Contrasting phytoplankton composition and primary productivity in multiple mesoscale eddies along the East Australian coast

Mesoscale eddies drive variability in phytoplankton functional trait composition and primary productivity (PP) relative to adjacent waters. Offshore waters in southeast Australia are subject to substantial mesoscale eddies that form when the East Australian Current (EAC) travels poleward along the c...

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Published inDeep-sea research. Part I, Oceanographic research papers Vol. 193; p. 103952
Main Authors Firme, Giselle F., Hughes, David J., Laiolo, Leonardo, Roughan, Moninya, Suthers, Iain M., Doblin, Martina A.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.03.2023
Subjects
Australia
Carbon fixation
Climate change
Cyclonic
EAC
Eddy
Primary production
Climate change
Eddy
EAC
Carbon fixation
Australia
Cyclonic
Primary production
Online AccessGet full text
ISSN0967-0637
1879-0119
DOI10.1016/j.dsr.2022.103952

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Abstract Mesoscale eddies drive variability in phytoplankton functional trait composition and primary productivity (PP) relative to adjacent waters. Offshore waters in southeast Australia are subject to substantial mesoscale eddies that form when the East Australian Current (EAC) travels poleward along the coast, forming distinctive habitats in the upper ocean. Eddies provide an important enrichment mechanism in the nitrogen-limited waters of the Tasman Sea, yet there is limited knowledge of PP within cold- and warm-core eddies in the region and how physico-chemical and biological factors affect phytoplankton communities in this variable environment. We addressed the scarcity of observations by quantifying net PP using 13C isotopic enrichment incubations of surface waters over 10 degrees of latitude, comparing phytoplankton species composition in five different environments: a coastal shelf station, an oceanic cold and warm-core eddy, and a coastal dipole. Cold-core (cyclonic) eddies were significantly more productive than their warm-core (anticyclonic) counterparts (∼35 versus 0 mg C m−3 d−1), with centric diatoms the most prominent phytoplankton group, with a relatively high centric:pennate ratio. The diffuse attenuation coefficient, Kd (PAR), and silicate were the best overall predictors of phytoplankton composition, explaining 88% of variation based on pigment analysis and size fractionation. Variance in net PP did not correlate significantly with physico-chemical parameters frequently used in PP models (temperature, Kd [PAR], Chl a), yet inclusion of size-fractionated Chl a generated substantial improvement in our statistical model (from 36 to 77%). We show that cold-core eddies play a key role in regulating PP in eastern Australian waters and highlight a need for eddy-resolving models to incorporate descriptors of phytoplankton size structure to improve the accuracy of PP forecasts in eddy intensive regions. •Mesoscale eddies modulate primary productivity dynamics along the East Australian coast.•Knowledge of phytoplankton size structure improves prediction of primary productivity.•Phytoplankton community structure can be predicted from light and silicate levels.•Centric diatoms are the most prominent phytoplankton group in East Australian cyclonic eddies.
AbstractList Mesoscale eddies drive variability in phytoplankton functional trait composition and primary productivity (PP) relative to adjacent waters. Offshore waters in southeast Australia are subject to substantial mesoscale eddies that form when the East Australian Current (EAC) travels poleward along the coast, forming distinctive habitats in the upper ocean. Eddies provide an important enrichment mechanism in the nitrogen-limited waters of the Tasman Sea, yet there is limited knowledge of PP within cold- and warm-core eddies in the region and how physico-chemical and biological factors affect phytoplankton communities in this variable environment. We addressed the scarcity of observations by quantifying net PP using 13C isotopic enrichment incubations of surface waters over 10 degrees of latitude, comparing phytoplankton species composition in five different environments: a coastal shelf station, an oceanic cold and warm-core eddy, and a coastal dipole. Cold-core (cyclonic) eddies were significantly more productive than their warm-core (anticyclonic) counterparts (∼35 versus 0 mg C m−3 d−1), with centric diatoms the most prominent phytoplankton group, with a relatively high centric:pennate ratio. The diffuse attenuation coefficient, Kd (PAR), and silicate were the best overall predictors of phytoplankton composition, explaining 88% of variation based on pigment analysis and size fractionation. Variance in net PP did not correlate significantly with physico-chemical parameters frequently used in PP models (temperature, Kd [PAR], Chl a), yet inclusion of size-fractionated Chl a generated substantial improvement in our statistical model (from 36 to 77%). We show that cold-core eddies play a key role in regulating PP in eastern Australian waters and highlight a need for eddy-resolving models to incorporate descriptors of phytoplankton size structure to improve the accuracy of PP forecasts in eddy intensive regions. •Mesoscale eddies modulate primary productivity dynamics along the East Australian coast.•Knowledge of phytoplankton size structure improves prediction of primary productivity.•Phytoplankton community structure can be predicted from light and silicate levels.•Centric diatoms are the most prominent phytoplankton group in East Australian cyclonic eddies.
ArticleNumber 103952
Author Firme, Giselle F.
Hughes, David J.
Doblin, Martina A.
Laiolo, Leonardo
Roughan, Moninya
Suthers, Iain M.
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  surname: Doblin
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  organization: University of Technology Sydney, Climate Change Cluster, Ultimo, NSW, 2007, Australia
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Keywords Climate change
Eddy
EAC
Carbon fixation
Australia
Cyclonic
Primary production
Language English
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Snippet Mesoscale eddies drive variability in phytoplankton functional trait composition and primary productivity (PP) relative to adjacent waters. Offshore waters in...
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elsevier
SourceType Enrichment Source
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StartPage 103952
SubjectTerms Australia
Carbon fixation
Climate change
Cyclonic
EAC
Eddy
Primary production
Title Contrasting phytoplankton composition and primary productivity in multiple mesoscale eddies along the East Australian coast
URI https://dx.doi.org/10.1016/j.dsr.2022.103952
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