From the restoration of tidal wetlands to the greening of a town cemetery, 40 environmental projects across the Chesapeake Bay watershed have received more than $9 million in funding from the National Fish and Wildlife Foundation’s (NFWF) Chesapeake Bay Stewardship Fund.
Image courtesy Eric Vance/U.S. Environmental Protection Agency
Half of the projects will be funded by the Small Watershed Grants Program, which supports on-the-ground restoration, conservation and community engagement. Twenty more will be funded by the Innovative Nutrient and Sediment Reduction Grants Program, which finances the reduction of nutrient and sediment pollution in rivers and streams.
The Anacostia Watershed Society, for instance, will restore more than 10 acres of tidal wetlands along the Anacostia River, improving area flood control and outdoor recreation. The Oyster Recovery Partnership will repopulate at least 40 acres of oyster reefs in Harris Creek, bolstering current restoration work in the Choptank River tributary. And the Town of Bath in West Virginia will bring green infrastructure into a local cemetery, increasing tree canopy and reducing erosion into the Potomac River.
Image courtesy Eric Vance/U.S. Environmental Protection Agency
The awards were announced this morning at the Earth Conservation Corps Pump House, where a wetland restoration project was funded by the Chesapeake Bay Stewardship Fund in 2012.
Learn more about the grant recipients.
Three watershed organizations are marking three decades of Chesapeake Bay restoration with an initiative that links tree plantings, rain garden installations and other “green” events to encourage people to reflect on the Bay’s past and take steps toward securing its future.
The Alliance for the Chesapeake Bay, the Choose Clean Water Coalition and the Chesapeake Bay Foundation have named their initiative “30 Events for 30 Years: Planting Seeds for the Future.” It marks the thirtieth anniversary of the signing of the first Chesapeake Bay Agreement—which in 1983 established the Chesapeake Bay Program—and expresses gratitude toward citizens, educators, officials and others who have been part of Bay restoration ever since.
But above all, the initiative celebrates the hard work of the watershed’s volunteers. “Ordinary citizens… have volunteered their time in so many ways,” said Al Todd, executive director of the Alliance, in a media release. “Picking up trash, planting trees, restoring streams and monitoring water quality are just some of the ways that volunteers can ensure the health of our rivers and streams.”
More than a dozen organizations have joined the initiative, with more than 30 restoration events scheduled for the fall. Among them? An urban tree planting in Harrisburg, Pa.; a creek-side tree planting in Berkley Springs, W.Va.; and a rain garden installation in Baltimore. Find an event near you with this interactive map.
The Chesapeake Bay watershed is home to more than 17 million people, each of whom is reliant on water. But as populations grow and communities expand, we send pollutants into our rivers and streams, affecting every drop of water in the region. How, then, do so many of us still have access to clean water? The answer lies within wastewater treatment plants.
One plant, in particular, plays a pivotal role in the region’s water quality. Located in Washington, D.C., the Blue Plains Wastewater Treatment Plant has served the D.C. metropolitan area since 1983. The plant receives 40 percent of its flow from Maryland, 40 percent from the District and 20 percent from Virginia. With the capacity to treat 370 million gallons of sewage each day, it is the largest wastewater treatment plant in the world and the only one in the nation to serve multiple states.
Recently, the District of Columbia Water and Sewer Authority—also known as DC Water—made technological upgrades to Blue Plains. Evidence shows these upgrades have already accounted for reductions in nutrient pollution and a resurgence in the upper Potomac River’s bay grass beds. Indeed, putting new wastewater treatment technology in place is a critical step toward meeting the pollution limits established in the Chesapeake Bay Total Maximum Daily Load. As of 2012, 45 percent of the watershed's 467 wastewater treatment plants had limits in place that met water quality standards.
Because of spatial constraints, many of upgrades planned for Blue Plains will focus on intensifying the wastewater treatment process. According to Sudhir Muthy, innovation chief for DC Water, the more concentrated the purification process is, the more energy efficient the plant can be.
For decades, the philosophy behind wastewater treatment plants has been to imitate those clean water processes that you might see in natural systems. Lately, there has been a shift in thinking about how wastewater is treated. Murthy explains: “Now, more attention is given to using the energy created within the treatment process to run the plant. [For example,] carbon has a lot of energy and is created during the treatment process. We are trying to harness [carbon’s] energy to help the plant run in a more energy-efficient way. We are now asking: How do we optimize the use of energy within the wastewater treatment process?”
Blue Plains hopes to become energy neutral in 10 to 15 years, and upgrades to reduce pollution and save energy will continue for years to come. A new tunnel will allow both sewage and wastewater to flow from the District to the plant, where it will be treated to reduce the flow of polluted runoff into the Potomac River. And a new process will recycle “waste” heat to “steam explode” bacterial sludge, turning it into a biosolid that can be mixed with soil, used as fertilizer and generate extra revenue.
“All processes use energy,” Muthy said. “But if you can find ways to offset or recycle that energy use, then you can move towards being more efficient.”
The James River Association has measured a slight improvement in James River health, giving the waterway a “C” in its latest State of the James report.
Image courtesy tvnewsbadge/Flickr
The river’s score of 53 on a one-to-100 scale marks a two percent increase since the report was last issued in 2011, but continued problems with sediment pollution overshadow progress made elsewhere.
While sediment is a natural part of the environment, excess particles of sand, silt and clay can cloud the water, harming underwater grasses, fish and shellfish. According to the State of the James report, sediment pollution in the James has shown no improvement over the past two decades, indicating that stronger measures should be taken to restore streamside forests and other buffers that can filter runoff before it enters rivers and streams.
Virginia has made strides, however, in reducing nutrient pollution, as it works to meet limits set by the Chesapeake Bay Total Maximum Daily Load or “pollution diet.” The Commonwealth has invested in wastewater treatment, increased funding toward agricultural conservation and focused attention on controlling stormwater runoff.