67-8 Fate and Transport of Inorganic Nitrogen along Groundwater Flow Paths in a Coastal Aquifer System

Poster Number 29

See more from this Division: Joint Sessions
See more from this Session: Subsurface Fate and Transport of Agricultural Contaminants (Posters)

Tuesday, 7 October 2008
George R. Brown Convention Center, Exhibit Hall E

James J. Connors Jr, Earth Sciences, Geology, University of South Alabama, Mobile, AL
Abstract:
Weeks Bay is a small estuary located on the U.S. Gulf Coast that drains approximately 520 square kilometers of predominantly agricultural land in Baldwin County, Alabama. A two-year hydrogeological investigation of the bay focused on detecting and quantifying groundwater discharges into the bay, measuring the amount of dissolved inorganic nitrogen delivered to the bay via groundwater, and delineating of nitrogen fate and transport along influent groundwater flow paths. The work involved the installation and quarterly monitoring of several offshore piezometers and onshore monitoring wells, and found that groundwater discharges into the bay from two aquifers: a shallow water-table aquifer that is in direct hydraulic contact with Weeks Bay, and a deeper, confined aquifer that is separated from the bay by a confining unit. This confining unit includes extremely low-permeability sediments situated along the bay bottom. Nitrogen concentrations detected in groundwater displayed a trend of increasing nitrate and decreasing ammonium with depth. Nitrate reduction occurs as groundwater flow paths pass through anoxic sediments in the bay and the riparian zone. Peak nitrate concentrations detected occasionally in bay waters could not be correlated to groundwater influx, but there is evidence that day-to-day nitrate concentrations in the water column are similar to those detected in submarine groundwater discharges.

See more from this Division: Joint Sessions
See more from this Session: Subsurface Fate and Transport of Agricultural Contaminants (Posters)