to reduce phosphorous use and reduce nutrient loads to waters.

According to Dr. Fred Lubnow, Director of Aquatic Programs for Princeton Hydro, “Managing loads of phosphorous in watersheds is even more important as the East Coast becomes increasingly warmer and wetter thanks to climate change. Climate change will likely need to be dealt with on a national and international scale. But local communities, groups, and individuals can have a real impact in reducing phosphorous levels in local waters.”

Here are a few steps you can take to improve water quality in your community lakes:

Controlling stormwater runoff is another critical factor in improving water quality and reducing HABs. There are a number of low-cost green infrastructure techniques that can be implemented on an individual and community-wide scale. You can read more about green infrastructure stormwater management techniques in our recent blog.

In a recent Op/Ed published on NJ.com, Princeton Hydro President Geoff Goll lists four things that residents, businesses, and local governments should do to prevent another HABs outbreak next summer:

  1. Improve aging “gray” infrastructure
  2. Invest in “green” stormwater infrastructure
  3. Implement regional/watershed-based planning
  4. Pass the Water Quality Protection and Jobs Creation Act

“By making the necessary investments, we can simultaneously create jobs, reduce flood impacts, improve fisheries, maintain or increase lakefront property values, improve water quality and preserve our water-based tourism. The time to act is literally now,” said Geoff. Go here, to read the full article.

HABs Management in Action through Floating Wetland Islands:

Nitrogen and phosphorus are utilized by plants, which means they uptake these nutrients to sustain growth. We see this naturally occurring in wetland ecosystems where wetlands act as a natural water filtration system and can actually thrive from nutrients flowing in from external sources.

This process is replicated in floating wetland islands (FWIs), where you typically have a constructed floating mat with vegetation planted directly into the material. The plants then grow on the island, rooting through the floating mat.

This illustration, created by Staff Scientist Ivy Babson, conveys the functionality of a Floating Wetland Island

This illustration, created by Staff Scientist Ivy Babson, conveys the functionality of a Floating Wetland Island

Not only do FWIs assimilate and remove excess nitrogen and phosphorus out of the water, they also provide habitat for fish and other aquatic organisms; help mitigate wave and wind erosion impacts; provide an aesthetic element; and can be part of a holistic lake/pond management strategy. Because of this, FWIs are being utilized to improve water quality and control HABs in lakes and ponds throughout the country. Princeton Hydro has designed and implemented numerous FWIs in waterbodies large and small. Go here to learn how they’re being used in Harveys Lake.

 

Recognizing and monitoring the changes that are taking place in our local waterways brings the problems of climate change, stormwater pollution and the resulting water quality issues closer to home, which can help raise awareness, inspire environmentally-minded action and promote positive, noticeable change.

If you spot what you believe to be a harmful algae bloom in your community lake, contact your local lake association right away. They, along with their lake management team, can assess the situation and determine what further actions need to be taken.

For more information about harmful algae blooms and water quality management, go here: http://bit.ly/pondlake.

Special thanks to Princeton Hydro Staff Scientist Ivy Babson for her contributions to this blog.

Don’t Get Sunk: Everything You Need to Know About Sinkholes (Part Two)

Sinkhole in Frederick, Maryland. Credit: Randall Orndorff, U.S. Geological Survey. Public domain.

Sinkholes can be quite terrifying. We see them on the news, on television and in movies seemingly appearing out of nowhere, swallowing up cars and creating calamity in towns across the world. In this two-part blog series, our experts uncover the mystery around sinkholes and arm you with the facts you need to make them less scary.

In part one of the blog series, we discuss what a sinkhole is, three different types of sinkholes, and what causes them to form. In this second part, we explore how to detect sinkholes, what to do if you detect a sinkhole, and the steps taken to repair them.

WELCOME TO PART TWO: DON’T GET SUNK: EVERYTHING YOU NEED TO KNOW ABOUT SINKHOLES
How to Detect a Sinkhole:

Cover-collapse sinkholes (outlined in red) in eastern Bullitt County Kentucky. Photo by Bart Davidson, Kentucky Geological Survey.Not all sinkholes are Hollywood-style monstrosities capable of swallowing your whole house. But even a much smaller, less noticeable sinkhole can do its fair share of harm, compromising your foundation and damaging utilities.

Although sinkholes can be scary to think about, you can take comfort in knowing there are ways to detect them, both visually and experimentally. Often, you can spot the effects of a developing sinkhole before you can spot the hole itself. If you live in an area with characteristics common to sinkhole formation (i.e. “karst terrain,” or types of rocks that can easily be dissolved by groundwater), there are some things you can do to check your property for signs of potential sinkhole formation.

According to the American Society of Home Inspectors, there are key signs you should be on the lookout for in and around your home:

Inside:

  • structural cracks in walls and floors;
  • muddy or cloudy well water;
  • interrupted plumbing or electrical service to a building or neighborhood due to damaged utility lines; and
  • doors and windows that don’t close properly, which may be the result of movement of the building’s foundation.

Outside:

  • previously buried items, such as foundations, fence posts, and trees becoming exposed as the ground sinks;
  • localized subsidence or depression anywhere on the property; in other words, an area that has dropped down relative to the surrounding land;
  • gullies and areas of bare soil, which are formed as soil is carried towards the sinkhole;
  • a circular pattern of ground cracks around the sinking area;
  • localized, gradual ground settling;
  • formation of small ponds, as rainfall accumulates in new areas;
  • slumping or falling trees or fence posts; and
  • sudden ground openings or ground settlement, keeping in mind that sudden earth cracking should be interpreted as a very serious risk of sinkhole or earth collapse.
Actions to Take if You Believe You’ve Detected a Sinkhole:

If you spot any of the signs listed above, or you suspect that you have a sinkhole on or near your property, you should contact your township, public works, or the local engineering firm that represents your municipality right away. If you have discovered a sinkhole that is threatening your house or another structure, be sure to get out immediately to avoid a potentially dangerous situation.

Also, it is highly recommended that:

  • Credit: USGSIf a sinkhole expert can’t get to the area relatively quickly, you ensure that kids and animals keep away, fence/rope-off the area while maintaining a far distance away from the actual sinkhole, keeping in mind that doing so requires extreme caution and is always best left to the experts when possible;
  • Notify your neighbors, local Water Management District, and HOA;
  • Take photos to document the site;
  • Remove trash and debris from around the suspected area in order; and
  • Keep detailed records of all the actions you took.

If you’re trying to determine whether or not you have a sinkhole on your property, there are a few physical tests that can be conducted to determine the best course of action.

In Australia, a courtyard formed a sinkhole. Credit: Earth-Chronicles.comElectro-resistivity testing: This extremely technical test can best be summed up by saying it uses electrodes to determine the conductivity of the soil. Since electricity can’t pass through air, this test shows any pockets where the current didn’t pass through. This is a fairly accurate way to determine if there is a sinkhole and where it is.

Micro-gravity testing: Another incredibly technical method, this test uses sensors that detect the measure of gravity. Since the gravitational pull in a given area should be the same, you can see if there are minute differences in the measurement. If there is a difference, then it’s likely that you have a sinkhole in that area.

If you are still unsure whether or not you live in a sinkhole risk area, you can check with your local, territorial, or national government offices; review geological surveys such as the United States Geological Survey (USGS); and contact an expert.

How a Sinkhole is Repaired?

There are three main techniques experts utilize to repair sinkholes. The type of sinkhole and landowner’s aesthetic preferences determine the methodology used to repair the sinkhole.

The three common methods are:

  1. Inject grout with a drill rig: This uses a piece of large drilling equipment that pierces the ground and goes down into the sinkhole, injecting it with grout/concrete. This method stops the filling of the carbonate crack with sediment since concrete and grout do not break down into such small particles (no piping).
  2. Inverted cone: With this method, the construction crew digs down and finds the bowl-shaped opening. They then open up the surface so that the entire sinkhole area is exposed. To stop the draining of sediment into the crack in the carbonate rock, they fill the hole with bigger rocks first, then gradually fill in the seams with smaller rocks until the sinkhole is plugged.
  3. Filling it with concrete/grout from the surface: This is a combination of the prior two methods. The construction crew opens the surface all the way up so the entire hole is exposed. Then, they bring in a big concrete pourer and fill the sinkhole with concrete.

Missouri Dept of Natural Resources, Inverted cone repair sinkhole mitigation diagram

Our engineers regularly go out in the field to oversee and inspect sinkhole repairs. If you detect a sinkhole, or what might be a sinkhole, on your property, our experts strongly advise immediate actions be taken. Ignoring a sinkhole will only cause it to get larger and more dangerous as time passes, and putting topsoil over a sinkhole will only exacerbate the symptoms.

What Can You Do to Prepare for a Sinkhole?

While there’s really no way to prevent a sinkhole, you can never be too prepared! Here are three easy steps you can take to determine if you live in or around a sinkhole-prone area and what to do in the event of a surprise sinkhole:

  1. Find out whether or not you’re living in one of the sinkhole-prone states, which includes Pennsylvania, Texas, Florida, Alabama, Tennessee, and Missouri. You can do so by visiting USGS.com and searching for Bedrock Geology maps of your area. If your town is underlain by carbonate rocks, you are likely in a sink-hole prone area.
  2. Contact an engineer who’s certified to deal with sinkholes to determine if your property is at-risk.
  3. Develop a plan for what to do in the event of a sinkhole. Do you grab your family, pets, and leave immediately? Do you have a safe zone somewhere near (but not too near) your property? Do you have the appropriate emergency contact numbers in your phone? Does your car have a safety kit? These are some of the things to consider when making your emergency plan.
  4. Speak with your insurance company to see if they have sinkhole coverage, especially if you live in an area where they’re known to occur.

Although scary, sinkholes are a manageable threat if you’re informed and prepared. After all, it is possible to do something about sinkholes – if they can be detected in time.

Special thanks to Princeton Hydro Staff Engineer Stephen Duda, Geologist Marshall Thomas, and Communications Intern Rebecca Burrell for their assistance in developing this blog series.

Revisit Part One of this blog series in which we provide a detailed look at what a sinkhole is, three different types of sinkholes, and what causes them to form:

Don’t Get Sunk: Everything You Need to Know About Sinkholes (Part One)

Delaware River Watershed Forum Participants Tour Musconetcong River Dam Removals

The 7th Annual Delaware River Watershed Forum, a two-day conference hosted by The Coalition for the Delaware River Watershed, brought together organizations, consultants, and individuals spanning the four watershed states of PA, NY, NJ, and DE. This year’s Forum included presentations, interactive discussions, capacity-building workshops, and site visits that highlighted local conservation projects.

One of the site visits, led by Musconetcong Watershed Association (MWA) Executive Director Alan Hunt, toured dam removal sites along the Musconetcong River. The field trip visited the Finesville Historic District, where a dam was removed in 2012, and the village of Warren Glen, where the Hughesville dam was removed in 2016. Trip participants heard from project partners including Princeton Hydro President Geoff Goll, P.E., Beth Styler Barry of New Jersey Nature Conservancy,  Dale Bentz of RiverLogic Solutions, Beth Frieday of U.S. Fish and Wildlife Service, Jacob Helminiak of U.S Army Corps of Engineers, and Christine Hall of USDA Natural Resources Conservation Service.

“We really appreciate everyone who, despite the rainy weather, participated in the Musconetcong River Restoration field trip to learn about how dam removals are helping to restore the river back to it’s natural free-flowing state and the numerous resulting environmental benefits,” said Geoff. “This river restoration work exemplifies how a diverse group of public and private entities can work together to overcome challenges and achieve tremendous success.”

Princeton Hydro President Geoff Goll, P.E. provides field trip participants with information about the Hughesville Dam removal project and the adaptive management work currently happening at the site.Princeton Hydro has been working with MWA in the areas of river restoration, dam removal, and engineering consulting since 2003, when the efforts to remove the Gruendyke Mill Dam in Hackettstown, NJ began. To date, Princeton Hydro has investigated, designed, and permitted five dam removals along the Musconetcong River, the most recent being the Hughesville Dam. This 16’ dam was removed in 2016 and, one year later in 2017, American Shad returned to the site for the first time in at least 100 years, and the removal was credited by the State as a contributing factor for the increase in Delaware River shad population. There is an ongoing project to monitor fishery and aquatic habitat recovery at the site. The next Musconetcong dam targeted for removal is the 32-foot high Warren Glen Dam. It is the largest dam in the river; by comparison, the Hughesville Dam was 15-feet tall.

The Coalition for the Delaware River Watershed was formed in 2012, the Coalition works to raise awareness of the river and its surrounding landscape by bringing together groups already working to restore degraded resources, safeguard vulnerable assets, and educate their communities. The Coalition is committed to protecting and restoring the Delaware River, its tributaries, and more than 13,500 square miles of forests, wetlands, communities, and other distinctive landscapes in the watershed so that clean water and valued resources are secured for generations to come.

MWA is an independent, non-profit organization dedicated to protecting and improving the quality of the Musconetcong River and its Watershed, including its natural and cultural resources. Members of the organization are part of a network of individuals, families and companies that care about the Musconetcong River and its Watershed, and are dedicated to improving the watershed resources through public education and awareness programs, river water quality monitoring, promotion of sustainable land management practices and community involvement.

Princeton Hydro has designed, permitted, and overseen the reconstruction, repair, and removal of dozens of small and large dams in the Northeast. To learn more about our fish passage and dam removal engineering services, visit: bit.ly/DamBarrier. To learn more about our Musconetcong River restoration work, go here:

The Return of the American Shad to the Musconetcong River