Green Infrastructure and Stormwater Utilities: Solutions to NJ’s Environmental Issues

Flooding, runoff, and storm surges, OH MY!

With increases in each of these occurring now, the imposition of green infrastructure and a stormwater utility fee are viable solutions to reducing their impacts. Plus, with the passing of the S-1073/A2694 bill in early 2019, the introduction of a stormwater utility became legal in New Jersey, making it the 41st state to do so.

On June 19, 2019, The Watershed Institute in Pennington, NJ held the “New Jersey Green Infrastructure & Stormwater Utilities Symposium” to address the environmental problems New Jersey faces and present solutions, including the stormwater utility. The event was geared for municipal officials, engineers, nonprofit leaders, and other interested parties, with an agenda full of expert speakers sharing insights and ideas on topics like the science of stormwater, New Jersey’s proposed stormwater rule changes, why green infrastructure and a stormwater utility fee matter, and possibilities for how to move New Jersey forward.

So, What is Green Infrastructure?

Brian Friedlich, the first presenter and a project manager for Kleinfelder, relayed that according to NJDEP, green infrastructure consists of “methods of stormwater management that reduce stormwater volume, flow, or characteristics by allowing the stormwater to infiltrate, be treated by vegetation or by soils, or be stored for use.” He also explained that green infrastructure can improve the environment and communities by providing community engagement, greening communities, addressing flooding, improving water quality by reducing CSOs, harvesting rainwater, increasing habitat for wildlife, and increasing property values.

After Brian’s presentation, a founding Principal of Princeton Hydro, Dr. Stephen Souza, now CEO of Clean Waters Consulting, urged that we should “turn down the volume,” when it comes to stormwater runoff. He explained that it is not enough to just manage peak flow of stormwater; we must also work to lower the volume of off-site stormwater discharge. So, how can you and your municipality do this? He offered six principles to designing successful green infrastructure projects:

  1. Treat stormwater as a resource
  2. Don’t make stormwater management an afterthought
  3. Attack the cause not the symptoms
  4. Turn your watershed inside out
  5. Think small to achieve big results
  6. Use nature as your model

Not only is successful implementation of green infrastructure important, but communal understanding of it may be more so. That is why Princeton Hydro partnered with New Jersey Future, Clark Caton Hintz, Rutgers Cooperative Extension Water Resources Program, FZ Creative, and municipal stakeholders to launch the New Jersey Green Infrastructure Municipal Toolkit. Filled with helpful information about green infrastructure, this free resource is extremely useful for gaining communal understanding, getting started, implementing nature-based stormwater solutions, and sustaining your program.

What is Stormwater and Why Should Municipalities Require a Utility Fee for It?

Before we get into why it is imperative for New Jersey municipalities to implement a stormwater utility fee, it is important to understand just what stormwater is, what it does, and how it affects New Jersey residents.

The name is pretty intuitive: stormwater is the water that comes from precipitation, whether that be rain, snow, or ice melt. With increasing levels of water from climate change impacts (i.e. storm surge, increased rainfall, sea level rise), stormwater management has become an issue for states all across the U.S., whether it’s an over abundance or lack thereof.

So, what’s happening in New Jersey? The stormwater infrastructure that is currently in place (storm drains, sewer piping, etc.) is aging and unable to effectively handle the amount of runoff that has been flowing through the region in recent years. This is causing increased nutrient runoff and flooding all over the state. And, with increasing global temperatures, this trend is likely to continue.

To combat these issues, New Jersey passed the S-1073/A2694 bill in January 2019, authorizing counties and municipalities, either separately or in combination with other municipalities, to begin implementing a stormwater utility fee to New Jersey residents.

The law itself states:

“Every sewerage authority is hereby authorized to charge and collect rents, rates, fees, or other charges for direct or indirect use or services of its stormwater management system. The stormwater service charges may be charged to and collected from the owner or occupant, or both, of any real property. The owner of any real property shall be liable for and shall pay the stormwater service charges to the sewerage authority at the time when and place where these charges are due and payable. The rents, rates, fees, and charges shall be determined in a manner consistent with the stormwater utility guidance manual created by the Department of Environmental Protection pursuant to section 24 of P.L.

Any stormwater service charge imposed pursuant to subsection a. of this section shall be calculated in a manner consistent with the guidance provided in the stormwater utility guidance manual created by the Department of Environmental Protection pursuant to section 24 of P.L.”

Essentially, this fee charges a chosen type of property owner within a given municipality or region a certain amount of money for the impervious area (mainly artificial structures like asphalt, concrete, stone, rooftops, etc. that water can’t seep through) they have on their property. Just how much that fee is and whether or not there’s a limit on the chargeable impermeable area are dependent on the government agency.

Since the impervious area blocks water from seeping into the ground, it becomes runoff and ends up in the stormwater drain. And, since New Jersey’s systems are growing old and less efficient, it makes sense to implement a fee for their use. Historically, general taxpayer dollars or legislative appropriations have been used to fund updates to aging infrastructure. Implementing a utility fee will create a consistent funding source to update and expand the current aging infrastructure so that flooding will occur less.

Other states, like neighboring Pennsylvania, have been proactive in addressing these impacts by implementing a stormwater utility fee. And, in Maryland, the state implemented a watershed restoration program and MS4 efforts that require stormwater utility fees. These initiatives have generated a job-creating industry boom that benefits engineers, contractors, and local DPWs. At the same time, Maryland’s program is improving the water quality in the Chesapeake Bay, and stimulating the tourism and the crabbing/fishing industry.

In relation to how urban cities are affected by stormwater, John Miller, the FEMA Mitigation Liaison, shared this helpful resource, “The Growing Threat of Urban Flooding: A National Challenge” during the symposium. It addresses the extent and consequences of urban flooding in the U.S., while exploring actions that can be taken to mitigate future flooding. Amongst other recommendations made, the research group encouraged Congress and state officials to “develop appropriate mechanisms at the federal, state, and local level to fund necessary repairs, operations, and upgrades of current stormwater and urban flood-related infrastructure.”

A stormwater utility should not only be reviewed in the context of cost, since it meets all three elements of a triple-bottom line: social, environmental, and financial. Other considerations are the fact that allowing stormwater utilities in New Jersey will create jobs, help reduce flood impacts, enhance water quality, improve our fisheries, and preserve our water-based tourism economy.

When it comes to green infrastructure, Princeton Hydro has been a leader in innovative, cost-effective, and environmentally sound stormwater management systems since its inception. Long before the term “green infrastructure” was part of the design community’s lexicon, the firm’s engineers were integrating nature-based stormwater management systems to fulfill such diverse objectives as flood control, water quality protection, and pollutant load reduction. And, Princeton Hydro has developed regional nonpoint source pollutant budgets for over 100 waterways. The preparation of stormwater management plans and design of stormwater management systems for pollutant reduction is an integral part of many of the firm’s projects. So, we are major proponents of implementing stormwater utilities and green infrastructure into our everyday lives.

Do you have questions regarding green infrastructure or stormwater utilities? Contact us here.

 

June 5: Restoration Ecology Course at Rutgers University

Join us on Wednesday, June 5 for a One-Day Environmental Training Course

Rutgers Office of Continuing Professional Education is offering a one-day class that explores the utilization of mitigation and sustainable design techniques to reduce stormwater impacts and increase storm resiliency.

The course, designed for ecologists, engineers, planners, and landscape architects involved in the recovery of impacted river, lake, riparian, wetland, and coastal environments, draws heavily upon real-world examples of restoration ecology in practice. This interactive course focuses specifically on the multi-disciplined recovery of degraded, damaged, or impaired ecosystems.

Dr. Stephen Souza, a founding principal of Princeton Hydro and owner of Clean Waters Consulting, LLC, is the main instructor and course coordinator. The course curriculum includes lessons from Dr. Souza and a number of experts from the Princeton Hydro team, including:

  • “River Restoration – Large Scale Dam Removal” lead by President Geoffrey Goll, P.E.
  • “Restoration of Tidal Ecosystems – The Creation of the Bayonne Golf Club” lead by Vice President Mark Gallagher
  • “Green Infrastructure and Coastal Resiliency” lead by Senior Project Manager & Environmental Scientist Christiana Pollack, GISP, CFM
  • “Does Green Infrastructure Mitigate Flooding?” lead by Dr. Souza

Course instruction will also be provided by John Miller, P.E., CFM, CSM, FEMA Mitigation Liaison; Nathaniel Burns, Langan Engineering Project Landscape Architect; and Capt. Al Modjeski, American Littoral Society Habitat Restoration Program Director.

In addition to 0.7 Rutgers CEUs, the course also awards participants with professional credits, including:

  • Landscape Architecture Continuing Education System (LA CES): 7.25 hours
  • NY Landscape Architects: 10.5 hours CL; 10 hours EA
  • NJ Public Health Continuing Education Contact Hours: 7.5
  • NJ Licensed Water & Wastewater Operators: 7 TCHs
  • NJ Certified Public Works Managers (CPWM): 5 Technical, 2 Government
  • NJ Licensed Professional Engineers: 6 Continuing Professional Competency (CPC) credits
  • NY Professional Engineers: 7 hours
  • NJ Licensed Site Remediation Professionals (LSRP): 6.5 Technical CEC’s

The course will be held on Wednesday, June 5 2019 from 8:30AM to 5:00PM at the Rutgers Continuing Education Center at the Atrium in Somerset, NJ. Register on or before May 22 to take advantage of a discounted early registration fee. Pre-registration is required. Continental breakfast and buffet lunch are provided at no additional cost.

Princeton Hydro is proud to partner with Rutgers Office of Continuing Professional Education and take part in this valuable continuing professional education course. We hope to see you there!