Publication:
Simulated nutrient and phytoplankton dynamics in the East Australian Current system

dc.contributor.advisor Roughan, Moninya en_US
dc.contributor.advisor Cetina-Heredia, Paulina en_US
dc.contributor.author Vieira Rocha, Carlos en_US
dc.date.accessioned 2022-03-23T11:51:41Z
dc.date.available 2022-03-23T11:51:41Z
dc.date.issued 2019 en_US
dc.description.abstract Western boundary currents such as the East Australian Current (EAC) system are oligotrophic environments, and yet phytoplankton blooms still occur frequently. In the EAC however, the spatial scales, the drivers and the extent of the phytoplankton production are understudied. This is partly due to a paucity in both observations and models with which to understand the system. To address this, I develop a 10-year high-resolution numerical simulation of the EAC System that combines ocean physics and biogeochemistry, validated against satellite observations of surface chlorophyll. The key questions are: 1. What are the patterns of phytoplankton variability? 2. What are the conditions necessary for phytoplankton to bloom? 3. How is primary production sustained post-bloom? The first 4 modes of chlorophyll variance represent more than 99.5% of the variability in the system, and both this variability and the observed latitudinal gradient in nitrate distribution can be explained by dynamical forcing. To investigate the conditions that lead to phytoplankton blooms, I first identify the best metrics with which to estimate mixed layer and nitracline depths through a systematic evaluation of a range of commonly used metrics. These are found to be an offset of 0.05 kg m-3 and 1 mmol N m-3 from reference density and nitrate concentrations respectively. The largest phytoplankton blooms (winter-spring transition) are preceded by a nitracline located at the base of the mixed layer and an incident shortwave radiation of ~200 Wm-2. The phytoplankton blooms occur in areas of high nitrate concentration at the nitracline, which increase poleward and away from EAC waters. Post-bloom, nitrate is depleted, and phytoplankton use recycled nitrogen (ammonium) that is generated locally. Regenerated (ammonium-based) production is shown to alternate with new (nitrate-based) production depending on time and space, conditioned by seasonality and the poleward penetration of EAC waters. During non-bloom periods, ammonium constitutes a significant nitrogen source in the system, with ~80% of the total primary production dependent on it. This work is the first systematic investigation of nutrient dynamics in the EAC system and is the foundation for further research into BGC dynamics in what is a hotspot of ocean warming. en_US
dc.identifier.uri http://hdl.handle.net/1959.4/64983
dc.language English
dc.language.iso EN en_US
dc.publisher UNSW, Sydney en_US
dc.rights CC BY-NC-ND 3.0 en_US
dc.rights.uri https://creativecommons.org/licenses/by-nc-nd/3.0/au/ en_US
dc.subject.other Nutrients en_US
dc.subject.other East Australian Current en_US
dc.subject.other Phytoplankton en_US
dc.subject.other Numerical model en_US
dc.subject.other ROMS en_US
dc.title Simulated nutrient and phytoplankton dynamics in the East Australian Current system en_US
dc.type Thesis en_US
dcterms.accessRights open access
dcterms.rightsHolder Vieira Rocha, Carlos
dspace.entity.type Publication en_US
unsw.accessRights.uri https://purl.org/coar/access_right/c_abf2
unsw.identifier.doi https://doi.org/10.26190/unsworks/21641
unsw.relation.faculty Science
unsw.relation.originalPublicationAffiliation Vieira Rocha, Carlos, Mathematics & Statistics, Faculty of Science, UNSW en_US
unsw.relation.originalPublicationAffiliation Roughan, Moninya, Mathematics & Statistics, Faculty of Science, UNSW en_US
unsw.relation.originalPublicationAffiliation Cetina-Heredia, Paulina, Mathematics & Statistics, Faculty of Science, UNSW en_US
unsw.relation.school School of Mathematics & Statistics *
unsw.thesis.degreetype PhD Doctorate en_US
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