Journal
ENVIRONMENTAL BIOLOGY OF FISHES
Volume 93, Issue 1, Pages 95-104Publisher
SPRINGER
DOI: 10.1007/s10641-011-9895-y
Keywords
Murray-Darling Basin; 'Boom and bust'; Fish condition; Lipid content; Hydrology
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Funding
- Australian Rivers Institute
- Griffith University
- Department of Environment and Resource Management
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The ecology of dryland rivers is driven by their highly variable hydrology, particularly flooding regimes, whereby intermittent floods typically generate 'booms' of primary and secondary productivity, including massive fish production. We tested these concepts in the Moonie River, Australia, using the percichthyid, Macquaria ambigua, a dryland river species known to display pronounced 'boom and bust' abundance patterns in response to floodplain inundation followed by extended periods of low to no channel flow. We expected that body condition (as measured by whole body lipid content) and biomass of M. ambigua would be related to prey biomass, and that these factors would all 'spike' following widespread flooding. Instead we found more subtle responses. There were 'booms' in biomass of Macrobrachium and zooplankton, two important food items, whereas M. ambigua maintained relatively low but sustained lipid and biomass levels following flooding. It appears that instead of a 'boom' in fish biomass, abundant invertebrate food resources and sustained lipid levels contributed to high survivorship of this species during the 'bust' period over cool dry months.
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