4.7 Article

Oxygen Variability in the Offshore Northern Benguela Upwelling System From Glider Data

Journal

JOURNAL OF GEOPHYSICAL RESEARCH-OCEANS
Volume 127, Issue 11, Pages -

Publisher

AMER GEOPHYSICAL UNION
DOI: 10.1029/2022JC019063

Keywords

oxygen; hypoxia; mesoscale; upwelling; Benguela; eddy

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This study investigates the variability and drivers of low-oxygen events in the offshore northern Benguela Upwelling System (BenUS) using high-resolution glider data. The results show that oxygen concentrations are determined by the alternation of low-oxygen Angola-derived water and oxygenated water from the south. Hypoxic events are more persistent at certain depths and more sporadic at shallower depths. The findings emphasize the need for long-term and high-resolution measurements and studies focusing on future changes in both tropical oxygen levels and lateral fluxes in this region.
Despite their role in modulating the marine ecosystem, variability and drivers of low-oxygen events in the offshore northern Benguela Upwelling System (BenUS) have been rarely investigated due to the events' episodicity which is difficult to resolve using shipboard measurements. We address this issue using 4 months of high-resolution glider data collected between February and June 2018, 100 km offshore at 18 degrees S. We find that oxygen (O-2) concentrations in the offshore northern Benguela are determined by the subsurface alternation of low-oxygen Angola-derived water and oxygenated water from the south at 100-500 m depth. We observe intermittent hypoxia (O-2 < 60 mu mol kg(-1)) which occurs on average for similar to 30% of the 4 months deployment and is driven by the time-varying subsurface pulses of Angola-derived tropical water. Hypoxic events are rather persistent at depths of 300-450 m, while they are more sporadic and have weekly duration at shallower depths (100-300 m). We find extreme values of hypoxia, with O-2 minima of 16 mu mol kg(-1), associated with an anticyclonic eddy spinning from the undercurrent flowing on the BenUS shelf and showing no surface signature. Fine-scale patchiness and water mass mixing are associated with cross-frontal stirring by a large anticyclone recirculating tropical water into the northern BenUS. The dominance of physical drivers and their high variability on short time scales reveal a dynamic coupling between Angola and Benguela, calling for long-term and high-resolution measurements and studies focusing on future changes of both tropical O-2 minima and lateral fluxes in this region.

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