Critical Infrastructure Is Sinking Along the US East Coast. (Wired)
https://www.wired.com/story/critical-infrastructure-is-sinking-along-the-us-east-coast/
Got that sinking feeling?
A few millimeters a year adds up. No more groundwater extraction, no more flocking to coastal cities. And you are not alone. In the (near to me) San Joaquin Valley, subsidence is as much as dozens of feet.
https://pubs.usgs.gov/publication/sir20185144
Lots more graphics and links at the Wired link.
Last year, scientists
reported that the US Atlantic Coast is dropping by several millimeters annually, with some areas, like Delaware, notching figures several times that rate. So just as the seas are rising, the land along the eastern seaboard is sinking, greatly compounding the hazard for coastal communities.
In a followup
study just published in the journal PNAS Nexus, the researchers tally up the mounting costs of subsidencedue to settling, groundwater extraction, and other factorsfor those communities and their infrastructure. Using satellite measurements, they have found that up to 74,000 square kilometers (29,000 square miles) of the Atlantic Coast are exposed to subsidence of up to 2 millimeters (0.079 inches) a year, affecting up to 14 million people and 6 million properties. And over 3,700 square kilometers along the Atlantic Coast are sinking more than 5 millimeters annually. Thats an even faster change than sea-level rise, currently at 4 millimeters a year. (In the map below, warmer colors represent more subsidence, up to 6 millimeters.)
With each millimeter of subsidence, it gets easier for storm surgesessentially a wall of seawater, which hurricanes are particularly good at pushing onshoreto creep farther inland, destroying more and more infrastructure. And its not just about sea levels, says the studys lead author, Leonard Ohenhen, an environmental security expert at Virginia Tech. You also have potential to disrupt the topography of the land, for example, so you have areas that can get full of flooding when it rains.
A few millimeters of annual subsidence may not sound like much, but these forces are relentless: Unless coastal areas stop extracting groundwater, the land will keep sinking deeper and deeper. The social forces are relentless, too, as more people around the world move to coastal cities, creating even more demand for groundwater. There are processes that are sometimes even cyclic, for example in summers you pump a lot more water so land subsides rapidly in a short period of time, says Manoochehr Shirzaei, an environmental security expert at Virginia Tech and coauthor of the paper. That causes large areas to subside below a threshold that leads the water to flood a large area. When it comes to flooding, falling elevation of land is a tipping element that has been largely ignored by research so far, Shirzaei says.