Zooplankton responses to freshwater inflows and organic-matter pulses in a wave-dominated estuary

Hitchcock, JN; Mitrovic, SM; Hadwen, WL; Growns, IO; Rohlfs, AM

Zooplankton responses to freshwater inflows and organic-matter pulses in a wave-dominated estuary

Hitchcock, JN Mitrovic, SM Hadwen, WL Growns, IO Rohlfs, AM

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Publisher:: CSIRO PUBLISHING
Publication Type:: Journal Article
Citation:: Marine and Freshwater Research, 2016, 67, (9), pp. 1374-1386
Issue Date:: 2016-01-01

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Field	Value	Language
dc.contributor.author	Hitchcock, JN
dc.contributor.author	Mitrovic, SM
dc.contributor.author	Hadwen, WL
dc.contributor.author	Growns, IO
dc.contributor.author	Rohlfs, AM
dc.date.accessioned	2022-03-21T05:14:30Z
dc.date.available	2022-03-21T05:14:30Z
dc.date.issued	2016-01-01
dc.identifier.citation	Marine and Freshwater Research, 2016, 67, (9), pp. 1374-1386
dc.identifier.issn	1323-1650
dc.identifier.issn	1448-6059
dc.identifier.uri	http://hdl.handle.net/10453/155429
dc.description.abstract	Freshwater inflow events play a major role in structuring estuarine zooplankton communities. Freshwater inflow events affect zooplankton directly through advective forcing and changes in salinity, and indirectly through changes to resources by the delivery of organic carbon and nutrients that can stimulate microbial and primary production. Here, we investigate changes to estuarine zooplankton assemblage structure, density and δ13C stable isotopes during a period of highly variable freshwater inflow in the Bega River estuary, Australia. High inflows resulted in a reduction of salinity and a shift in the zooplankton assemblage structure from purely estuarine taxa towards freshwater taxa. The density of select genera of rotifers, cladocera and, in the upper estuary, copepods, increased following inflows, concurrent with increases in the concentration of dissolved organic carbon and bacterial biomass. Redundancy analysis found that environmental variables including discharge, dissolved organic carbon, salinity and bacterial biomass explained 66-73% of zooplankton variation. Stable isotope results indicated that all copepod and cladocera species tested were predominantly supported by allochthonous carbon from terrestrial sources. The present results have provided important evidence that freshwater inflows play a critical role in structuring zooplankton assemblages and supporting increased production through the delivery of allochthonous organic carbon.
dc.language	English
dc.publisher	CSIRO PUBLISHING
dc.relation.ispartof	Marine and Freshwater Research
dc.relation.isbasedon	10.1071/MF15297
dc.rights	info:eu-repo/semantics/closedAccess
dc.subject.classification	Marine Biology & Hydrobiology
dc.title	Zooplankton responses to freshwater inflows and organic-matter pulses in a wave-dominated estuary
dc.type	Journal Article
utslib.citation.volume	67
utslib.for	060204 Freshwater Ecology
pubs.organisational-group	/University of Technology Sydney
pubs.organisational-group	/University of Technology Sydney/Faculty of Science
pubs.organisational-group	/University of Technology Sydney/Faculty of Science/School of Life Sciences
utslib.copyright.status	closed_access	*
dc.date.updated	2022-03-21T05:14:29Z
pubs.issue	9
pubs.publication-status	Published
pubs.volume	67
utslib.citation.issue	9

Abstract:

Freshwater inflow events play a major role in structuring estuarine zooplankton communities. Freshwater inflow events affect zooplankton directly through advective forcing and changes in salinity, and indirectly through changes to resources by the delivery of organic carbon and nutrients that can stimulate microbial and primary production. Here, we investigate changes to estuarine zooplankton assemblage structure, density and δ13C stable isotopes during a period of highly variable freshwater inflow in the Bega River estuary, Australia. High inflows resulted in a reduction of salinity and a shift in the zooplankton assemblage structure from purely estuarine taxa towards freshwater taxa. The density of select genera of rotifers, cladocera and, in the upper estuary, copepods, increased following inflows, concurrent with increases in the concentration of dissolved organic carbon and bacterial biomass. Redundancy analysis found that environmental variables including discharge, dissolved organic carbon, salinity and bacterial biomass explained 66-73% of zooplankton variation. Stable isotope results indicated that all copepod and cladocera species tested were predominantly supported by allochthonous carbon from terrestrial sources. The present results have provided important evidence that freshwater inflows play a critical role in structuring zooplankton assemblages and supporting increased production through the delivery of allochthonous organic carbon.

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http://hdl.handle.net/10453/155429