19 Oct 2015

Kick Off of Dyke Marsh Restoration Project, Largest Remaining Freshwater Wetlands in the Washington Metropolitan Area

The Baltimore District and the National Park Service will begin small-scale geotechnical drilling at Dyke Marsh Wildlife Preserve, the week of Oct. 19. This investigation is in preparation for a proposed interagency project to restore up to 100 acres of freshwater tidal marsh within the 485-acre Dyke Marsh. A 2009 study of Dyke Marsh by the NPS and the U.S. Geological Survey found that this unique ecosystem would be entirely lost by 2035 without restoration efforts. Dyke Marsh is home to more than 300 species of plants and 270 species of birds - including the only known breeding population of marsh wrens in the region.

2 Oct 2015

Baltimore Distict prepares for heavy rain, winds

The Baltimore District is preparing for potential flooding and emergency support to the Susquehanna River and Potomac River watersheds in anticipation of heavy rains and the effects of Hurricane Joaquin. With costal flood risk management projects in Ocean City, Maryland, along with 16 reservoirs and nearly 150 miles of levees throughout Maryland, the District of Columbia, Pennsylvania, New York, and West Virginia, Corps officials are taking measures to reduce the risk of flooding to communities throughout the region.

26 Aug 2015

2015 Army Corps of Engineers Project Manager of the Year named, led expansive post-Sandy coastal flood risk study

Lt. Gen. Thomas P. Bostick, U.S. Army, chief of engineers, presented Dave Robbins with the 2015 Project Manager of the Year award at the annual U.S. Army Corps of Engineers National Awards Ceremony, held in Washington, D.C. in August. Robbins works within the Planning Division at the Corps’s Baltimore District. He is a geographer by trade and was the project manager for the North Atlantic Coast Comprehensive Study, which was a massive, innovative interagency study that came to fruition as a result of Hurricane Sandy's devastating aftermath.

17 Jul 2015

Baltimore District welcomes its 67th commander

Col. Edward P. Chamberlayne became the 67th commander of the Baltimore District, during a traditional military change of command ceremony Friday at Fort McHenry. He assumed command from Col. J. Richard Jordan III who has commanded the Baltimore District for the past three years. Chamberlayne, a native of Alexandria, Virginia, will now command the Corps district that includes his hometown.

6 May 2015

Corps of Engineers, partners start oyster restoration in the Tred Avon River, as restoration in Harris Creek nears completion

Baltimore District and partners began constructing oyster reefs in the Tred Avon River, April 30, 2015, just as restoration on 370 acres wraps up in Harris Creek. These efforts are part of the Maryland statewide oyster restoration program that identifies tributaries in the Chesapeake Bay for restoration.

29 Apr 2015

GIS – much more than maps

The handy technology used to create the colorful maps that lead you to view the tigers at the zoo or let you know how much snow you will receive during the next winter storm, also serves as a critical aspect in performing jobs and communicating more effectively with stakeholders. The U.S. Army Corps of Engineers, Baltimore District applies this same cutting-edge technology for a variety of initiatives, such as mapping stormwater infrastructure and runoff into the Chesapeake Bay, delineating floodplains and wetlands, and displaying the projects that fall within its various mission-area boundaries.

14 Mar 2012

Exploratory drilling brings out benefits of partnership between districts

SILVER POINT, Tenn. (March 14, 2012) – A drill rig crew from the U.S. Army Corps of Engineers Baltimore District extracted core samples here today that are being closely examined by Nashville District geologists at Center Hill Lake near what is known as the Saddle Dam. However, the exploratory drilling is revealing more than just the condition of rock formations; it’s also bringing out the benefits of the two districts partnering together to explore the movement of water seepage through the karst geology in the area.