Journal article
Inorganic nitrogen transformations within permeable carbonate sands
Continental Shelf Research, Vol.77, pp.69-80
2014
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Source: InCites
Abstract
A combination of in-situ push pull tests and a flow through reactor trial were used to quantify the inorganic nitrogen sinks in the permeable carbonate sands of a tropical coral cay (Heron Island–Great Barrier Reef). Addition of dissolved inorganic nitrogen (DIN in the form of nitrate–NO3, and ammonium–NH4þ) directly into sediment pore water resulted in uptake of up to 97% and 60% of added DIN respectively. The initial push pull experiment qualitatively showed that dissimilatory nitrate reduction to ammonia (DNRA), denitrification and nitrification were all active in the sediments. A flow through reactor experiment provided a more detailed approach to quantify these processes and showed that both denitrification and DNRA occurred within the sands at rates of 7.3 and 5.5mmol N cm3d1, respectively. Unexpectedly the addition of labile organic material (fresh coral spawn) to the permeable sands did not result in the release of DIN from the reactors, on the contrary it resulted in the increased uptake of both NO3and NHþ4. This was most likely because of the stimulated N uptake associated with the addition of high C:N coral spawn material. The bulk of NHþ4produced via DNRA was found to be adsorbed to sediments within the reactor and was not released with the outlet water. A mass balance over the entire experimental period showed that more inorganic N was retained within the sediments than lost as gaseous products. Our results point to permeable carbonate sands acting as reservoirs of N under the influence of advective flow, even during sudden enrichment periods such as those following coral mass spawning. This implies that permeable carbonate sands may help to buffer coral reefs during periods of extreme oligotrophy
Details
- Title
- Inorganic nitrogen transformations within permeable carbonate sands
- Creators
- Dirk V Erler - Southern Cross UniversityIsaac R Santos - Southern Cross UniversityBradley D Eyre - Southern Cross University
- Publication Details
- Continental Shelf Research, Vol.77, pp.69-80
- Identifiers
- 3401; 991012821001602368
- Academic Unit
- Centre for Coastal Biogeochemistry; Faculty of Science and Engineering; National Marine Science Centre; School of Environment, Science and Engineering; Science
- Language
- English
- Resource Type
- Journal article