Researchers Model Differences in East Coast Sea Level Rise

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For years, scientists have been warning of a so-called “hot spot” of accelerated sea-level rise along the northeastern U.S. coast. But accurately modeling this acceleration as well as variations in sea-level rise from one region to another has proven challenging.

Now an upcoming paper in Geophysical Research Letters offers the first comprehensive model for understanding differences in sea level rise along North America’s East Coast. That model incorporates data not just from atmospheric pressure and ocean dynamics—changing currents, rising ocean temperatures and salinity all influence sea level—but also, for the first time, ice mass change in Greenland and Antarctica. The researchers say their model supports a growing consensus that sea level rise began accelerating in 1990 and that what they found will improve estimates of future sea level rise at a local level.

For years, scientists have been warning of a so-called “hot spot” of accelerated sea-level rise along the northeastern U.S. coast. But accurately modeling this acceleration as well as variations in sea-level rise from one region to another has proven challenging.

Now an upcoming paper in Geophysical Research Letters offers the first comprehensive model for understanding differences in sea level rise along North America’s East Coast. That model incorporates data not just from atmospheric pressure and ocean dynamics—changing currents, rising ocean temperatures and salinity all influence sea level—but also, for the first time, ice mass change in Greenland and Antarctica. The researchers say their model supports a growing consensus that sea level rise began accelerating in 1990 and that what they found will improve estimates of future sea level rise at a local level.

“A lot of people have been looking for sea level acceleration and have been having trouble finding it,” said James Davis, co-author on the paper and a professor and researcher at the Lamont-Doherty Earth Observatory. “The fact that we could model this well seems to indicate that what we are measuring is correct.”

Continue reading at The Earth Institute - Columbia University

Image: A NOAA water level monitoring station with an acoustic sensor on Dauphin Island, Alabama. Such tide gauges along the U.S. coast give scientists a baseline of sea level changes dating at least to the 19th century. Photo: NOAA / courtesy Morgan McHugh