Laserfiche WebLink
i <br /> I <br /> _ I <br /> `-USGS Release: Decades-old Nitrate Found <br /> to Affect Stream Water Quality (5/7/2013 <br /> 8:31:59 AM) <br /> USGS hydrologic researchers have found that the movement of nitrate through <br /> groundwater to streams can take decades to occur. This long lag time means that <br /> changes in the use of nitrogen-based fertilizer (the typical source of nitrate) — <br /> whether the change is initiation, adjustment, or cessation — may take decades to be <br /> fully observed in streams, according to a recent study published in the journal <br /> Environmental Science and Technology. <br /> Water quality experts have been noting in recent years that nitrate trends in streams <br /> and rivers do not match their expectations based on reduced regional use of <br /> nitrogen-based fertilizer. The long travel times of groundwater discharge, like those <br /> documented in this study, have previously been suggested as the likely factor <br /> responsible for these observations. <br /> "This study provides direct evidence that nitrate can take decades to travel from <br /> recharge at the land surface to discharge in streams," said Jerad Bales, acting USGS <br /> Associate Director for Water. "This is an important finding because long travel times <br /> will delay direct observation of the full effect of nutrient management strategies on <br /> stream quality." <br /> Rivers and streams are fed by both groundwater held in underground aquifers and <br /> surface water from precipitation runoff. In low streamflow conditions, groundwater <br /> sources take a larger role. <br /> In this study, USGS scientists closely examined surface and ground waters at seven <br /> study sites from across the nation to determine the portion of stream nitrate derived <br /> from groundwater. They found that most of the nitrate observed in streams located <br /> in groundwater-dominated watersheds was derived from groundwater sources. To <br /> determine the time it takes groundwater to reach a stream in a groundwater- <br /> dominated watershed, an age dating tracer study was conducted in the Tomorrow <br /> River in central Wisconsin. The findings indicated that decades-old nitrate-laden <br /> water was currently discharging to this stream. Consequently, base flow nitrate <br /> concentrations in this stream may be sustained for decades to come, regardless of <br /> current and future practices. <br /> The slow release of groundwater nitrate to streams may also affect the water quality <br /> of large rivers. For example, increases in nitrate concentrations during low and <br /> moderate flows in large rivers in the Mississippi River Basin have been observed to <br /> i <br /> 4 { <br /> i <br /> I <br />