Study maps hidden water pollution in U.S. coastal areas

Aug 08, 2016 12:00 AM

Coastal waters and near-shore groundwater supplies along more than a fifth of coastlines in the continental United States are vulnerable to contamination from previously hidden underground transfers of water between the oceans and land, finds a new study by researchers at The Ohio State University, Columbus, and NASA's Jet Propulsion Laboratory, Pasadena, California.

The study, published online in the journal Science, offers the first-ever map of the underground flows that connect fresh groundwater beneath the continental United States and seawater in the surrounding oceans. The map highlights areas most vulnerable to degraded water quality from these flows now and in the future.

The researchers combined U.S. topographic data and NASA climate models to identify key inland regions that contribute groundwater and contaminants to the coast. They examined rainfall, evaporation rates and the amount of known surface runoff to calculate the missing portion of water that was running out below ground, then melded those results with terrain and land-use data to identify where the water ended up. The team was able to learn more about the previously hidden water exchanges via computer analyses, without extensive and costly field surveys.

Audrey Sawyer, assistant professor of Earth Sciences at The Ohio State University and leader of the study, said that while scientists have long known that freshwater and seawater mix unseen below ground, until now they hadn't been able to pinpoint exactly where it was happening, or how much, except in limited locations.

"We're all pretty familiar with the idea that rain falls on land and flows out to the ocean in rivers, but there's another, hidden component of rainfall that infiltrates the ground near the coast and spills into the ocean below sea level," Sawyer said. "It's known as 'submarine groundwater discharge.' Freshwater flows out to sea, and vice versa. Urbanization, agricultural development, climate and topography all affect how much water flows in either direction, and the exchange has a big impact on both onshore groundwater that we drink and offshore seawater where we swim and fish."

What Areas Are Most Vulnerable?

The study identified 12 percent of the continental U.S. coastline - including the northern Gulf Coast from Mississippi to the Florida Panhandle, northern Atlantic Coast and Pacific Northwest - as areas where once-hidden drainage systems make the ocean most susceptible to contamination from septic tanks and fertilizer in freshwater. There, excess nutrients in the water can cause harmful algal blooms to form, which remove vital oxygen from the water. This contamination from land to sea endangers fisheries and coral reefs, as well as water recreation and tourism.

In contrast, the team found that another 9 percent of coastline - including confirmed locations such as Southeastern Florida, Southern California and Long Island, New York - are especially susceptible to the opposite threat: contamination from sea to land. In these areas, saltwater intrudes inland and infiltrates the fresh groundwater supply.

"It takes only a small amount of salt water to render drinking water non-potable, so saltwater invasion is a big concern for water resource management in coastal areas," Sawyer said.

The study found Los Angeles and San Francisco are vulnerable to both ocean contamination and saltwater intrusion.

U.S. coastal areas where freshwater and seawater mix unseen below ground, making them vulnerable to ocean and/or drinking water contamination. Dark blue areas are vulnerable to land-to-sea pollution; pink to sea-to-land pollution; light blue to both. Areas may appear larger for visibility purposes. Image courtesy The Ohio State University/NASA-JPL/Caltech. For a larger version of this image please go here.

 

How Much Water is Involved?
Overall, the study calculates that more than 15 billion tons of freshwater flow through invisible underground networks into the ocean along the continental U.S. coastline every year. That sounds like a lot of water, but it's less than 1 percent of the total amount that flows from the continental United States into the ocean, said study co-author Cedric David of JPL. The other 99 percent comes from rivers and surface runoff.

Still, David explained, the study is significant because it provides the first continental-scale, high-resolution estimate of that 1 percent - a portion which, when compared to the other 99 percent, can be particularly rich in nutrients and other contaminants.

"This Ohio State-JPL collaboration has removed the cloak from hidden groundwater transfers between land and sea," he said.

For example, the amount of yearly precipitation is similar in the Pacific Northwest and the mid-Atlantic regions, but the study found that underground drainage rates into the ocean were approximately 50 percent higher in the Pacific Northwest because the steep terrain there carries more groundwater to the coastline.

The researchers found that land use was critical to discharge in Florida. Sawyer said that she was surprised by the big effect that canals had there.

Since the early 20th century, Floridians have constructed thousands of miles of canals along the state's coasts for transportation, irrigation and recreation. The study found that the canals may capture water that would otherwise flow underground and out to sea.

The researchers commented that increased urbanization - and the extensive pavement that goes along with it - will also decrease groundwater recharge and ultimate drainage to coastal regions where the population is growing, increasing the likelihood of saltwater intrusion.

"That's why we hope others will use our analysis to better plan strategies for coastal land development and groundwater management that help preserve water quality," Sawyer said. "Right now, we've created a map of American coastlines that highlights some previously known as well as unknown areas of vulnerability along the U.S. coastline, but we hope to be able to do it for the world shortly, as data become available."

Model data for the study came from the enhanced National Hydrography Dataset NHDPlus, originally built by the U.S. Environmental Protection Agency and U.S. Geological Survey, and now developed by Horizon Systems Corporation in Herndon, Virginia; the North American Land Data Assimilation System from NASA's Goddard Space Flight Center, Greenbelt, Maryland; the Variable Infiltration Capacity Macroscale Hydrologic Model from the University of Washington; the 2011 National Land Cover Database from the Multi-Resolution Land Characteristics Consortium; and the United States 2010 Census.

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