About SERC

The Smithsonian Environmental Research Center (SERC) provides science-based knowledge to meet the environmental challenges of the 21st century. SERC leads research on coastal ecosystems—where land meets the sea—to inform real-world decisions for wise policies, best business practices, and a sustainable planet.

Our work is urgent: The world’s coastal zones are home to more than 70 percent of the global population and experience intense economic activity. The rate of environmental change is accelerating at an alarming rate. Since its creation in 1965, SERC has been conducting peer-reviewed research to understand the causes and consequences of rapid change in Chesapeake Bay and around the world.

RESEARCH

Headquartered on Chesapeake Bay, the nation’s largest estuary, SERC sits just 25 miles from the nation’s capital. Its 2,650-acre campus spans forests, wetlands, marshes and 12 miles of protected shoreline. The site serves as a natural laboratory for long-term and cutting edge ecological research. Here we are exploring the most pressing issues affecting the environment, including:

• water quality

• fisheries

• invasive species

• conservation

• land use

• toxic chemicals

• global change

SERC research extends to other sites around the world. In addition to the Romberg Tiburon Center on San Francisco Bay, a branch of SERC’s Marine Invasions Laboratory, SERC ecologists have worked in places such as Alaska, Florida, Belize, Panama, the United Arab Emirates and the South Pole Sea.

EDUCATION

SERC explains environmental science in innovative ways that change how people view the biosphere, and inspire them to take an active role in sustainable stewardship of the Earth. The campus is open for drop-in visitors, school groups and citizen scientists to learn about the natural world and join in hands-on ecological research.

Learn more about our Citizen Science and Public Programs

SUCCESS STORIES

SERC aims to find solutions to the urgent environmental issues in the daily news. A few key accomplishments include:

• Reducing mercury pollution into the food chain and seafood

• Rescuing blue crabs and other fisheries from decline, using science to inform managers and policymakers

• Measuring the carbon sequestration of coastal ecosystems

• Finding land management strategies to reduce nutrient pollution

• Developing effective strategies for coastal shoreline stabilization

• Protecting endangered and threatened orchids of North America

• Guarding against invasive species through field surveys, ship management with the U.S. Coast Guard and the creation of a national database