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Water quality protection has a positive trickle-down effect

Water quality protection has a positive trickle-down effect

2016 photo of the old culvert that had two circular pipes with a total diameter of 36 inches. Pictured are Rifat Salim (left) and JoAnne Castagna, Public Affairs. Credit: Graydon Dutcher.


By JoAnne Castagna, Ed.D.

A team of engineers are gathered on a long empty country road in the Town of Harpersfield, N.Y. All that’s heard is the steady drum of rain on their umbrellas. They’re looking over a new culvert they constructed that runs under Odell Lake Road and transports Lake Brook from one side of the road to the other. The rain — that’s been going on for days — is a nuisance, but welcomed by the team from the U.S. Army Corps of Engineers because it’s proving that the culvert is successfully performing its job.

If it were weeks earlier, the road would have been flooded because the previous culvert was damaged. But the success of this project has much bigger implications.  By controlling flooding, the culvert is also improving the water quality of the brook for aquatic life and New York City’s water supply.

2016 photo of the old culvert’s stream banks filled with shrubs and debris. Credit: JoAnne Castagna, Public Affairs

After Lake Brook travels through the culvert, it eventually flows into the West Branch Delaware River, which eventually streams into the Cannonsville Reservoir in Delaware County. This reservoir supplies almost 97 billion gallons of water to the New York City water system. (see “New York City Watershed System” below).

A damaged culvert can jeopardize the quality of this water. The previous culvert was damaged because of years of stormwater impacts due to it being undersized. During storm events, high water from Lake Brook streamed and plugged the undersized culvert, which triggered the water to over top and flood the Odell Lake Road. When this happens it can cause stormwater runoff. This is when water from the road sweeps up contaminates and transports them to bodies of water, such as brooks, adversely affecting the water.

Stormwater runoff can also damage roads and accelerate streambank erosion. When streambanks are eroded, it makes is easier for soil and pollutants to travel from roads into bodies of water. This pollution can have a damaging effect on the stream’s health and the quality of the water that eventually makes its way to the water supply.

A new culvert was constructed and the culvert’s streambank was restored as part of the Army Corps’ New York City Watershed Environmental Assistance Program.

Graydon Dutcher looking over the new culvert that is successfully working in torrential rain conditions. Credit: JoAnne Castagna, Public Affairs

“This program funds projects that are protecting the water quality of New York State’s watersheds that provide drinking water to millions of New York City residents and businesses,” said Rifat Salim, project manager, U.S. Army Corps of Engineers, New York District.

To perform this work, several agencies collaborated with the Army Corps, including the Delaware County Soil and Watershed Conservation District, New York State Department of Environmental Conservation, New York City Department of Environmental Protection, and the Town of Harpersfield.

The new culvert is larger, allowing a greater amount of water to flow through and reduce the chances of flooding during storm events.

The project team looking over the new culvert as it works successfully in torrential rain conditions. Credit: Graydon Dutcher

Graydon Dutcher, stream program coordinator with the Delaware County Soil and Water Conservation District said, “The previous culvert was two circular pipes with a total diameter of 36 inches.  The new culvert is almost seven times larger. The new culvert is designed to withstand a 100-year storm event, plus 20-percent additional water flow.”

Less flooding means a safer community. Dutcher said, “During storm events, the old undersized culvert would plug up with woody debris causing water to overtop the culvert and flood Odell Lake Road, making the road an unreliable access route in an emergency.

Odell Lake Road can now provide access for people and emergency responders to Stamford and areas North in the county when the West Branch of the Delaware River and its tributaries flood the lower valleys. Less flooding also means less stormwater runoff, resulting in a healthier brook and cleaner water supply.

To further control stormwater runoff, the streambanks along the culvert were restored and stabilized. Rock was placed along the banks to hold down the fine sediment from running into the brook.

With the previous culvert, the stormwater movement over time carved or scoured out a pool in the bed of the brook, further increasing the flow of sediment into the brook. The rock placement is stabilizing the banks, preventing this from occurring in the future.

To provide additional stabilization, native vegetation was planted along the banks, including Willows, Dogwoods, and Apple Trees.

Dutcher said, “Flood waters will drain from the road and filter through this vegetation before entering the brook.”

The plant’s roots stabilize the soil and the vegetation traps and absorbs sediment and pollutants, like harmful phosphorus and nitrogen particles, from entering the brook. This improves the quality of the water, maintains the brook’s temperature and fosters the creation of fish and aquatic habitats.

A healthy environment for aquatic life also includes the ability to migrate and breed. Dutcher said, “The old culvert did not allow for fish passage up stream of the culvert.  The new culvert has a natural stream bottom through it and allows for all organisms to freely pass under the road.”

This project also addresses the future threat of climate change. “With the possibility of increasing storms events, climate resiliency knowledge like this is needed. This project serves as a great reference on how to replace undersized structures, ” said Dutcher.

With the new Odell Road culvert in place, the sound of heavy rain is no longer a threat of flooding for the Harpersfield community. Instead, it’s a reminder that their new culvert is helping to keep their community safe, as well as improve the water quality of their brooks and streams for aquatic life and New York City’s water supply.

 

New York City Watershed System

The New York City watershed region encompasses approximately 2,000 square miles of land north of New York City. The land includes three watershed systems — The Catskill, Delaware, and Croton Systems — that are located in the counties of Greene, Schoharie, Ulster, Sullivan, Westchester, Putnam, Dutchess and Delaware.

The New York City Watershed System provides more than 90 percent of New York City’s water supply, serving approximately 9.5 million people. New York City makes sure that this water is safe by treating it at the source rather than building a costly filtration plant. The source is the land that surrounds the streams, rivers, lakes and reservoirs.

“In 1996, all of the municipalities in the New York City watershed region came to an agreement. They wanted to avoid the creation of a huge filtration plant. Instead of a plant they agreed to have small projects throughout the region to provide the public with clean water with minimal filtration,” said Rifat Salim, project manager, U.S. Army Corps of Engineers. “This is how our New York City Watershed Environmental Assistance Program came about.”


JoAnne Castagna, Ed.D., is a Public Affairs Specialist and Writer for the U.S. Army Corps of Engineers, New York District.  She can be reached at joanne.castagna@usace.army.mil.