Fisheries Research Articles

Spatial and temporal variation in nearshore fish and macroinvertebrate assemblages from a temperate Australian estuary over a decade

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Publication Date


Journal Title

Marine Ecology Progress Series (MEPS)


Print: 0171-8630 Electronic: 1616-1599


Estuarine fish, Assemblage structure, Spatial and temporal variability, Community stability, Environmental influences, Southern Australia


Aquaculture and Fisheries | Marine Biology


Nearshore fish and macroinvertebrate assemblages of the Port River-Barker Inlet estuary, South Australia, were sampled by beach seine at monthly intervals between January 1985 and December 1994. Multivariate analyses were used to determine patterns in species distribution and abundance, to determine the influence of site, month and year on assemblage structure, and to identify trends in species composition over the decade. A total of 403626 individuals representing 56 species were recorded, with Aldrichetta forsteri, Hyporhamphus melanochir, Sillaginodes punctata and Pelates octolineatus responsible for 76% of the total abundance. Estuarine-opportunistic species were consistently dominant over the decade with marine stragglers and estuarine-dependents important in some years only. Abundances of the 19 species determined to be dominant varied between years, with some species, e.g. Spratelloides robustus, Hyporhamphus regularis, Arenigobius bifrenatus, Nesogobius sp. 3 and Cristiceps australis, demonstrating considerably greater inter-annual variability compared with others, e.g. S. punctata, A. forsteri, H. melanochir, P. octolineatus, Haletta semifasciata and Sillago schomburgkii. The importance of temporal scale in any assessment of community stability is re-stated; although individual species varied in abundance between months and years, assemblage structure was shown to be reasonably stable over the decade. Water temperature and salinity were weakly correlated with patterns in species composition and abundance. Further experimental studies are required to improve ecological understanding of the system's fish fauna and on-going monitoring is necessary to assess future changes to fish populations in relation to adjacent wetland developments.



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