Nitrate applications to control phosphorus release from sediments of a shallow eutrophic estuary: an experimental evaluation

T.F. McAuliffe; R.J. Lukatelich; A.J. McComb; S. Qiu

doi:10.1071/MF97116

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Nitrate applications to control phosphorus release from sediments of a shallow eutrophic estuary: an experimental evaluation

Journal article

Peer reviewed

Nitrate applications to control phosphorus release from sediments of a shallow eutrophic estuary: an experimental evaluation

T.F. McAuliffe, R.J. Lukatelich, A.J. McComb and S. Qiu

Marine and Freshwater Research, Vol.49(6), pp.463-473

1998

DOI: https://doi.org/10.1071/MF97116

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Abstract

Effects of nitrate on phosphate release from sediments of a eutrophic estuary were investigated under laboratory conditions, using reconstituted sediment–water cores. Application of nitrate (5–100 mg L-1 NO3-N) increased redox potential near the sediment–water interface from –200 mV to about 200 mV during 25 days of incubation. The effective concentration of nitrate differed between sediments, reflecting differences in sediment properties, particularly bioavailable carbon. Reduced phosphate after nitrate application is attributed mainly to: (1) increased iron (III) binding near the sediment–water interface; and (2) increased dissolved oxygen in the water column due to lowered oxygen demand, with increased oxidation of ferrous iron and substances binding soluble reactive phosphate. High nitrate concentrations (50 and 100 mg L-1 NO3-N) did not persist through a 155-day incubation, suggesting that without carbon limitation added nitrate will eventually be consumed by microbial activity, and increased phosphate release may occur. Nitrate application directly into the surface sediment increased nitrate consumption, and so was less effective than application to the water column. Frequent resuspension increased dissolved oxygen concentration, so reduced nitrate consumption and lowered concentration of soluble reactive phosphate.

Details

Title: Nitrate applications to control phosphorus release from sediments of a shallow eutrophic estuary: an experimental evaluation
Authors/Creators: T.F. McAuliffe (Author/Creator)
R.J. Lukatelich (Author/Creator)
A.J. McComb (Author/Creator)
S. Qiu (Author/Creator)
Publication Details: Marine and Freshwater Research, Vol.49(6), pp.463-473
Publisher: CSIRO Publishing
Identifiers: 991005544209607891
Copyright: © CSIRO 1998
Murdoch Affiliation: School of Environmental Science
Language: English
Resource Type: Journal article

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Citation topics: 3 Agriculture, Environment & Ecology; 3.2 Marine Biology; 3.2.216 Lake Ecosystems
Web Of Science research areas: Fisheries; Limnology; Marine & Freshwater Biology; Oceanography
ESI research areas: Plant & Animal Science