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An ambitious project is underway to eradicate the invasive Silty Pond Mussel (formerly known as the Chinese pond mussel, Sinanodonta woodiana) from the Wickecheoke Creek Preserve in New Jersey. This critical initiative seeks to protect local ecosystems, safeguard native aquatic species, and prevent the spread of these aggressive invaders into the broader Delaware River ecosystem.


[caption id="attachment_16006" align="alignright" width="394"] Provided by NJ Conservation Foundation[/caption]
The Silty Pond Mussel was first discovered in the United States in 2010 at a former fish farm in Hunterdon County, now part of NJ Conservation Foundation’s Wickecheoke Creek Preserve. It is believed the mussels arrived as glochidia (a microscopic larval stage of some freshwater mussels) attached to the gills of bighead carp, another invasive species imported from China by the farm's previous owners. Initially overlooked and undocumented in North America, the mussels quickly established a foothold in the Preserve's ponds, threatening local ecosystems.
These invasive mussels, which can grow to the size of a small football, form high-density colonies that pose a severe threat to native organisms. This aggressive species outcompetes native mussels for nutrients and habitat, altering water chemistry in the process and drastically depleting the local ecosystem of resources essential to native plants and animals. Additionally, once the Silty Pond Mussel glochidia attach to the gills of native fish, a biological reaction occurs that ultimately kills the host fish thus preventing native mussels from completing their own life cycle on these fish hosts. This dual impact — monopolizing food and habitat resources as adults while denying native mussels access to necessary host fish — makes the Silty Pond Mussel especially harmful to local ecosystems.
Following the initial discovery, DNA testing conducted by the NJ Invasive Species Strike Team, New Jersey Endangered & Nongame Species Program, and the North Carolina State Museum of Natural Sciences confirmed the presence of this invasive species, marking the first documentation of the Silty Pond Mussel in North America. Early eradication efforts began shortly thereafter.
Since 2019, a coalition of partners has expanded these efforts and remained committed to the complete eradication of the Silty Pond Mussel species. Led by NJDEP Fish & Wildlife and including organizations such as tthe U.S. Fish & Wildlife Service, NJ Conservation Foundation, Rutgers University, NJ Water Supply Authority, U.S. Department of the Interior's Office of Restoration and Damage Assessment (ORDA) and Princeton Hydro, the project has focused on surveying waterways using SCUBA, snorkel and physical analysis; utilizing environmental DNA (eDNA) testing to detect the presence of mussels in a waterbody; and applying targeted treatments. Community engagement and education are also central to these efforts, emphasizing the importance of collaboration in tackling this ecological threat.
Geoffrey M. Goll, P.E., President of Princeton Hydro, emphasized the collaborative nature of the efforts: "This initiative exemplifies the power of partnership and innovation in tackling environmental challenges. Together, we are making significant strides in preserving our state's rich biodiversity."




Protecting Biodiversity and Partnering for Eradication
The Wickecheoke Creek Preserve, home to nearly 400 native plant species and a wide variety of wildlife, includes 14 miles of streams and flows directly into the D&R Canal, which supplies clean drinking water to one million New Jersey residents. New Jersey is also home to 12 native freshwater mussel species, nine of which are classified as Endangered, Threatened, or of Special Concern, further underscoring the the urgency of preventing this aggressive invasive species from spreading. Left unchecked, the Silty Pond Mussel could disrupt one of the most biodiverse freshwater regions in the country and cause significant ecological harm. Swift action to address this invasive species is essential to protecting the Wickecheoke Creek Preserve, safeguarding native species, and preserving the health of the Delaware River watershed.
Each project partner plays an essential roles in the eradication process. Rutgers University is performing the environmental DNA (eDNA) monitoring and analyzing the results. Princeton Hydro is applying targeted treatments to the ponds where the mussels were initially detected, and, if eDNA or physical sampling reveals signs of the mussels in other water bodies, the team will extend these treatments accordingly. Using a highly specialized approach, Princeton Hydro’s licensed applicators have partnered with SePRO to apply Natrix, an EPA-registered pesticide developed specifically for managing invasive mollusk populations. The 2024 phase of the project has incorporated significant advancements in treatment design. The team’s strategy is both preventative and responsive. The project has garnered financial support from the U.S. Fish and Wildlife Service and the Delaware River Greenway Partnership through the Lower Delaware Wild and Scenic Program.


[gallery link="none" ids="16013,16011,16010"]
In addition to treatment, Princeton Hydro is focused on rigorous documentation and educational outreach. “It’s important for us to record every aspect of this project, not only from a scientific perspective but also for public education,” said the Princeton Hydro Director of Marketing & Communications Dana Patterson Grear. “We want to ensure this species is contained here and prevented from spreading throughout New Jersey or, worse, across the United States.” As part of these efforts, Princeton Hydro aims to share detailed information on the Silty Pond Mussel’s characteristics and identification markers. “By educating communities and environmental stakeholders on what to look for, we hope to empower rapid responses in other areas, should the species appear elsewhere,” said Patterson Grear.




Dive Deeper: Watch the Video on Eradication Efforts
As part of the project's commitment to transparency and education, New Jersey DEP Fish & Wildlife created a detailed video to showcase the silty pond mussel eradication and identification efforts. This video delves deeper into the techniques and collaborative approaches being used to address the invasive species. We encourage you to watch the video to gain a comprehensive understanding of the challenges faced and the innovative strategies employed in this groundbreaking effort.
[embed]https://www.youtube.com/watch?v=qplXLi5tOPY[/embed]


To learn more about invasive species, obtain practical tips for identifying and managing invasives, and take actions to help protect our local ecosystems, click here to check out our recent blog.
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The Horseshoe Mill Dam, built in 1827, served as the first barrier to fish passage on the Weweantic River in Wareham, Massachusetts. For over 150 years, migratory fish were unable to reach their breeding grounds upstream due to this structure. However, thanks to the efforts of the Buzzards Bay Coalition and its project partners, the dam was successfully removed between December 2019 and February 2021. As early as April 2021, migratory fish were seen swimming unimpeded from Buzzards Bay to lay their eggs in freshwater upstream. A true success story!
This blog explores the Horseshoe Mill Dam removal project and celebrates the significant milestone in the recovery of fish populations and the restoration of ecological processes in the Weweantic River.




A Brief History
The Weweantic River winds its way through the picturesque landscapes of southeastern Massachusetts, spanning a length of 17.0 miles. This land is the traditional territory of the Wampanoag/Wôpanâak tribes. Derived from the Wampanoag language, Weweantic means "crooked" or "wandering stream."
Originating from the wetlands in Carver, the river flows in a southerly direction meandering through swampy birch and maple forests in Middleborough and Rochester. Eventually, it empties into a Buzzards Bay estuary near the mouth of the Sippican River in Wareham. The river's watershed covers approximately 18,000 acres, with numerous cranberry bogs situated in its upper sections.
Although the Weweantic River historically teemed with fish, the presence of the Horseshoe Mill Dam posed an obstacle to fish passage. The dam, spanning the Weweantic River at the head-of-tide, was built in 1827 to support a metal forge mill. Although it was once part of the infrastructure that supported Wareham’s economy, it had been decommissioned and left crumbling for decades. The defunct dam restricted to tidal inundation, hindered the migration of important fish species, and impacted riverine ecological processes.




Ecological Importance of the Weweantic River
The Weweantic River is the largest tributary to Buzzards Bay and provides 20 percent of all freshwater flow into Buzzards Bay. The meeting of salinity and nutrients through the tidal flow creates a vibrant ecosystem. It supports diverse communities of wetland species and a variety of non-migratory and migratory fish species, including river herring, white perch, and American eel. It is also home to the southernmost population of rainbow smelt in the United States, marking a significant change from a century ago when rainbow smelt were found as far south as the Chesapeake Bay. In the 1960s, smelt populations were even present in the Hudson River in New York.
Further highlighting the ecological significance of the Weweantic River and its surrounding watershed are the unique tidal freshwater wetland plant communities. The wetland areas surrounding the Horseshoe Mill Dam site contained two rare wetland plants, Parker's Pipewort (Eriocaulon parkeri) and Pygmyweed (Crassula aquatica), both of which are designated as priority habitats for rare species.
[gallery columns="2" size="medium" link="none" ids="14279,14281"]
Additionally, situated along the shore of Buzzards Bay and the Weweantic River is the Cromeset Neck & Mark's Cove Marsh Wildlife Sanctuary. The 47-acre wildlife sanctuary consists of three separate parcels within one mile of each other. Salt marsh comprises most of the wildlife sanctuary, and the property also contains approximately six contiguous acres of coastal woodland.




Restoration Efforts and Project Phases
The Horseshoe Mill Dam removal project involved several phases to achieve its restoration goals.
An inspection of the dam, conducted in 2009, rated its condition as unsatisfactory and noted significant concrete deterioration and erosion. The dam also included a former concrete-walled mill race that was in a state of disrepair, with collapsed walls and obstructed channels. The Buzzards Bay Coalition acquired the 10-acre Horseshoe Mill Dam property in 2012 to preserve it, provide public access, and pursue river restoration.
In 2016, the Buzzards Bay Coalition contracted Princeton Hydro to provide an Alternatives Analysis for the Weweantic River restoration project and a Fish Passage Feasibility Study for the dam. The analysis included a thorough site investigation, historical data review, sediment evaluation, hydrologic and hydraulic analysis, and ecological assessment. The five options considered in the analysis were:


 	
No action;
 	
Structural dam repair with a fish ladder;
 	
Dam lowering with a nature-like fishway;
 	
Partial dam removal with an extended riffle; or
 	
Complete dam removal.

The analysis ultimately helped the Buzzards Bay Coalition determine that a complete dam removal offered the most favorable ecological and economic outcomes.


[caption id="attachment_12821" align="aligncenter" width="789"] The removal of Horseshoe Mill Dam commences on a snowy day in December 2019.[/caption]

 
Princeton Hydro, contracted by the Buzzards Bay Coalition, provided site investigation, engineering design, permitting, and construction oversight services for the dam removal. With funding from the Bouchard 120 Natural Resource Damage Trustee Council and collaboration with various agencies, including the U.S. Fish and Wildlife Service and NOAA, the dam removal commenced in December 2019 and was successfully completed in early 2021. Just months later in April 2021, for the first time in 150+ years, migratory fish were once again spotted swimming unimpeded from Buzzards Bay to lay their eggs in freshwater upstream.
Since the completion of the dam removal, Buzzards Bay Coalition Restoration Ecologist Sara da Silva Quintal has been consistently visiting the site and monitoring the positive changes taking place. Her observations include vegetation changes, signs of migratory fish spawning, and the geomorphic evolution of the landscape. She shared a series of Nearmap images that demonstrate how the landscape is positively adjusting to the barrier removal:






Celebrating Conservation Success
The completion of the Horseshoe Mill Dam removal project marks a significant achievement in the restoration of fish passage and the preservation of ecological function in the Weweantic River. Through the collaborative efforts of the Buzzards Bay Coalition, government agencies, and project partners, migratory fish can now freely swim upstream to their breeding grounds.
The restoration effort rejuvenated more than three miles of the Weweantic River and restored migratory fish passage. The dam removal enhanced riverine, wetland, and tidal habitat critical to a diverse group of aquatic, wildlife and plant species. It allowed for the natural extension of upriver habitat for two rare tidal plant species, ensuring their long-term survival. The restoration work also enhanced public access to the area by increasing walking trails and constructing canoe/kayak launches, promoting recreational opportunities, and fostering a deeper connection between people and the river.


[caption id="attachment_12824" align="aligncenter" width="710"] Photo taken on November 2022[/caption]

 
In an article written by Kasey Silvia in November 2021, the Vice President for Watershed Protection at Buzzards Bay Coalition, Brendan Annett, was quoted as saying, “Removing this dam has immediately improved the natural functions of the Weweantic, undoing many years of environmental damage and it has already begun to bring the river back to life.”
The success of this project serves as a testament to the importance of collaborative conservation efforts in safeguarding and restoring our natural resources.




Princeton Hydro is a leader in dam removal in the Northeast, having designed and removed 80 dams. To view additional dam removal projects that we have completed, click here. For more information on our dam removal services, contact us here.
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Lake Hopatcong Commission partnered with Lake Hopatcong Foundation, with in-kind contributions from the NJDEP, municipal governments, Morris and Sussex Counties, Musconetcong Watershed Association, Lake Hopatcong Historical Museum, Rutgers University, NJ Highlands Council, and Princeton Hydro, to address three priority streambank stabilization projects within the Upper Musconetcong River Watershed.







The National Fish and Wildlife Foundation (NFWF) today announced that the Lake Hopatcong Commission would receive $480,650 through the Delaware Watershed Conservation Fund (DWCF). The DWCF aims to conserve and restore natural areas, corridors, and waterways on public and private lands to support native migratory and resident wildlife and fish, and native plants; and to contribute to the social health and economic vitality of the communities in the Delaware River watershed. Major funding for the DWCF is provided by the U.S. Fish and Wildlife Service.







“It’s great to see funding awarded to the Upper Musconetcong River Watershed at the federal level. The Commission was created to promote public health and welfare through the preservation of Lake Hopatcong for recreational and conservation purposes. These projects are consistent with our organizational goals and will enhance water quality and recreational access within the watershed,” said Ron Smith, Chairman of the Lake Hopatcong Commission.







The grant will fund the design and implementation of three streambank stabilization projects, identified as priority projects in the 2021 Upper Musconetcong River Watershed Implementation Plan as prepared by Princeton Hydro for the Lake Hopatcong Commission. They will address important stormwater issues that had been previously identified.  The projects are:





Musconetcong River Streambank Stabilization and Floodplain Enhancement in Hopatcong State Park (Roxbury Township). This portion of the Musconetcong River at Lake Hopatcong’s outlet has been identified as having serious stormwater and flooding issues. An approximate four-acre section of streambank will be restored and stabilized. As part of this effort, invasive species will be eradicated and the existing floodplain rehabilitated through the establishment of native vegetation.
Glen Brook Streambank Stabilization in Memorial Park (Borough of Mount Arlington). Glen Brook is a major stream entering Lake Hopatcong at Mount Arlington Beach. It is a significant source of stormwater runoff and has been identified as having a negative impact on water quality. Approximately 75 linear feet of Glen Brook immediately downstream of Memorial Pond will be regraded and vegetated to naturally treat runoff into the lake.
Lakefront Public Access & Regenerative Stormwater Conveyance at Witten Park (Borough of Hopatcong). Witten Park, a forgotten public area, will be restored and serious stormwater issues will be addressed. The severely eroded Sperry Spring, which feeds Lake Hopatcong, will be rehabilitated and a regenerative stormwater conveyance will be installed. This device will convey and treat stormwater runoff down a naturally occurring slope, reconnecting it to the original floodplain. 















“Environmental impacts associated with development pressure in the upper Musconetcong Watershed around Lake Hopatcong have contributed to reduced water quality. By implementing these projects, we will be able to continue our efforts to improve water quality by reducing phosphorus and sediment entering Lake Hopatcong and the Musconetcong River all while enhancing local wildlife habitat and increasing recreational access around New Jersey’s largest lake,” said Kyle Richter, Executive Director, Lake Hopatcong Foundation.







The grant application requested $480,650 from the DWCF with a combined local in-kind match of more than $489,000 from the Lake Hopatcong Commission, Lake Hopatcong Foundation, NJ Department of Environmental Protection, Borough of Hopatcong, Township of Roxbury, Mount Arlington Borough, Morris and Sussex Counties, the Musconetcong Watershed Association, Lake Hopatcong Historical Museum, Rutgers University, NJ Highlands Council, and Princeton Hydro. This is the first grant that has been awarded to the Lake Hopatcong Commission from NFWF.







“Lakes in the Upper Musconetcong Watershed, like Lake Hopatcong and Lake Musconetcong, have experienced degraded water quality and unprecedented harmful algal blooms from excessive nutrients in stormwater runoff and aging septic systems. We are proud to partner with Lake Hopatcong Commission, Lake Hopatcong Foundation, and local stakeholders on this multi-site stream stabilization project to reduce nutrient runoff, enhance wildlife habitat, and improve public access in the watershed,” said Dr. Fred Lubnow, Director of Aquatic Resources at Princeton Hydro.















To learn more about The Lake Hopatcong Commission, visit lakehopatcongcommission.org. To learn more about The Lake Hopatcong Foundation, visit lakehopatcongfoundation.org and check out our recent blog. To learn more about Princeton Hydro's natural resource management services, visit princetonhydro.com.

                    [post_title] => NFWF Awards $480,650 Grant For Streambank Stabilization Projects in the Upper Musconetcong River Watershed
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Non-native Phragmites australis, also known as Common Reed, is a species of perennial grass found across North America, especially along the Atlantic coast, in wetlands, riparian areas, shorelines, and other wet areas like roadside ditches and drainage basins. This aggressively invasive grass can grow up to 20 feet tall, in dense groupings, and tends to spread rapidly, quickly colonizing disturbed wetlands.
[gallery link="none" ids="17789,7821,7345"]
Once established, the invasive plant forms a monoculture with a dense mat, outcompeting native vegetation, lowering the local plant biodiversity, and displacing native animals. These landscape changes impair the natural function of the marsh ecosystem by altering its elevations and tidal reach. A higher, drier marsh leads to less vigorous growth of native salt marsh vegetation, allowing Phragmites australis to gain a stronger foothold and continue to take over.
Phragmites australis can also eliminate small, intertidal channels and obliterate pool habitat that offers natural refuge and feeding grounds for invertebrates, fish, and birds. The spread of invasive Phragmites australis also has negative impacts on land aesthetics and outdoor recreation by obscuring views and restricting access. And, each Fall, when Phragmites australis die off, the large concentrations of dry vegetation increase the risk of fast-spreading fires near highly populated residential and commercial areas.
Over the last century, there has been a dramatic increase in the spread of Phragmites australis, partly due to an increase in residential and commercial development that resulted in disturbances to wetlands. According to the U.S. Fish and Wildlife Service, the rapid spread of Phragmites australis in the 20th century can also be attributed to the construction of railroads and major roadways, habitat disturbance, shoreline development, pollution, and eutrophication.
Princeton Hydro has worked in areas throughout the East Coast to address and properly manage Phragmites australis in order to restore natural habitats and enhance plant diversity, wildlife habitat, and water quality. Two recent projects include the restoration of John A. Roebling Memorial Park in Hamilton and Pin Oak Forest Conservation Area in Woodbridge, New Jersey.




John A. Roebling Memorial Park

Mercer County’s John A. Roebling Memorial Park is home to the northernmost freshwater tidal marsh on the Delaware River, the Abbott Marshlands, an area containing valuable habitat for many rare species. Unfortunately, the area experienced a significant amount of loss and degradation, partially due to the introduction of the invasive Phragmites australis.
For Mercer County Park Commission, Princeton Hydro put together a plan to reduce and control the Phragmites australis, in order to increase biodiversity, improve recreational opportunities, and enhance visitor experience at the park. This stewardship project replaced the Phragmites australis with native species in order to reduce its ability to recolonize the marsh.
By Spring of this year, the team expects to see native species dominating the landscape from the newly exposed native seed bank with minimal Phragmites australis growth.




Pin Oak Forest Conservation Area
The Pin Oak Forest Conservation Area is a 97-acre tract of open space that contains an extremely valuable wetland complex at the headwaters of Woodbridge Creek. The site is located in a heavily developed landscape of northern New Jersey. As such, the area suffered from wetland and stream channel degradation, habitat fragmentation, ecological impairment, and decreased biodiversity due to invasive species, including Phragmites australis.
The site was viewed as one of only a few large-scale freshwater wetland restoration opportunities remaining in this highly developed region of New Jersey. A dynamic partnership between government agencies, NGOs, and private industry, was formed to restore the natural function of the wetlands complex, transform the Pin Oak Forest site into thriving habitat teeming with wildlife, and steward this property back to life.
This award-winning restoration project converted over 30 acres of degraded freshwater wetlands, streams and disturbed uplands dominated by invasive species into a species-rich and highly functional headwater wetland complex. The resulting ecosystem provides valuable habitat for wildlife including the state-threatened Black-crowned Night-heron and Red-headed Woodpecker. Biodiversity was also increased through invasive species management, which allowed establishment of native plants such as pin oak, swamp white oak, marsh hibiscus, and swamp rose. The restored headwater wetland system provides stormwater management, floodplain storage, enhanced groundwater recharge onsite, and surface water flows to Woodbridge Creek, as well as public hiking trails, all benefiting the town of Woodbridge.




Managing and Monitoring Phragmites
Scientific field research continues to be conducted in order to identify the best way(s) to manage and control the spread of Phragmites australis. Depending on the landscape and how established the Phragmites australis population is, there are several different methods that can be effective in reducing Phragmites australis infestations in order to allow for the regeneration of native wetland plant communities and protect fish and wildlife habitat.
Recently, a group of more than 280 scientists, resource managers and policy professionals gathered together at the Hudson River Estuary Program’s (HEP) annual conference to explore how natural and nature-based solutions (i.e. building living shorelines, enhancing tidal wetlands and stream corridors, and conserving vulnerable floodplains) can be used as critical tools for addressing the impacts of climate change while also protecting and enhancing critical habitat.
The conference included six interactive workshops and dynamic panel discussions. Christiana Pollack, CERP, GISP, CFM of Princeton Hydro, Terry Doss of New Jersey Sports and Exposition Authority, Kip Stein from New York City Parks, and Judith Weis of Rutgers lead a panel discussion, moderated by Lisa Baron from U.S. Army Corps Engineers, on "The Yin and Yang of Estuarine Phragmites Management" to share lessons learned over many years of combating invasive species, including how sea level rise is changing minds and techniques.
Together, representing decades of experience in Phragmites australis management and research, these experts presented the evolving nature of restoration for this habitat type, common control/management methodologies, and long-term management and monitoring strategies for this reed and other invasive species. During the panel discussion, Christiana made specific mention of the Roebling Park project as one example of successful strategies in action.
If you’re interested in learning more and seeing photos from a few recent Phragmites australis management projects, click below for a free download of Christiana’s full presentation.



Through a combination of prevention, early detection, eradication, restoration, research and outreach, we can protect our native landscapes and reduce the spread of invasive species. Click here to learn more about how invasive species disrupt our ecosystems, why managing them is so important, and the cutting-edge tools and innovative techniques helping to eradicate invasives and restore balance to delicate ecosystems.
 

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Freshwater mussels are among the oldest living and second most diverse organisms on Earth with over 1,000 recognized species. Here in the eastern part of the U.S., we have more species of freshwater mussels than anywhere in the world. Unfortunately, freshwater mussels are one of the most rapidly declining animal groups in North America. Out of the 300 species and subspecies found on the continent, 70 (23%) have been federally listed as "Threatened" or "Endangered" under the Endangered Species Act. And, in the last century, over 30 species have become permanently extinct. So, why are populations declining so fast?

Freshwater mussels are filter feeders and process large volumes of the water they live in to obtain food. This means of survival also makes them highly susceptible to industrial and agricultural water pollution.  Because they are constantly filtering water, the contaminants and pathogens that are present are absorbed into the mussel’s tissues. As such, mussels are good indicators of water quality and can greatly contribute to improving water quality by filtering algae, bacteria and organic matter from the water column.

Not only do freshwater mussels rely on water quality, they are dependent on fish and other aquatic organisms for reproductive success. In order for a freshwater mussel to complete the reproduction process, it must “infect” a host fish with its larvae. The method depends on the specie of mussel. Some species lure fish using highly modified and evolved appendages that mimic prey. When a fish goes into investigate the lures, the female mussel releases fertilized eggs that attach to the fish, becoming temporarily parasitic. Once the host fish is infected, it can transfer the mussel larvae upstream and into new areas of the river.
Both habitat loss from dam construction and the introduction of pesticides into the water supply has contributed to the decline of freshwater mussels. With approximately 300 mussel species in the U.S. alone, a critical component of restoring and revitalizing mussel populations is truly understanding their biology, which begins with the ability to properly differentiate each species and properly identify and catalog them. Princeton Hydro’s Senior Scientist Evan Kwityn, CLP and Aquatic Ecologist Jesse Smith recently completed the U.S. Fish and Wildlife Service's Fresh Water Mussel Identification Training at the National Conservation Training Center in West Virginia.

Through hands-on laboratory training, Evan and Jesse developed their freshwater mussel identification skills and their knowledge of freshwater mussel species biology. Course participants were tasked with mastering approximately 100 of the most common freshwater mussel species in the United States. They also learned about proper freshwater mussel collection labeling, the internal and external anatomy and meristics of a freshwater mussel, and distributional maps as an aid to freshwater mussel identification.
 



 
In a recently published press release, Tierra Curry, a senior scientist with the Center for Biological Diversity was quoted as saying, “The health of freshwater mussels directly reflects river health, so protecting the places where these mussels live will help all of us who rely on clean water. This is especially important now, when we see growing threats to clean water from climate change, agriculture and other sources.”
Princeton Hydro is committed to protecting water quality, restoring habitats, and managing natural resources. Read about some of our recent projects and contact us to discuss how we can help you.
To learn more about freshwater mussels, check out this video from U.S. Fish and Wildlife Service:
[embed]https://youtu.be/OWjlwfx67eY?si=YLCmgt2Ry0GiQ6BQ[/embed]

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An ambitious project is underway to eradicate the invasive Silty Pond Mussel (formerly known as the Chinese pond mussel, Sinanodonta woodiana) from the Wickecheoke Creek Preserve in New Jersey. This critical initiative seeks to protect local ecosystems, safeguard native aquatic species, and prevent the spread of these aggressive invaders into the broader Delaware River ecosystem.


[caption id="attachment_16006" align="alignright" width="394"] Provided by NJ Conservation Foundation[/caption]
The Silty Pond Mussel was first discovered in the United States in 2010 at a former fish farm in Hunterdon County, now part of NJ Conservation Foundation’s Wickecheoke Creek Preserve. It is believed the mussels arrived as glochidia (a microscopic larval stage of some freshwater mussels) attached to the gills of bighead carp, another invasive species imported from China by the farm's previous owners. Initially overlooked and undocumented in North America, the mussels quickly established a foothold in the Preserve's ponds, threatening local ecosystems.
These invasive mussels, which can grow to the size of a small football, form high-density colonies that pose a severe threat to native organisms. This aggressive species outcompetes native mussels for nutrients and habitat, altering water chemistry in the process and drastically depleting the local ecosystem of resources essential to native plants and animals. Additionally, once the Silty Pond Mussel glochidia attach to the gills of native fish, a biological reaction occurs that ultimately kills the host fish thus preventing native mussels from completing their own life cycle on these fish hosts. This dual impact — monopolizing food and habitat resources as adults while denying native mussels access to necessary host fish — makes the Silty Pond Mussel especially harmful to local ecosystems.
Following the initial discovery, DNA testing conducted by the NJ Invasive Species Strike Team, New Jersey Endangered & Nongame Species Program, and the North Carolina State Museum of Natural Sciences confirmed the presence of this invasive species, marking the first documentation of the Silty Pond Mussel in North America. Early eradication efforts began shortly thereafter.
Since 2019, a coalition of partners has expanded these efforts and remained committed to the complete eradication of the Silty Pond Mussel species. Led by NJDEP Fish & Wildlife and including organizations such as tthe U.S. Fish & Wildlife Service, NJ Conservation Foundation, Rutgers University, NJ Water Supply Authority, U.S. Department of the Interior's Office of Restoration and Damage Assessment (ORDA) and Princeton Hydro, the project has focused on surveying waterways using SCUBA, snorkel and physical analysis; utilizing environmental DNA (eDNA) testing to detect the presence of mussels in a waterbody; and applying targeted treatments. Community engagement and education are also central to these efforts, emphasizing the importance of collaboration in tackling this ecological threat.
Geoffrey M. Goll, P.E., President of Princeton Hydro, emphasized the collaborative nature of the efforts: "This initiative exemplifies the power of partnership and innovation in tackling environmental challenges. Together, we are making significant strides in preserving our state's rich biodiversity."




Protecting Biodiversity and Partnering for Eradication
The Wickecheoke Creek Preserve, home to nearly 400 native plant species and a wide variety of wildlife, includes 14 miles of streams and flows directly into the D&R Canal, which supplies clean drinking water to one million New Jersey residents. New Jersey is also home to 12 native freshwater mussel species, nine of which are classified as Endangered, Threatened, or of Special Concern, further underscoring the the urgency of preventing this aggressive invasive species from spreading. Left unchecked, the Silty Pond Mussel could disrupt one of the most biodiverse freshwater regions in the country and cause significant ecological harm. Swift action to address this invasive species is essential to protecting the Wickecheoke Creek Preserve, safeguarding native species, and preserving the health of the Delaware River watershed.
Each project partner plays an essential roles in the eradication process. Rutgers University is performing the environmental DNA (eDNA) monitoring and analyzing the results. Princeton Hydro is applying targeted treatments to the ponds where the mussels were initially detected, and, if eDNA or physical sampling reveals signs of the mussels in other water bodies, the team will extend these treatments accordingly. Using a highly specialized approach, Princeton Hydro’s licensed applicators have partnered with SePRO to apply Natrix, an EPA-registered pesticide developed specifically for managing invasive mollusk populations. The 2024 phase of the project has incorporated significant advancements in treatment design. The team’s strategy is both preventative and responsive. The project has garnered financial support from the U.S. Fish and Wildlife Service and the Delaware River Greenway Partnership through the Lower Delaware Wild and Scenic Program.


[gallery link="none" ids="16013,16011,16010"]
In addition to treatment, Princeton Hydro is focused on rigorous documentation and educational outreach. “It’s important for us to record every aspect of this project, not only from a scientific perspective but also for public education,” said the Princeton Hydro Director of Marketing & Communications Dana Patterson Grear. “We want to ensure this species is contained here and prevented from spreading throughout New Jersey or, worse, across the United States.” As part of these efforts, Princeton Hydro aims to share detailed information on the Silty Pond Mussel’s characteristics and identification markers. “By educating communities and environmental stakeholders on what to look for, we hope to empower rapid responses in other areas, should the species appear elsewhere,” said Patterson Grear.




Dive Deeper: Watch the Video on Eradication Efforts
As part of the project's commitment to transparency and education, New Jersey DEP Fish & Wildlife created a detailed video to showcase the silty pond mussel eradication and identification efforts. This video delves deeper into the techniques and collaborative approaches being used to address the invasive species. We encourage you to watch the video to gain a comprehensive understanding of the challenges faced and the innovative strategies employed in this groundbreaking effort.
[embed]https://www.youtube.com/watch?v=qplXLi5tOPY[/embed]


To learn more about invasive species, obtain practical tips for identifying and managing invasives, and take actions to help protect our local ecosystems, click here to check out our recent blog.
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