"The Danube Delta is like the Everglades," said Liviu Giosan, who grew up near the Romanian wetlands. More than 300 bird species and 45 freshwater fish species make homes in the fertile labyrinth of marshes, dunes, and channels.
The triangle-shaped, sediment-rich region at the mouth of the Danube River is also rich with human history* The area has been settled since the Stone Age, and the ancient Greeks, Romans, and Byzantines built trading ports and military outposts along the coast. A traditional maritime culture persists on the delta, and the United Nations has declared the region a World Heritage site.
The Danube Delta is also a great place for a geologist to study how the coast stretches, contracts, and undulates with time and human interference.
The Danube is Europe's second-longest river and a major artery for trade and transportation. Starting in the Black Forest in Germany, it winds 2,850 kilometers (1,770 miles) through nine countries before pouring into the Black Sea from Romania and Ukraine. A proposed project to dredge several arms and channels of the river for shipping will fundamentally alter the delta, said Giosan, a coastal geologist at Woods Hole Oceanographic Institution.
"We have experience from other parts of the world with the damage that occurs from altering rivers and wetlands," he said. "Why not learn from that?"
The delta--named for its resemblance to the Greek letter [DELTA]--serves as a sieve filtering fresh water and sediment from the European interior before it reaches the salty sea. Buried in the sediments lies a geo logic record of a moving, changeable shoreline that has shaped human history; in recent years, history has been shaping the river. For several years, Giosan has been working with geographer Emil Vespremeanu of Bucharest University and WHOI geologist Jeff Donnelly to dig into the Danube's secrets.
They traveled in small "dormitory" boats from Tulcea, where the roads end, to a base station near the Black Sea coast. They cruised small canals and arms of the river to take sediment cores from old beach ridges, and they used sonar to chart the shape of the seafloor near the mouth. Blending field geology with computer modeling, they are reconstructing the forces that changed the flow and structure of the delta in the past and figuring out what this can tell us about how the delta could change in the future.
"We need to understand the river mouth, where a delta is built," said Giosan. The traditional understanding of deltas holds that the river carries all the mud and sand deposited at the river mouth. But Giosan questioned this old assumption, and he and his colleagues are showing that not all the sediment is brought by the river. Waves, currents, and tides also help build the delta from the seaward side by moving and depositing sediments at the coast.
In fact, the river can serve as a natural barrier to the flow of water and sand that builds and erodes the coast. …