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Type: Journal article
Title: Shifts in small-bodied fish assemblages resulting from drought-induced water level recession in terminating lakes of the Murray-Darling Basin, Australia
Author: Wedderburn, S.
Hammer, M.
Bice, C.
Citation: Hydrobiologia, 2012; 691(1):35-46
Publisher: Kluwer Academic Publ
Issue Date: 2012
ISSN: 0018-8158
Statement of
Scotte D. Wedderburn, Michael P. Hammer and Christopher M. Bice
Abstract: Over-abstraction of water places unsustainable pressures on river ecosystems, with the impacts amplified under drought conditions. Freshwater fishes are particularly vulnerable due to associated changes in water quality, and habitat availability, condition and connectivity. Accordingly, fish assemblages are ideal indicators of the impacts of drought and over-abstraction. The Murray-Darling Basin (MDB), south-eastern Australia, terminates at the Ramsar listed Coorong and Lower Lakes, which comprise Lake Alexandrina and Lake Albert. Overabstraction and extreme drought during the last decade has placed these lakes under severe environmental stress. The purpose of this study was to investigate shifts in fish assemblages caused by substantial water level recession and salinization in the Lower Lakes. Small-bodied fish assemblages were sampled at the beginning and several years into the drought. Off-lake habitats held diverse fish assemblages in 2003, but most sites were dry by 2009. Remaining habitats were disconnected, salinities increased substantially, and aquatic vegetation shifted from freshwater to salt tolerant species. There was a substantial decline in the proportion of specialist species, especially diadromous and threatened species, and an emerging dominance of generalist freshwater and estuarine species. The findings warn of the inevitable ecological impact of over-allocating water for human use in drought prone regions, and highlight the need for adequate environmental water allocations. This study also emphasises that understanding the ecological attributes of a fish species, and the subsequent assignment to a functional group, will help predict vulnerability to decline and extirpation.
Keywords: Fish; threatened species; drought; Craterocephalus; Nannoperca; salinization
Rights: © Springer Science+Business Media B.V. 2012
RMID: 0020119394
DOI: 10.1007/s10750-011-0993-9
Appears in Collections:Earth and Environmental Sciences publications
Environment Institute publications

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