Along the East Coast of the United States, relative sea level change does not happen uniformly between Maine and Florida.

Data have shown that sea level rise in the Mid-Atlantic region surpassed changes in relative sea level along the coastlines of the South Atlantic and the Gulf of Maine. A team of researchers including 涩里番下载 Assistant Professor of Earth and Environmental Sciences Carling C. Hay took a look back at historical data through new analytical methods to pinpoint the reason behind the different rates of sea level change.

Assessing data from a range of sources and previous studies, the team concluded that the movement of the earth 鈥 referred to as vertical land motion 鈥 is the dominant force behind variations in rates of sea level rise up and down the East Coast, the team reported in a the journal Nature.

Across the past century, records indicated that sea level rise has varied 鈥 from approximately 1.5 feet along the shores of the Chesapeake Bay in Virginia and the beaches near Cape Hatteras, North Carolina, to approximately one foot near New York City and Miami. Along the coast of Maine, sea level rose only about a half a foot.

The team found that vertical land motion is the primary factor influencing the spatial variability in relative sea level rates, explaining 75 percent of the observed variation along the East Coast, according to the report, titled More than two-thirds 鈥 or 69 percent 鈥 of the observed vertical land motion is due to ongoing effects from the last ice age.


鈥淭his ice age effect is the largest in Maryland, Virginia, and North Carolina,鈥 said Hay, who co-authored the report with colleagues from Woods Hole Oceanographic Institution, Harvard University, Tufts University, and Atmospheric and Environmental Research, Inc.

鈥淭he remaining sea level trends that cannot be explained by vertical land motion also exhibit significant structure, with rates of sea level rise increasing from northern Maine to southern Florida,鈥 Hay said. 鈥淭his spatial structure is consistent with patterns associated with the combined effects of ice melt, groundwater pumping, and dam building over the last century.鈥

This study brings together, within a statistical framework, observations and reconstructions of sea level, vertical land motion data, and physical models of ongoing sea level changes due to the last ice age to determine the sources of the observed variability in 20th century sea level trends, according to Hay.

Previous studies have disagreed on the source of this variability, mostly because no previous study combined all the different data sources and models, and their respective uncertainties, in a statistically robust framework.
Carling Hay, 涩里番下载


Hay said it is important to note that while some of the sea level trends along the coast are influenced by climate change, this study targets sea level changes due to moving land, specifically those associated with the ongoing effects of the last ice age.

鈥淲hile vertical land movement due to the last ice age is both the dominant driver of the spatial variability in sea level rates and a significant contributor to local sea level change, present day ice melt and heating of the oceans also play a large role in explaining the observations,鈥 Hay said.

Hay said the next steps in this line of research will be to include additional sea level factors in the statistical model so that researchers can further explore the sources of spatial variability along the coast.


Ed Hayward / University Communications | January 2019