Modeling the impact of ocean circulation on chlorophyll blooms around South Georgia, Southern Ocean.

Matano, R.P.; Combes, V.; Young, E.F. ORCID:; Meredith, M.P. ORCID: 2020 Modeling the impact of ocean circulation on chlorophyll blooms around South Georgia, Southern Ocean. Journal of Geophysical Research: Oceans, 125 (9), e2020JC016391. 18, pp.

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The northeast periphery of the Scotia Sea hosts one of the largest chlorophyll‐a blooms of the Southern Ocean. This bloom peaks to the northwest of the island of South Georgia, extending eastward for hundreds of kilometers. Although the Southern Ocean has many islands of similar size, South Georgia is ecologically one of the most significant: It not only sustains one of the Southern Ocean's largest and most diverse ecosystems but also constitutes its single most important region for biological carbon sequestration. While the exceptional nature of South Georgia's blooms has been recognized widely, both the physical processes that contribute to their fertilization and the reasons why these blooms are larger than those of other similar regions (e.g., Kerguelen or Crozet Islands) are poorly understood. We use the results of a high‐resolution ocean model to investigate the physical processes that mediate the entrainment of deep, iron‐rich waters into the surface layers of the South Georgia region. We show that the Southern Antarctic Circumpolar Current Front, the southernmost jet of the Antarctic Circumpolar Current (ACC), pumps iron‐enriched waters from the deep ocean onto the bottom layers of South Georgia's shelf. These waters are upwelled along the northern coast of the island and are then exported into the Georgia Basin, where topographically steered circulation shields them from the dispersive effects of local currents and eddies, thus allowing the bloom development.

Item Type: Publication - Article
Digital Object Identifier (DOI):
Additional Keywords: South Georgia circulation, southern ocean blooms, upwelling and mixing, shelf/deep ocean exchanges, chlorophyll‐a blooms
Date made live: 07 Sep 2020 08:48 +0 (UTC)

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