Observed upper-ocean structure and seasonal production in the southern Kerguelen Plateau region, 1994-2021
In the Indian sector of the Southern Ocean, 80°E marks an important transition in ocean circulation between the greater Prydz Bay gyre to the west and the Australian Antarctic gyre to the east. Here, the submarine Kerguelen Plateau impedes the eastward flow of the Antarctic Circumpolar Current (ACC)...
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Frontiers Media S.A.
2025-01-01
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| Series: | Frontiers in Marine Science |
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| Online Access: | https://www.frontiersin.org/articles/10.3389/fmars.2024.1451997/full |
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| author | Man Liang Annie Foppert Annie Foppert Karen J. Westwood Karen J. Westwood Sophie Bestley Sophie Bestley |
| author_facet | Man Liang Annie Foppert Annie Foppert Karen J. Westwood Karen J. Westwood Sophie Bestley Sophie Bestley |
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| description | In the Indian sector of the Southern Ocean, 80°E marks an important transition in ocean circulation between the greater Prydz Bay gyre to the west and the Australian Antarctic gyre to the east. Here, the submarine Kerguelen Plateau impedes the eastward flow of the Antarctic Circumpolar Current (ACC), topographically steering the flow. Enhanced biological productivity associated with the southern plateau supports an important marine ecosystem with many foraging marine predators. We collate ship-based hydrographic data on the vertical structure of the upper water column near 80°E from eight voyages spanning 1994 to 2021, from 58°S towards the Antarctic continent. The study aims to investigate the mixed layer oceanography, the implications for nutrient supply from deep to near-surface waters, and associated biological production. Our results show that the major oceanographic fronts are constrained within the narrow Princess Elizabeth Trough, between the southern Kerguelen Plateau and the Antarctic slope. Therefore, the Southern Boundary and the Southern ACC Front (SACCF) are often co-located, albeit with some interannual variability, with the location of the SACCF ranging from roughly 63°S to 65°S. The average depth of the seasonal mixed layer ranges from 34-49 m, typically deepening from south to north, in association with longer time since sea-ice melt. Below the mixed layer, Winter Water (WW) characteristics also vary across the observed latitudinal range; typically the temperature and thickness of the WW layer are inversely related, with warmer WW layers being thinner. Subsurface nitrate concentrations range from 20-40 µM, while silicate concentrations reach 100 µM. Nutrient drawdown is calculated based on mean concentrations in the mixed layer and WW layer, with drawdown values at individual stations reaching nearly 12 µM and 60 µM for nitrate and silicate, respectively, and a positive correlation between the two. Nutrient drawdown was higher in association with longer time since sea-ice melt and with thinner WW layers, while higher nitrate-based production was associated with deeper mixed layers. Observed relationships between upper water column characteristics and biological processes are discussed in terms of likely nutrient supply mechanisms and seasonal patterns of utilization. |
| format | Article |
| id | doaj-art-f7339cb04bff49f0a4008f4d8578d37e |
| institution | Kabale University |
| issn | 2296-7745 |
| language | English |
| publishDate | 2025-01-01 |
| publisher | Frontiers Media S.A. |
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| series | Frontiers in Marine Science |
| spelling | doaj-art-f7339cb04bff49f0a4008f4d8578d37e2025-01-22T07:16:35ZengFrontiers Media S.A.Frontiers in Marine Science2296-77452025-01-011110.3389/fmars.2024.14519971451997Observed upper-ocean structure and seasonal production in the southern Kerguelen Plateau region, 1994-2021Man Liang0Annie Foppert1Annie Foppert2Karen J. Westwood3Karen J. Westwood4Sophie Bestley5Sophie Bestley6Institute for Marine and Antarctic Studies, University of Tasmania, Hobart, TAS, AustraliaInstitute for Marine and Antarctic Studies, University of Tasmania, Hobart, TAS, AustraliaAustralian Antarctic Program Partnership, Hobart, TAS, AustraliaAustralian Antarctic Program Partnership, Hobart, TAS, AustraliaAustralian Antarctic Division, Department of Climate Change, Energy, the Environment and Water, Kingston, TAS, AustraliaInstitute for Marine and Antarctic Studies, University of Tasmania, Hobart, TAS, AustraliaAustralian Antarctic Program Partnership, Hobart, TAS, AustraliaIn the Indian sector of the Southern Ocean, 80°E marks an important transition in ocean circulation between the greater Prydz Bay gyre to the west and the Australian Antarctic gyre to the east. Here, the submarine Kerguelen Plateau impedes the eastward flow of the Antarctic Circumpolar Current (ACC), topographically steering the flow. Enhanced biological productivity associated with the southern plateau supports an important marine ecosystem with many foraging marine predators. We collate ship-based hydrographic data on the vertical structure of the upper water column near 80°E from eight voyages spanning 1994 to 2021, from 58°S towards the Antarctic continent. The study aims to investigate the mixed layer oceanography, the implications for nutrient supply from deep to near-surface waters, and associated biological production. Our results show that the major oceanographic fronts are constrained within the narrow Princess Elizabeth Trough, between the southern Kerguelen Plateau and the Antarctic slope. Therefore, the Southern Boundary and the Southern ACC Front (SACCF) are often co-located, albeit with some interannual variability, with the location of the SACCF ranging from roughly 63°S to 65°S. The average depth of the seasonal mixed layer ranges from 34-49 m, typically deepening from south to north, in association with longer time since sea-ice melt. Below the mixed layer, Winter Water (WW) characteristics also vary across the observed latitudinal range; typically the temperature and thickness of the WW layer are inversely related, with warmer WW layers being thinner. Subsurface nitrate concentrations range from 20-40 µM, while silicate concentrations reach 100 µM. Nutrient drawdown is calculated based on mean concentrations in the mixed layer and WW layer, with drawdown values at individual stations reaching nearly 12 µM and 60 µM for nitrate and silicate, respectively, and a positive correlation between the two. Nutrient drawdown was higher in association with longer time since sea-ice melt and with thinner WW layers, while higher nitrate-based production was associated with deeper mixed layers. Observed relationships between upper water column characteristics and biological processes are discussed in terms of likely nutrient supply mechanisms and seasonal patterns of utilization.https://www.frontiersin.org/articles/10.3389/fmars.2024.1451997/fullAntarctic Circumpolar Current (ACC) frontssummer stratificationseasonal mixed layernutrient availabilitydrawdownbiological productivity |
| spellingShingle | Man Liang Annie Foppert Annie Foppert Karen J. Westwood Karen J. Westwood Sophie Bestley Sophie Bestley Observed upper-ocean structure and seasonal production in the southern Kerguelen Plateau region, 1994-2021 Frontiers in Marine Science Antarctic Circumpolar Current (ACC) fronts summer stratification seasonal mixed layer nutrient availability drawdown biological productivity |
| title | Observed upper-ocean structure and seasonal production in the southern Kerguelen Plateau region, 1994-2021 |
| title_full | Observed upper-ocean structure and seasonal production in the southern Kerguelen Plateau region, 1994-2021 |
| title_fullStr | Observed upper-ocean structure and seasonal production in the southern Kerguelen Plateau region, 1994-2021 |
| title_full_unstemmed | Observed upper-ocean structure and seasonal production in the southern Kerguelen Plateau region, 1994-2021 |
| title_short | Observed upper-ocean structure and seasonal production in the southern Kerguelen Plateau region, 1994-2021 |
| title_sort | observed upper ocean structure and seasonal production in the southern kerguelen plateau region 1994 2021 |
| topic | Antarctic Circumpolar Current (ACC) fronts summer stratification seasonal mixed layer nutrient availability drawdown biological productivity |
| url | https://www.frontiersin.org/articles/10.3389/fmars.2024.1451997/full |
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