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UGA helps coastal communities address a potential public health crisis: Failing septic tanks

Ashley Cooper-Heath’s house is on the banks of the St. Mary’s River in Camden County.

She and her husband had been there about a decade when they noticed that their septic tank was leaking, spilling sewage into the river.

“I really didn’t want to have to spend the money replacing it, but I knew at some point we were going to have to,” Cooper-Heath said.

Fortunately for her, Camden County was already on top of the problem. The county had assessed its septic systems and identified 21 that were failing, including Cooper-Heath’s. Using a grant from the Environmental Protection Agency, the county replaced the failing septic systems with mounded systems and installed them farther from the groundwater table.

“I understand why they don’t dig into the ground because we’re right next to the water and if anything should leak it goes into the (river),” Cooper-Heath says. “Everybody is starting to see the importance now.”

In addition to replacing the systems, Camden County worked with the University of Georgia to add historic records of Camden’s septic systems to an online database of septic systems in coastal Georgia. Having the database will make it easier for officials to recognize and address septic system failures before a serious public health crisis can occur. It also will help communities better plan when they need to install new septic tanks to accommodate growth.

A septic tank sits above ground waiting to be buried near a house“Georgia is one of the first states in the country to develop a comprehensive inventory of existing septic tanks in the entire coastal region,” says Mark Risse, director of UGA Marine Extension and Georgia Sea Grant and lead on the septic system mapping project. “This should allow us to better manage these systems in the future and avoid problems that other rapidly growing coastal areas have experienced.”

Camden County was one of the first of the coastal counties to address the problem of failing septic tanks. Most of the failing systems were installed in areas with poor soil that were prone to flooding, said Terry Ferrell, environmental health manager for the Camden County Coastal Health District. They were also installed before 2000, when the state passed a rule requiring septic tanks be separated from the groundwater table by at least one- to two-feet.

Since replacing the failing or failed systems, water quality samples taken near those sites have shown a decrease in bacteria levels. Ferrell said 20-30 septic systems in the watershed will be replaced in the next phase of the project.

In rural Georgia, where centralized wastewater treatment facilities are few and far between, most homes rely on underground septic systems to store and treat wastewater. Each system has its own drain field where effluent from the tank is slowly discharged into the soil, which treats the wastewater by removing harmful bacteria and nutrients before reaching the groundwater.

The problem is that as sea levels rise, so too does the groundwater table, leaving less soil to filter out contaminants. Increased flooding also leaves the ground more saturated, rendering the drain field temporarily ineffective and leading to septic system failure. These hazards are threatening as many as 60,000 septic systems in coastal Georgia.

Graphic showing traditional septic tank placement in relation to groundwaterGraphic showing how septic tanks are affected by rising sea levels.

When septic failures occur, bacteria and viruses from human waste can enter the groundwater and coastal waterways, making people sick. Coming into contact with this polluted water may result in symptoms that range from vomiting to more severe illnesses like typhoid or dysentery. Poor water quality can also shut down public beaches and restrict shellfish harvesting in certain areas, impacting Georgia’s tourism and commercial fishing industries. Excess pollutants from failing systems that make their way to tidal creeks and estuaries can cause algal blooms, which deplete oxygen levels in the water and kill fish.

“As sea level rise leads to a higher groundwater table and encroaches on the septic drain field, even the newer systems will begin failing,” says Scott Pippin, a faculty member with UGA’s Carl Vinson Institute of Government. Both the Vinson Institute and Marine Extension and Georgia Sea Grant are UGA Public Service and Outreach units. “It is important that communities have plans in place to deal with these issues down the road.”

A dirt mound next to a house is evidence of a newly buried septic tank.That’s where the database becomes essential. With funding from the Department of Natural Resources Coastal Resource Division and the Environmental Protection Agency, the inventory has been expanded to show which septic systems might be at risk based on other factors in the database, such as the likelihood of flooding, sea level rise or pollution. Anyone can access the data to make informed decisions about installing septic systems in certain locations. It also makes it easier for conservation groups and researchers to study or better monitor high risk areas.

So far, the septic inventory includes a total of 57,865 septic tanks in eight of the 11 counties. The team is still entering data from Charlton, Brantley and Wayne counties.

Pippin, in partnership with the UGA Institute for Resilient Infrastructure Systems, has funding from the National Oceanic Atmospheric Administration to use the septic inventory to assess present and future vulnerabilities of septic systems in Bryan County, west of Savannah and home to the Fort Stewart Army Base.

According to the 2016 U.S. Census, Bryan County was the second fastest-growing county in Georgia. As population growth and coastal development increases, improving management and planning for future on-site septic systems in these vulnerable, rural areas becomes increasingly important.

“We’re using inventory data as well as groundwater and sea level rise data,” Pippin says, “to develop a method for evaluating septic system vulnerability and potential site suitability for septic tanks that’s based on present coastal conditions as well as future conditions.”

You can access the database at www.welstrom.com/coastal/.


WRITER

Emily Kenworthy Public Relations Coordinator – Marine Extension & Georgia Sea Grant

ekenworthy@uga.edu • 912-598-2348

CONTACT

Mark Risse Adjunct Senior Public Service Associate – Carl Vinson Institute of Government

mrisse@uga.edu • 706-542-5956

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