Changes in growth, internode distance and nutrient concentrations of the seagrassHalophila ovaliswith exposure to sediment sulphide

Changes in growth, internode distance and nutrient concentrations of the seagrassHalophila ovaliswith exposure to sediment sulphide

Sulphide concentrations in estuarine sediments are likely to increase with increased organic matter fluxes (eutrophication) and increased temperatures (global warming). The short-term effects of sulphide on the growth, nutrition and morphology of the seagrassHalophila ovalis(R.Br.) Hook. f. were inv...

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Bibliographic Details
Published in:Marine ecology. Progress series (Halstenbek) Vol. 361; pp. 83 - 91
Main Authors: Kilminster, K. L., Walker, D. I., Thompson, P. A., Raven, J. A.
Format: Journal Article
Language:English
Published: Inter-Research 09-06-2008
Subjects:
Biomass production
Internodes
Marinas
Meadows
Oxygen
Phosphorus
Plants
Rhizomes
Sediments
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Summary:Sulphide concentrations in estuarine sediments are likely to increase with increased organic matter fluxes (eutrophication) and increased temperatures (global warming). The short-term effects of sulphide on the growth, nutrition and morphology of the seagrassHalophila ovalis(R.Br.) Hook. f. were investigatedin situ. Sediments within aH. ovalismeadow were enriched with Na₂S equivalent to 0, 1.1 and 4.2 g m–2. Sulphide diffusion tubes were estimated to increase sulphide concentrations by 1 to 4 mmol l–1, concentrations typical of elevated sulphide measured in natural systems. Biomass, internode distance and growth rate (mg apex–1day–1) were determined, and plant material was analysed for soluble carbohydrate, carbon, nitrogen and phosphorus. Sulphide exposure caused significant reduction in growth (63%), average leaf weight (30%) and internode distance (15%). Above-ground tissue phosphorus concentration and internode distance were significant predictors of growth (R² = 0.63, p < 0.01). These results demonstrate the plasticity ofH. ovalisin response to a short-term sulphide pulse, and may have implications for recovery from transient sulphide stress.
ISSN:0171-8630
1616-1599