Sediment Testing on the St. Lawrence Seaway

Way up in Northern New York, the St. Lawrence River splits the state’s North Country region and Canada, historically acting as an incredibly important resource for navigation, trade, and  recreation. Along the St. Lawrence River is the St. Lawrence Seaway, a system of locks, canals, and channels in both Canada and the U.S. that allows oceangoing vessels to travel from the Atlantic Ocean all the way to the Great Lakes.

Recently, the St. Lawrence Seaway Development Corporation (SLSDC) contracted Princeton Hydro to conduct analytical and geotechnical sampling on material they plan to dredge out of the Wiley-Dondero Canal. Before dredging, sediment and soils have to be tested to ensure their content is suitable for beneficial reuse of dredged material. In August, our Geologist, Marshall Thomas and Environmental Scientist, Pat Rose, took a trip up north to conduct soil sampling and testing at two different sites within the canal near Massena and the Eisenhower Lock, which were designated by the SLSDC. The first site was at the SLSDC Marine Base, which is a tug/mooring area directly southwest of Snell Lock. The second location was directly northeast of the Eisenhower Lock, which is also used as a mooring area. Both of these sites require dredging in order to maintain mooring access for boat traffic navigating the channel.

During this two-day sampling event, our team, which also included two licensed drillers from Atlantic Testing Laboratories, used a variety of equipment to extract the necessary samples from the riverbed. Some of the sampling equipment included:

  • Vibracoring equipment: this sampling apparatus was assembled on Atlantic Testing’s pontoon boat. To set up the vibracore, a long metal casing tube was mounted on the boat more than 10 feet in the air. The steel casing was lowered through the water approximately 17-20 feet down to the mudline. From there, the vibracore was then vibrated through the sediment for an additional 4-6 feet. For this project, vibracore samples were taken at 4 feet in 10 different locations, and at 6 feet in 3 different locations.

  • A track mounted drill rig: this rig was positioned along the shoreline to allow advancement of a standard geotechnical test boring close to existing sheet piling. Advancement of the boring was done by way of a 6-inch hollow stem auger. As the auger was advanced, it resembled a giant screw getting twisted into the ground. This drilling method allows the drilling crew to collect soil samples using a split spoon sampler, which is a 2-foot long tubular sample collection device that is split down the middle. The samplers were collected by driving the split spoon into the soil using a 140 lb drop hammer.

For our team, conducting sampling work on the St. Lawrence Seaway was a new experience, given most of our projects occur further east in the Mid-Atlantic region. The most notable difference was the hardness of the sediment. Because the St. Lawrence River sediments contain poorly sorted, dense glacial till, augering into it took a little more elbow grease than typical sediments further south do.  The St. Lawrence River is situated within a geological depression that was once occupied by glaciers. As the glaciers retreated, they were eventually replaced by the Champlain Sea, which flooded the area between 13,000 and 9,500 years ago. Later on, the continent underwent a slight uplift, ultimately creating a riverlike watercourse that we now deem the St. Lawrence River. Because it was once occupied by a glacier, this region is full of glacial deposits.

For this project, our team was tasked with collecting both geotechnical and analytical samples for physical and analytical testing. Physical testing included grain size analysis, moisture content, and Atterberg limit testing. Grain size analysis helps determine the distribution of particle sizes of the sample in order to classify the material, moisture content testing determines exactly that — how moist the sediment is, and Atterberg limits help to classify the fines content of the materials as either silt or clay. Analytical testing included heavy metals, pesticides, volatile organic compounds, and dioxins.

Our scientists were responsible for logging, testing, and providing a thorough analysis of fourteen sampling locations. The samples collected from the vibracore tubes filled with sediment were logged and spilt on-shore. In order to maintain a high level of safety due to the possible presence of contaminants, all of the sampling equipment was decontaminated. This process involves washing everything with a soapy water mixture, a methanol solution, and 10% nitric acid solution.

The samples collected at each vibrocore location were split into multiple jars for both analytical and physical testing. The physical test samples were placed into air and moisture tight glass sample jars and brought to our AASHTO accredited soils laboratory in Sicklerville, New Jersey for testing. The analytical samples were placed into airtight glass sample jars with Teflon-lined caps. These samples were then placed into an ice-filled cooler and sent to Alpha Analytical Laboratories for the necessary analytical testing.

Once all the laboratory testing was completed, a summary report was developed and presented to the client. This report was made to inform the SLSDC of the physical properties of each sediment sample tested and whether contaminants exceeded threshold concentrations as outlined in the New York State Department of Environmental Conservation (NYSDEC) Technical & Operation Guidance Series (TOGS) 5.1.9. This data will ultimately be used by the SLSDC to determine the proper method for dredging of the material and how to properly dispose of the material.

Princeton Hydro provides soil, geologic, and construction materials testing to both complement its water resources and ecological restoration projects and as a stand-alone service to clients. Our state-of-the-art Soils Testing Laboratory is AASHTO-accredited to complete a full suite of soil, rock, and construction material testing for all types of projects. For more information, go here: http://bit.ly/2IwqYfG 

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

Photo by Steven Reilly/New Jersey Herald

Sinkholes are a phenomenon that tend to baffle and frighten most people. How is it possible that the ground beneath our feet could just drop? How do we know if we’re nearby a sinkhole? What should we do if we see one? How are sinkholes fixed? The mystery of the unknown around sinkholes can be quite unnerving.

Have no fear, we’ve got answers to all of those questions and more! In this two-part blog series, our experts share their knowledge and provide important information about this scary occurrence. In part one, we provide a detailed look at what a sinkhole is, three different types of sinkholes, and what causes them to form. In part two, we explore how to detect sinkholes and the steps taken to repair them.

What is a Sinkhole?

Sinkholes are a common phenomenon around the world. They result from both man-made and natural causes. Marshall Thomas, a Princeton Hydro geologist, describes sinkholes as “depressions observed from the surface, caused by dissolution of carbonate rocks.” In other words, sinkholes form when the rock below the land surface gets dissolved by water that penetrates the surface and continues to move downward, further into the subsurface.

Most common in areas with “karst terrain,” or types of rocks that can easily be dissolved by groundwater, sinkholes can go undetected for years until the space underneath the surface gets too big or enough of the surface soil is washed away. Sometimes the holes are small, measuring a few feet wide and ten feet deep. Sometimes the holes are hundreds of miles wide and deep. However, all of them can be dangerous.

Sinkholes are found throughout the world. States like Pennsylvania, Texas, Florida, Alabama, Tennessee, and Missouri are at higher risk for sinkholes because they tend to have more soluble rocks like salt beds and domes, gypsum, limestone, and other carbonate rocks. People living in these states are recommended to have professionals look at any property they intend to buy to make sure it isn’t in an area above soluble rock.

Types of Sinkholes

Not all sinkholes are the scary, earth-falling-out-from-underneath-your-feet events. Some occur slowly over time and are very evident from the surface. Geologists classify sinkholes in three major types. Their formation is determined by the same geological processes, barring a few differences. Let’s dive in!

1. Dissolution Sinkholes

Illustration by USGSDissolution sinkholes start to form when limestone or dolomite is very close to the soil surface, usually covered by a thin layer of soil and permeable sand which washes away or is eroded. Rain and stormwater runoff gradually percolate through crevices in the rock, dissolving it. Consequently, a bowl-shaped depression slowly forms.

Sometimes, dissolution sinkholes become ponds when the depression gets lined with debris, which traps water inside. Dissolution sinkholes develop gradually and are normally not dangerous. However, the ones that become ponds can drain abruptly if water breaks through the protective bottom layer.

Fun fact: Most of Florida’s lakes are actually just large sinkholes that filled up with water!

2. Cover-Subsidence Sinkholes

Illustration by USGSThis type of sinkhole, which starts with the dissolution of the underlying carbonate bedrock, occurs where the covering sediment is permeable (water can pass through it) and contains sand. First, small pieces of sediment split into smaller pieces and fall into openings in the carbonate rock underneath the surface. With time, in a process called piping, the small particles settle into the open spaces. This continues, eventually forming a dip in the surface ranging from one inch to several feet in depth and diameter. Again, these aren’t the sinkholes movies are made about.

3. Cover-Collapse Sinkholes

Illustration by USGSThis type of sinkhole is the one making headlines and causing fear. In order for cover-collapse sinkholes to happen, the covering soil has to be cohesive, contain a lot of clay and the bedrock has to be carbonate. Similar to the cover-subsidence sinkholes, the cohesive soil erodes into a cavity in the bedrock. The difference with this is that the clay-filled top surface appears to remain intact from above. However, underneath, a hollowed out, upside down bowl shape forms. That hollowing gets bigger and bigger over time until eventually, the cavity reaches the ground surface, causing the sudden and dramatic collapse of the ground. Just like that, poof, we have a sinkhole that appears to be surprising and abrupt but really has been brewing for many years.

What Causes a Sinkhole?

Sinkholes can be natural or man-made. The most common causes of a sinkhole are changes in groundwater levels or a sudden increase in surface water.

Intensive rain events can increase the likelihood of a sinkhole collapse. Alternatively, drought, which  causes groundwater levels to significantly decrease, can also lead to a greater risk of collapse of the ground above. In a world with a greater variability in rainfall and drought events due to climate change, sinkholes may become a more common occurrence around the world.

Humans are also responsible for the formation of sinkholes. Activities like drilling, mining, construction, broken water or drain pipes, improperly compacted soil after excavation work, or even significantly heavy traffic (heavy weight on soft soil) can result in small to large sinkholes. Water from broken pipes can penetrate through mud and rocks and erode the ground underneath and cause sinkholes.

Most commonly, human-caused sinkholes are the result of:

  • Land-use practices like groundwater pumping, construction, and development
  • Changing of natural water-drainage patterns
  • Development of new water-diversion systems
  • Major land surface changes, causing substantial weight changes

In some cases, human-induced sinkholes occur when an already forming sinkhole is encountered during construction processes such as excavation for stormwater basins and foundations. Dissolution of bedrock generally occurs in geologic time-frames (thousands of years). In these cases, the excavation process has removed the covering soils, decreasing the distance between the top of the void and the ground surface.  

In other cases, voids in the bedrock are generated due to rock removal processes such as hammering and blasting. Hammering and blasting can generate fractures or cracks in the bedrock that soil can then erode into. A void in the bedrock may already exist, however, the process of removing the bedrock by hammering and/or blasting can speed up the meeting of the upside-down bowl and the surface that much quicker. One site where this happened has experienced over 35 sinkholes in 4 years.

Overall, it’s generally not a good idea to pump groundwater or do major excavation in areas that are prone to sinkholes. According to the USGS, over the last 15 years sinkhole damages have cost on average at least $300 million per year. Because there is no national tracking of sinkhole damage costs, this estimate is probably much lower than the actual cost. Being more mindful about the subsurface around us and our actions could help lower the average yearly cost in damages and even save lives.

Photo by Barbara Miller PennLive Patriot News

Stay tuned for Part Two of this blog series in which we explore we explore how to detect sinkholes and the steps taken to repair them! For more information about Princeton Hydro’s Geotechnical Engineering services, go here: http://bit.ly/PHGeotech

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.

Sources:

Employee Spotlight: Meet Our New Team Members

We’re excited to announce the hiring of a new employee and the promotion of a member of our Field Operations team.

 

Jennifer Duff, Administrative Assistant

Jennifer works in our Glastonbury, CT location assisting with office coordination and administrative tasks. She is skilled in data visualization and graphic design, and enjoys working with our wonderful team of scientists, engineers, specialists, and people passionate about the environment and outdoors.

In her free time, she enjoys hiking, kayaking, crafting, and design. She is also passionate about local land and fiber, and spends time knitting and organizing wool farmers in the region.

Jacob Pigman, Aquatic Specialist

Jacob began with Princeton Hydro as a part-time staffer and is now a full-time member of the Aquatics Field Services Practice Area. His daily responsibilities include a variety of field tasks, including the treatment of lakes and ponds for hazardous algal blooms, the treatment/removal of invasive plant species, and the installation of fountain and/or aeration systems for sustainable water management. Working on the field operations team has given Jacob an opportunity to learn about the environmental science field, and he hopes to continue to grow his experience into a successful and bright future with the firm.

Born and raised at the Jersey Shore, Jacob enjoys spending time at the beach. He also enjoys cooking.

 

Learn more about our team.

 

 

 

DIY: Protecting Water Quality in Your Community

There are lots of things we can do to preserve our precious water resources. Reducing stormwater pollution in our neighborhoods is something everyone can take part in. Storm drain cleaning is a great place to start!

DIY Storm Drain Cleaning

Urbanization has fundamentally altered the way that water moves through the landscape. Stormwater that doesn’t soak into the ground runs along streets and parking lots and picks up pollutants. Much of the pollution in our nation’s waterways comes from everyday materials like fertilizers, pesticides, motor oil, and household chemicals. Rainwater washes these substances from streets, yards and driveways into storm drains.

It’s a common misconception that storm drains lead to wastewater treatment plants. In actuality, storm drains rarely lead to treatment plants and instead stormwater systems carry untreated water directly to the nearest waterway. This polluted runoff can have negative impacts on water quality, overstimulate algal growth (both toxic and non-toxic), harm aquatic species and wildlife, and cause trash and debris to enter our lakes, streams, rivers and oceans.

https://www.middlesexcentre.on.ca/Public/Stormwater

We can all do our part to improve and preserve water resources in our community and beyond!

Keeping neighborhood storm drains cleaned is one simple step. Removing debris that collects in nearby stormwater catch basins, storm drains and along curbs promotes cleaner runoff, reduces the potential for flooding, and decreases the amount of pollution and trash entering our waterways.

Follow these simple steps for DIY storm drain cleaning:

  1. Photo: Santiago Mejia, The ChronicleRake/sweep and discard debris that has collected on top of the storm grate and in curbside rain gutters. Please note: If you notice a major blockage or issue with a storm drain, contact your local municipality immediately.
  2. Use a scrub brush or toilet bowl scrubber to remove debris that may be stuck to the storm grate.
  3. Adopt a storm drain(s) and maintain a regular cleaning schedule: Make a note on your calendar each quarter to clean and clear debris from storm drains nearby your home or workplace. And, make a habit of checking your storm drains after rainstorms when clogging is most common.
  4. Host a community clean-up day that includes trash pick-up, storm drain cleaning, and disseminating information on the impacts of stormwater runoff and what we can do to help.
  5. Consider contacting your local watershed association or municipality about getting drain markers installed on storm drains throughout the community. The markers act as a continued public reminder that anything dumped into a storm drain eventually ends up in our precious waterways downstream.

Remember: Small actions lead to big achievements in protecting water quality. 

Fall Events Spotlight: Conferences, Symposiums, & Fundraisers

This fall, Princeton Hydro is participating in a variety of events, including presenting at conferences that explore topics ranging from floodplain management to stream restoration to stormwater management. Here’s a snapshot of what’s to come:

OCTOBER 3: GREAT SWAMP GALA & SILENT AUCTION

The Great Swamp Watershed Association, a nonprofit organization dedicated to protecting and improving the water resources of the Passaic River region, is hosting its 2019 Gala & Silent Auction. This year’s event is being held in honor of Congresswoman Mikie Sherrill for her commitment to protecting our planet and growing the clean energy economy in New Jersey. The evening will include a cocktail hour, dinner banquet, and expansive silent auction.

LEARN MORE & REGISTER

 

OCTOBER 4: 46th ANNUAL ANJEC ENVIRONMENTAL CONGRESS

The Association of New Jersey Environmental Commissions (ANJEC) is a nonprofit organization that’s been supporting efforts to protect the environment and preserve natural resources in communities throughout New Jersey for 50 years. The Environmental Congress is an annual statewide gathering of environmental commissions, local officials, agencies, citizen groups and environmental organizations, which includes an exhibitors hall, farmer’s market, and workshops on a variety of current environmental topics. Princeton Hydro, a business member of the ANJEC, will be exhibiting during the event. Come say “hello” to our staff at the booth: Vice President Mark Gallagher, Senior Project Manager Kelly Klein, Communications Strategist Dana Patterson, and Marketing Coordinator Kelsey Mattison.

LEARN MORE & REGISTER

 

OCTOBER 9: SOCIETY FOR AMERICAN MILITARY ENGINEERS (SAME) MEGA MARYLAND SMALL BUSINESS CONFERENCE

The conference, being held in Baltimore, gives small and minority businesses in the architecture, engineering and construction industries the opportunity to come together with federal agencies in order to showcase best practices and highlight future opportunities to work in the federal market. Nearly 500 professionals throughout the Mid-Atlantic region are expected to attend this year’s MEGA Maryland, which includes 25+ speakers and 50+ exhibits. Be sure to stop by the Princeton Hydro booth!

LEARN MORE & REGISTER

 

OCTOBER 15 – 17: NEW JERSEY ASSOCIATION FOR FLOODPLAIN MANAGEMENT (NJAFM) 15TH ANNUAL CONFERENCE

NJAFM is hosting its 15th Annual Conference and Exhibition in Atlantic City, NJ. Participants will attend meetings and seminars covering topics, including hazard mitigation, flood insurance, flood modeling, stormwater management, construction standards and more. Princeton Hydro’s Christiana Pollack, GISP, CFM is giving a presentation about the Blue Acres ecological restoration project, which 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. This presentation will highlight the green infrastructure techniques employed including restoration of native coastal forest and meadow.

LEARN MORE & REGISTER

 

OCTOBER 16 – 17: 7TH ANNUAL DELAWARE RIVER WATERSHED FORUM

The 7th Annual Delaware River Watershed Forum, taking place in Allentown, PA, brings together organizations and individuals spanning the four watershed states of PA, NY, NJ, and DE. The Forum allows for collaboration among those working on environmental conservation and policy; and provides professional and personal development opportunities. Workshops will focus on topics such as water quality, community engagement, equity, and environmental policy. Princeton Hydro President Geoff Goll, P.E., Senior Project Manager Kelly Klein, and Communications Strategist Dana Patterson are participating in this year’s event. Geoff and Kelly, along with Alan Hunt of the Musconetcong Watershed Association, are leading a “Musconetcong River Restoration Tour” on Oct 16.

Learn More & Register

 

OCTOBER 16 – 17: VILLANOVA STORMWATER MANAGEMENT SYMPOSIUM

The theme of this year’s Villanova University College of Engineering Stormwater Management Symposium is “Building Resilience into Stormwater.” Participants will attend technical sessions, hear a variety of presentations, and have an opportunity to take part in field trips and networking events. Topics covered during the symposium include Water Reuse and Harvesting, Stormwater Regulations and Design, Vegetated Infiltration Systems and more. Princeton Hydro is thrilled to be attending!

Learn More & Register

 

OCTOBER 17: Deal Lake Commission Environmental Education Public Meeting

The Deal Lake Commission (DLC) is hosting an informational gathering for which members of the public are invited to learn about environmental topics related to the lake and surrounding watershed.  At 6:30pm, Princeton Hydro founder Dr. Stephen Souza along with Jeannie Toher, DLC Commissioner, are giving a presentation on stormwater management and green infrastructure. The goal of this workshop session is to demonstrate the types of things that we can all do on a local scale to better control stormwater runoff and reduce nutrient loading, the primary causes of the lake’s water quality challenges.  Following the workshop, stay for the DLC’s monthly meeting and learn what else is going on with the management, restoration and maintenance of Deal Lake.

Learn More

 

OCTOBER 26: THE NATURE CONSERVANCY IN NJ’S OAK LEAF AUCTION

We are a proud sponsor of the Nature Conservancy’s Oak Leaf Auction being held at The Ridge in Basking Ridge, NJ. Participants of this fun fundraising event will enjoy live and silent auctions for items like artwork, weekend getaways, one-of-a-kind experiences, and much more. The evening also includes cocktails, appetizers and networking opportunities.

Learn More About The Nature Conservancy

 

NOVEMBER 1: NEW JERSEY WATERSHED CONFERENCE

New Jersey Watershed Conference, which is an educational event that aims to advance knowledge and communications on issues related to water quality and quantity across the state. The agenda features a variety of presentations from local experts on watershed management, stormwater, green infrastructure, and the problems and solutions related to the health of our watersheds. Princeton Hydro, a proud sponsor of the event, is exhibiting and giving two presentations: Director of Aquatic Programs Dr. Fred Lubnow is presenting on “An Overview of the Causes and Impacts of Harmful Algal Blooms.” Marketing Coordinator Kelsey Mattison is leading a workshop on “Flipping the Script on American Environmental Thought.”

Learn more & Register

 

NOVEMBER 1: NY-NJ HARBOR ESTUARY PROGRAM’S 2019 ANNUAL CONFERENCE

Are you a natural resource manager, scientist, conservation advocate, or policy leader? Join the NY-NJ Harbor & Estuary Program and the Hudson River Foundation for the 2019 Restoration Conference. The conference, titled “Explore Lessons Learned for a Changing Future at HEP,” will explore how habitat restoration can shape our community’s response to a changing climate. The day will feature a series of plenary presentations and interactive workshops that will help participants better understand these challenges, current initiatives, and the state of practice and scientific understanding.

Learn more & Register

 

NOVEMBER 7 – 9: ENGINEERS WITHOUT BORDERS NATIONAL CONFERENCE

Engineers Without Borders (EWB), a nonprofit organization that works to build a better world through engineering projects that aid communities in meeting their basic needs, is hosting its National Conference in Pittsburgh, PA. Staff Engineer Natalie Rodrigues, EIT, CPESC-IT is an active volunteer with EWB. Natalie began volunteering for the organization seven years ago while attending college at the SUNY College of Environmental Science and Forestry where she earned her Bachelor of Science in Environmental Resources Engineering with a focus in water resources. The conference includes dynamic discussions with industry leaders, educational opportunities about complex global challenges that engineers can solve, and networking with the people driving the engineering sector’s socially minded future.

Learn more & Register

 

NOVEMBER 14: SOCIETY FOR AMERICAN MILITARY ENGINEERS (SAME) PHILADELPHIA RESILIENCY SYMPOSIUM

SAME Philadelphia is hosting a one-day symposium featuring experts on infrastructure resiliency in the face of extreme storms, flooding and other natural disasters. Presentation topics include, Coastal Resiliency, Public/Private Partnerships for Resiliency, and Climate Vulnerability and Adaptation/Flood Risk.  Stop by the Princeton Hydro exhibitor booth to say hello to Princeton Hydro President Geoffrey Goll, P.E. and Marketing Coordinator Kelsey Mattison. We hope to see you there!

LEARN MORE & REGISTER

 

NOVEMBER 11 – 15: NORTH AMERICAN LAKE MANAGEMENT SOCIETY (NALMS) CONFERENCE

NALMS‘ 39th International Symposium, being held in Burlington, VT, is themed “Watershed Moments: Harnessing Data, Science, and Local Knowledge to Protect Lakes.” This year’s symposium includes a robust exhibit hall, a variety of field trips, and a wide array of presentations on topics ranging from water level management to combating invasive species to nutrient pollution and more. Dr. Fred Lubnow will be presenting a poster on Harmful Algal Blooms in Lake Hopatcong, and Dr. Stephen Souza, a founding principal of Princeton Hydro, is leading a workshop on Stormwater Management for Lake Managers, which is designed to demonstrate the importance of implementing ecologically appropriate, cost-effective green infrastructure stormwater management techniques as part of comprehensive lake restoration plan. In addition to conference activities, visitors will enjoy Vermont’s scenic beauty and a wide variety of outdoor recreational opportunities.

Learn more & Register

 

NOVEMBER 18 – 20: MID-ATLANTIC STREAM RESTORATION CONFERENCE

Mid-Atlantic Stream Restoration Conference, hosted by the Resource Institute, invites resource professionals, researchers and practitioners to participate in discussions and workshops focused on Building Resilient Streams in the Mid-Atlantic and Northeast regions. Princeton Hydro is giving two presentations during the conference:

  • Columbia Lake Dam Removal; Using Drones for Quantitative Evaluation of River Restoration by Geoffrey Goll, P.E., Princeton Hydro President; Casey Schrading, EIT, Staff Engineer; and Beth Styler-Barry of The Nature Conservancy.
  • Innovative Design and Funding Approaches for Dam Removal Projects Where an Unfunded Mandate Exists by Geoffrey Goll, P.E.; Princeton Hydro President; Kirk Mantay, PWS, GreenTrust Alliance; John Roche, Maryland Department of Environment; and Brett Berkley, GreenVest.
Learn more & Register

 

NOVEMBER 20 – 22: SOCIETY FOR AMERICAN MILITARY ENGINEERS (SAME) SMALL BUSINESS CONFERENCE (SBC)

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 Kevin M. Yezdimer, PE and Communication Strategist Dana Patterson are attending the 2019 SAME SBC Conference, which is being held in Dallas, Texas. The program consists of networking events, small business exhibits, a variety of speakers and much more.

LEARN MORE & REGISTER

 

STAY TUNED FOR MORE EVENT SPOTLIGHTS!

Dr. Fred Lubnow of Princeton Hydro Featured in Magazine Article on Chautauqua Lake

The U.S. is home to thousands of lakes both natural and manmade. Lakes are incredibly important features in the landscape that provide numerous beneficial services, including domestic water supply, hydro-electric power, agricultural water supply, recreation, and tourism. They also provide essential habitat for fish, wildlife and aquatic organisms.

Lakes are complex and dynamic systems, each situated in a unique landscape context. Maintaining the ecological health of a lake is no easy feat. A lot goes on behind the scenes to maintain water quality and a balanced lake ecosystem. Successful, long-term lake management requires a proactive approach that addresses the causes of its water quality problems rather than simply reacting to weed and algae growth and other symptoms of eutrophication.

Chautauqua Magazine recently published an article about the science behind the management of Chautauqua Lake, which features our Director of Aquatic Programs Dr. Fred Lubnow. We’ve included an excerpt below. Click here to view the full article and photos:

Dr. Fred Lubnow is a scientist and director of aquatic programs at Princeton Hydro, a consulting organization based in Exton, Pennsylvania, that is often called on to support lake and watershed regions that want to develop a long-term plan for lake conservation.

He says that while his firm focuses on the development of data and intelligence to inform decision making in regard to freshwater ecosystems, his work is really about coalition building.

“As a scientist and a consultant, you learn over time that you are building a coalition stakeholders and determining what we can agree on to help everyone in the community,” Lubnow said.

Ten years ago, Princeton Hydro was hired to do some stream and inlet monitoring for various stakeholders at Chautauqua Lake. More recently, they’ve been contracted to conduct third-party monitoring of the impacts of the Spring 2019 herbicide applications in the south basin of Chautauqua Lake…

Continue reading!

 

Princeton Hydro is the industry leader in lake restoration and watershed management. We have conducted diagnostic studies and have developed management and restoration plans for over 300 lakes and watersheds throughout the country. This has included work for public and private recreational lakes, major water supply reservoir, and watershed management initiatives conducted as part of USEPA and/or state funded programs. For more information about our lake management services, go here: http://bit.ly/pondlake. 

REGISTER: Green Infrastructure Stormwater Management One-Day Course

REGISTRATION IS STILL OPEN FOR MONTCLAIR STATE UNIVERSITY’S GREEN INFRASTRUCTURE STORMWATER MANAGEMENT ONE-DAY CONTINUING EDUCATION COURSE BEING HELD ON SEPTEMBER 20, 2019 FROM 8 AM – 4 PM

Are you a consultant, planner, municipal representative, community leader, or project manager seeking to learn more about Green Stormwater Infrastructure & Management Techniques? This one-day course is for YOU!

Green infrastructure techniques have increasingly become the “go to” strategy to address flooding, water quality, and environmental impacts caused by stormwater runoff. Whether it be rain gardens or regional bioretention basins, infiltration basins or other large-scale bio engineered BMPs, green infrastructure is being implemented everywhere from suburban subdivisions to urban redevelopment sites. Unfortunately, while growing popular, these techniques are often misapplied, improperly constructed, or inadequately maintained.

This innovative one-day class focuses on the proper design and implementation of green infrastructure BMPs, as well as their special maintenance requirements. The course curriculum includes interactive presentations, case studies and project examples.

This year’s course will cover the following topics and more:

  • The Application and Advantages of Green Infrastructure Stormwater Management Techniques
  • Design and Construction of Infiltration Basins
  • Data Collection Needs: Soil, Geotechnical, and Groundwater Hydrology Data
    Design and Construction of Gravel Wetland Systems
  • Rain Garden Design and Application
  • Green Infrastructure Stormwater Options and Alternative Capping Techniques for Remediation Sites

Dr. Stephen Souza, Princeton Hydro Co-Founder and President of Clean Waters Consulting, LLC, is the faculty coordinator for the course, which also features a lecture by Princeton Hydro’s Green Infrastructure Practice Area Leader Dr. Clay Emerson, PE, CFM.

Course participants will also receive professional credits, including:

  • New Jersey LSRP CECs: 7 Technical CECs (NJ SRPLB Course # 2015-065);
  • New Jersey Professional Engineers: 7 CPCs;
  • New Jersey Board of Architects: 7 hours of CECs;
  • Certified Floodplain Managers: 6.5 CECs; and
  • NJ Public Health Continuing Education Contact Hours: 7 CEs.

Princeton Hydro is proud to partner with Montclair State University and take part in this valuable continuing professional education course. We hope to see you there!

Learn More & Register Today

BOROUGH OF RINGWOOD INITIATES FIRST-IN-STATE REGIONAL APPROACH TO LAKE MANAGEMENT THROUGH PUBLIC-PRIVATE PARTNERSHIP

NorthJersey.com File Photo
The Borough of Ringwood initiates a unique public-private partnership
with four community lake associations to
holistically manage watershed health related to private lakes

Providing drinking water to millions of New Jersey residents, the Borough of Ringwood is situated in the heart of the New Jersey Highlands and is home to several public and private lakes that sit within the Ramapo Mountains. In order to take an active role in the management of these natural resources within multiple watersheds, the Borough of Ringwood will be the first municipality in the state of New Jersey to take a regional approach to private lake management through a public-private partnership (PPP) with four lake associations.

The four private sets of lakes targeted in the plan— Cupsaw, Erskine, Skyline, and Riconda —were created by the Ringwood Company in the 1920s and 30s to promote the municipality as a hunting and fishing retreat and a summer resort. They currently provide private beach clubs and recreational opportunities for surrounding homeowners who can opt to join as members.

Map Showing the Four Private Lakes in the PPP holistic watershed management plan

Generally, the health of a private lake is funded and managed in isolation by the governing private lake association group. Ringwood Borough Manager Scott Heck’s concept was to design and implement a municipal-wide holistic watershed management plan to use as a tool to identify capital priorities to enhance water quality throughout the community. Mr. Heck hired Princeton Hydro, a leader in ecological and engineering consulting to design this innovative project.

Cupsaw Lake “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,” said Princeton Hydro’s Senior Project Manager, Christopher Mikolajczyk, who is a Certified Lake Manager and lead designer for this initiative. “We’re thrilled to work with the Borough of Ringwood and the New Jersey Highlands Council to set a precedent for this logical watershed management strategy, which opens the door for future public-private partnerships.”

As part of this project, a Watershed-based Assessment will be completed. The following objectives will be met:

  1. Identification, quantification, and prioritization of watershed-based factors which may cause eutrophication;
  2. Identification of watershed management measures needed to address general causes of water quality impairments;
  3. Identification of the relative cost of the recommended general watershed management measures;
  4. The generation of a schedule, based on priority, for the implementation of the recommended watershed management measures; and
  5. A general assessment report will be authored at the conclusion of the study.

Skyline Lake in the FallFunding for the Watershed-based Assessment for the Lakes of the Borough of Ringwood is being provided by the New Jersey Highlands Council through a grant reimbursement to the Borough of Ringwood. As part of the PPP , the Borough of Ringwood will review and where feasible implement any suggested actions surrounding the lakes. The final report, provided to the Borough by Princeton Hydro, will identify and prioritize watershed management techniques and measures that are best suited for immediate and long-term implementation, as well as provide cost projections for implementation in both the short-term and long-term.

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.

For more information about the PPP, check out today’s NorthJersey.com news story. To learn more about Princeton Hydro’s lake and pond management services, go here: http://bit.ly/pondlake.

Enjoy Your Labor Day Nature Adventures Responsibly

Seven Tips for Environmentally-Friendly Outdoor Fun

Labor Day is right around the corner! Many people will soon be packing up the car with fishing gear and heading to their favorite lake for a fun-filled weekend.

As biologists, ecologists, environmentalists, and outdoor enthusiasts, all of us at Princeton Hydro fully enjoy getting outside and having fun in nature. We also take our responsibility to care for and respect our natural surroundings very seriously. We play hard and work hard to protect our natural resources for generations to come.

These seven tips will help you enjoy your Labor Day fishing, boating, and outdoor adventures with minimal environmental impact:

  • Before you go, know your local fishing regulations. These laws protect fish and other aquatic species to ensure that the joys of fishing can be shared by everyone well into the future.

  • Reduce the spread of invasive species by thoroughly washing your gear and watercraft before and after your trip. Invasives come in many forms – plants, fungi, and animals – and even those of microscopic size can cause major damage.

  • Stay on designated paths to avoid disrupting sensitive and protected areas, like wetlands, shorelines, stream banks, and meadows. Disturbing and damaging these sensitive areas can jeopardize the health of the many important species living there.

  • Exercise catch and release best practices. Always keep the health of the fish at the forefront of your activities by using the right gear and employing proper techniques. Get that info by clicking here.

  • Use artificial lures or bait that is native to the area you’re fishing in. Live bait that is non-native can introduce invasive species to water sources and cause serious damage to the surrounding environment.

  • Plan ahead and map your trip. Contact the office of land management to learn about permit requirements, area closures and other restrictions. Use this interactive map to find great fishing spots in your area, the fish species you can expect to find at each spot, nearby gear shops, and more!

Armed with these seven tips, you can now enjoy your weekend while feeling rest assured that you’re doing your part to protect the outdoor spaces and wild places we all love to recreate in! Go here to learn about some of the work Princeton Hydro does to restore and protect our natural resources.

120903 Dock
“Respect nature and it will provide you with abundance.”

–compassionkindness.com

A Day in the Life of a Construction Oversight Engineer

Have you ever wondered what it actually means to conduct construction oversight on a project? Our engineers regularly do so to ensure design plans are being implemented correctly. But, construction oversight requires a lot more than just the ability to oversee. Our engineers have to understand the ins and outs of the plans, be adaptable, fast-thinking, and incredibly capable of communicating with and coordinating various parties.

Let’s walk through a day in the life of one of our construction oversight engineers, Casey Schrading, EIT, and outline the key components of his job:

SAFETY. When it comes to construction sites, safety always comes first. It is important to have the proper health and safety training before entering an active construction zone. On an active construction site, there could be many different hazards that workers encounter. Before heading to the site, Casey makes sure he has all his necessary safety equipment and protection gear. Personal Protection Equipment (PPE) usually includes a neon safety vest (visibility), hard hat (head protection), long pants (protective clothing), safety glasses (eye protection), and steel-toed boots (foot protection). In some cases, on construction sites with more risk factors, higher levels of PPE may be required including hearing protection, gloves, respiratory masks, fall protection equipment, and disposable Tyvek coveralls.

COORDINATION.  For most construction projects, the day starts early. Upon arrival, Casey checks the site out to see if anything has changed from the day before and takes pictures of the site. He then checks in with the contractor to discuss the plan for the day and any outstanding items from the day prior.

Most of the day consists of a back and forth process between watching the construction workers implement the design and then monitoring and checking the design plans. In order for the contractor to properly implement the design, the oversight engineer must direct the workers during the installation process; for many designs, there are critical angles, locations, heights, and widths that features must be installed at. It is imperative for the oversight engineer to direct and work hand-in-hand with the contractor so those features are installed correctly for effective design implementation.

ON-SITE MONITORING.  For certain projects, the day-to-day construction oversight tasks may get a little more involved. For instance, when conducting construction oversight for our Columbia Dam Removal project, Casey was tasked with taking turbidity samples every three hours at two locations along the Paulins Kill — one upstream of the site to collect baseline data and one downstream of the site to quantify the site’s effect on turbidity. If the turbidity readings downstream of the site came out too high, Casey would then have to determine how those high levels were affecting the turbidity in the Delaware River, which the Paulins Kill discharges into less than a quarter mile downstream of the site. If flooding in the Delaware River wasn’t enough to pose safety concerns, Casey would then take readings at two additional locations upstream and downstream of the Delaware River-Paulins Kill confluence. Again, the upstream reading served as a baseline reading for turbidity while the downstream reading showed the effects of the Paulins Kill on the Delaware River.

These turbidity samples were necessary because this project involved passive sediment transport, meaning the sediment that had built up behind the dam for over a century was going to slowly work its way downstream as the dam was notched out piece by piece, as opposed to it being dredged out before the barrier removal. It’s important to monitor turbidity in a case like this to make sure levels remain stable. The need for monitoring at construction sites further emphasizes the need for construction oversight engineers to be multifaceted.

ADAPTATION.  In all construction projects, the goal is to have everything installed or constructed according to plan, but, with so many environmental factors at play, that rarely happens. Because of the ever-changing nature of most of our projects, it is essential that our construction oversight engineers have the keen ability to adapt and to do so quickly. Casey has experienced a range of changes in plan while conducting construction oversight. He says the skills he relies on most is communication. When something changes, it’s imperative that the onsite engineer knows exactly who to contact to work out a solution. Sometimes that might be Princeton Hydro’s internal project manager, or sometimes it might be a regulatory official from NJDEP.

WEEKLY MEETINGS.  Another critical part of construction oversight is facilitating weekly coordination meetings. The weekly meeting is usually attended by the contractor, the engineering firm, and the client.  The parties will discuss what has happened thus far at the site and what still needs to happen, allowing them to establish action items. Occasionally, other entities like organizations that provided funding for a project or regulatory agencies, will also be involved in those conversations. The weekly meetings are designed to keep everybody on task and help to ensure every party’s goals and needs are being met.

DOCUMENTATION.  Anytime field work is being conducted, it is essential to document the happenings and the progress made. This documentation usually comes in the form of a Daily Field Report (DFR). A DFR includes information about the work performed on a given day, such as measurements, quantities of structures installed, and how that installation process went. Also included in the DFRs are clear and descriptive photographs.

COMMUNICATION.  Working on any project, it’s important to make sure all involved parties understand the reason behind each installation. It is often easier for a construction team to implement plans correctly if they know and understand why each part of it is important and included in the project. Explaining why a task needs to be completed also helps relieve tension that could potentially arise between the engineer and the contractor. It is essential to make sure every person on the project team is on the same page.

PUBLIC OUTREACH.  Another critical aspect of construction oversight is having the ability to successfully communicate with the public. Members of the community surrounding a site need to be kept apprised of the goings on so they can remain safe during the construction period and understand the goals of the project. When citizens understand the purpose and goals of a project, they are more likely to support and respect it.

REGULATORY COMPLIANCE.  Understanding the permitting surrounding a project is also essential to success as a construction oversight engineer. The engineer has to understand the ins and outs of the permitting and regulations in order to be able to make decisions about changes in the plan and to be able to successfully point the contractor in the correct and compliant direction.

Construction oversight is a tedious and incredibly important job, yet I really enjoy it because it gives me a new and better understanding of the engineering design process,” explains Casey. He feels it gives him a much more practical understanding of engineering design, as he has seen what kinds of plans are actually implementable and what that process looks like. “Watching a design plan get implemented brings the project full circle and allows me to take that knowledge and experience back to the office and back into the design process.

Princeton Hydro provides construction oversight services to private, public, and nonprofit clients for a variety of ecosystem restoration, water resource, and geotechnical projects across the Northeast.  Learn more.

Casey graduated from Virginia Tech in 2018 with a degree in Biological Systems Engineering and now works as a staff engineer for the firm with a focus in water resources engineering. He has experience in ecological restoration, flood management, water quality analysis, and best management practices. His experience also includes construction oversight for dam removal and restoration projects as well as design, technical writing, and drafting for a wide variety of water resources engineering projects. In his free time Casey very much enjoys travelling, hiking, skiing, and camping.

If you enjoyed this blog, check out another one from our “Day in the Life” series, and stay tuned for more:

A Day in the Life of a Stormwater Inspector