Short-sediment cores and flooding water were collected at 0, 5, 15, 25 and 50 min of tidal inundation in the two sites colonised by pure stands of Spartina maritima (low marsh) and Sarcocornia fruticosa (high marsh) from the Rosário salt marsh (Tagus estuary, SW Europe). Concentrations of NH(4)(+), NO(3)(-) + NO(2)(-) and HPO (4)(2-), Fe and Mn were measured in tidal flooding water and pore water. Flooding water is enriched in nutrients, particularly ammonium due to local discharge of untreated urban effluents. Nevertheless, NH(4)(+) and NO(3)(-) + NO(2)(-) concentrations in flooding waters at t = 5 min (NH(4)(+) = 246 ± 7 μM, NO(3)(-) + NO(2)(-) = 138 ± 1 μM for S. fruticosa and NH(4)(+) = 256 ± 8 μM, NO(3)(-) + NO(2)(-) = 138 ± 1 μM for S. maritima) rose sharply at both vegetated sites. An increase was also registered for HPO(4)(2-) and total dissolved Fe although the subsequent decrease was smoother. Advective transport induced by the two daily pulses of inundation is several orders of magnitude higher than the diffusive fluxes during submerged periods. In addition, solutes are exported from the sediment with the inundation and imported in submerged periods. The exported amount of inorganic nitrogen during tidal inundation (export of 3,200 μmol N m(-2) day(-1)to the water column), is not counterbalanced by the sink of -290 μmol N m(-2) day(-1) occurred during the submerged period.
Short-sediment cores and flooding pan class="Chemical">water were collected at 0, 5, 15, 25 and 50 min of tidal inundation in the two sites colonised by pure stands of n>an class="Species">Spartina maritima (low marsh) and Sarcocornia fruticosa (high marsh) from the Rosário salt marsh (Tagus estuary, SW Europe). Concentrations of NH(4)(+), NO(3)(-) + NO(2)(-) and HPO (4)(2-), Fe and Mn were measured in tidal flooding water and pore water. Flooding water is enriched in nutrients, particularly ammonium due to local discharge of untreated urban effluents. Nevertheless, NH(4)(+) and NO(3)(-) + NO(2)(-) concentrations in flooding waters at t = 5 min (NH(4)(+) = 246 ± 7 μM, NO(3)(-) + NO(2)(-) = 138 ± 1 μM for S. fruticosa and NH(4)(+) = 256 ± 8 μM, NO(3)(-) + NO(2)(-) = 138 ± 1 μM for S. maritima) rose sharply at both vegetated sites. An increase was also registered for HPO(4)(2-) and total dissolved Fe although the subsequent decrease was smoother. Advective transport induced by the two daily pulses of inundation is several orders of magnitude higher than the diffusive fluxes during submerged periods. In addition, solutes are exported from the sediment with the inundation and imported in submerged periods. The exported amount of inorganic nitrogen during tidal inundation (export of 3,200 μmol N m(-2) day(-1)to the water column), is not counterbalanced by the sink of -290 μmol N m(-2) day(-1) occurred during the submerged period.
Authors: Juan Santos-Echeandía; Carlos Vale; Miguel Caetano; Patrícia Pereira; Ricardo Prego Journal: Mar Environ Res Date: 2010-07-22 Impact factor: 3.130
Authors: A A van de Graaf; A Mulder; P de Bruijn; M S Jetten; L A Robertson; J G Kuenen Journal: Appl Environ Microbiol Date: 1995-04 Impact factor: 4.792