Relationships between Surface Elevation and Groundwater in Mangrove Forests of Southeast Australia

Relationships between Surface Elevation and Groundwater in Mangrove Forests of Southeast Australia

Mangrove surface elevation was measured by means of the Surface Elevation Table and Marker Horizon technique (SET-MH) in a range of settings in southeastern Australia. Despite sustained vertical accretion, surface elevation declined at most sites with the onset of an El Niño drought in 2001–2002. At...

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Bibliographic Details
Published in:Journal of coastal research Vol. 24; no. sp1; pp. 63 - 69
Main Authors: Rogers, Kerrylee, Saintilan, Neil
Format: Journal Article
Language:English
Published: Fort Lauderdale Coastal Education and Research Foundation (CERF) 01-01-2008
Allen Press Inc
Subjects:
Accretion
Astronomical tides
Australia
Brackish
Changes
Climate variability
Deposition
Directors
Drought
Ecosystems
El Nino
El Nino phenomena
Elevation
Evapotranspiration
Field study
Groundwater
Groundwater discharge
Mangrove
Mangrove forests
Mangrove swamps
Mangroves
Marshes
Perturbation
RESEARCH PAPERS
Salt marshes
Sea level
Sea level changes
Sea level rise
Sediments
Southern Oscillation
Topographical elevation
Trends
Wetlands
Australia
PSE, Australia, New South Wales, Sydney, Homebush Bay
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Summary:Mangrove surface elevation was measured by means of the Surface Elevation Table and Marker Horizon technique (SET-MH) in a range of settings in southeastern Australia. Despite sustained vertical accretion, surface elevation declined at most sites with the onset of an El Niño drought in 2001–2002. At these sites, the Southern Oscillation Index accounted for 70–85% of variability in surface elevation over a 3-year period. At deltaic island sites, this trend was not evident, an observation we attribute to lower terrestrial groundwater inputs. At one site (Homebush Bay), a high correlation was found between surface elevation and groundwater depth, monitored approximately every 2 weeks for 4 months. At the same site, the diurnal astronomical tide was also found to significantly affect mangrove surface elevation, although not to the extent of the El Niño drought. Models of the response of mangroves to sea-level rise on the basis of contemporary processes should account for short-term perturbations, such as climate variability at regional and local scales.
Bibliography:ObjectType-Article-1
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ISSN:0749-0208
1551-5036
DOI:10.2112/05-0519.1