Skip to main content
ARS Home » News & Events » News Articles » Research News » 2010 » Ditching Phosphorus Runoff

Archived Page

This page has been archived and is being provided for reference purposes only. The page is no longer being updated, and therefore, links on the page may be invalid.

Read the magazine story to find out more.

Photo: ARS soil scientist Ray Bryant (left) and UMES colleague Arthur Allen collect groundwater samples. Link to photo information
ARS soil scientist Ray Bryant (left) and University of Maryland colleague Arthur Allen have found that an underground curtain of synthetic gypsum, a byproduct of scrubbing sulfur from the smokestacks of coal-fired power plants, can filter phosphorous from water that runs off agricultural fields. Click the image for more information about it.

See our information kit to find out more.

For further reading

Ditching Phosphorus Runoff

By Ann Perry
August 9, 2010

An industrial byproduct can help clean up water quality in the Chesapeake Bay by trapping some agricultural pollutants in field runoff, according to a U.S. Department of Agriculture (USDA) scientist.

For years, poultry farmers on the Chesapeake Bay's coastal plain have amended their sandy soils with poultry manure and litter, which provides nitrogen and phosphorus to growing crops. But phosphorus that isn't taken up by plants remains in the subsoil, where it leaches out into a vast network of drainage ditches, and eventually drains into the bay itself. So much phosphorus has accumulated in the regional soils that this discharge would continue even if farmers completely stopped using poultry manure and litter for fertilizer.

Ray Bryant is a soil scientist with the Agricultural Research Service (ARS), USDA's chief intramural scientific research agency. He's developed an innovative buffer system to mitigate this discharge by digging an auxiliary ditch that parallels an existing draining ditch. Then he filled the new ditch with synthetic gypsum, a byproduct produced by the process of scrubbing sulfur from the smokestacks of coal-fired power plants.

When the water passed out of the field and into the gypsum-filled ditch, the soluble calcium in the gypsum "captured" the soluble phosphorus in the water by combining with it and forming calcium phosphate. Bryant found that the gypsum trench could treat the water draining from a field and reduce soluble phosphorus in subsurface drainage by at least 50 percent.

The gypsum "curtains" can last for 10 years. Then they can be excavated and the trapped phosphorus can be used again for fertilizer. Another bonus: Power plants don't have to pay to haul the gypsum to a landfill. These auxiliary ditches, in combination with other conservation and best management practices, could help farmers control phosphorus leaching without disrupting current agricultural operations.

Bryant works at the ARS Pasture Systems and Watershed Management Research Unit in University Park, Pa.

Read more about this work and other research to protect the Chesapeake Bay in the August 2010 issue of Agricultural Research magazine.