We conducted continuous-flow experiments on intact sediment cores from Laguna Madre, Sabine Lake, East Matagorda Bay, and Nueces Estuary to evaluate internal nitrogen (N) sources, sinks, and retention mechanisms in Texas estuaries having different salinities. Mean ammonium (NH ) flux ranged from slight uptake (negative values) Nitrogen (N), a key nutrient limiting primary production in coastal ecosystems, can be introduced to coastal waters via tributaries, atmospheric deposition, or groundwater inputs as nitrates (NO or NO ), ammonium (NH ), and or-ganic N, or through N-fixation (Brock 2001;Paerl et al. 2002;Seitzinger et al. 2002). Available N is removed from coastal waters via physical transport, sediment burial, or conversion to gaseous forms, such as N 2 or N 2 O, via denitrification (Seitzinger et al. 1984;Brock 2001). An improved understanding of N dynamics in coastal systems is needed 1 Corresponding author (gardner@utmsi.utexas.edu). 2 Current address: Pusan National University, 30 Jangjeon-dong, Geumjeong-gu, Busan 609-735, Korea.
AcknowledgmentsRick Kalke, Matt First, Melody Bernot, and Walter Dodds provided assistance for some of the field collections. Discussions and suggestions about N dynamics in Texas coastal regions provided by Ron Benner, Paul Montagna, and other colleagues are appreciated. We are grateful for the thorough and constructive observations and suggestions provided by two anonymous reviewers.
