On the circulation of the North Atlantic shadow zone
Regions isolated from the wind-driven circulation are found in the eastern margins of the world's tropical oceans. The weak and stagnant circulation of these so-called “shadow zones”, in combination with the intense respiration of organic matter provided by the overlying highly productive water...
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Other Authors: | , |
Format: | Doctoral or Postdoctoral Thesis |
Language: | English |
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Universitat Politècnica de Catalunya
2015
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Online Access: | http://hdl.handle.net/2117/95634 http://hdl.handle.net/10803/286282 https://doi.org/10.5821/dissertation-2117-95634 |
Summary: | Regions isolated from the wind-driven circulation are found in the eastern margins of the world's tropical oceans. The weak and stagnant circulation of these so-called “shadow zones”, in combination with the intense respiration of organic matter provided by the overlying highly productive waters, promotes the existence of large oceanic volumes with very low dissolved oxygen. These volumes are known as oxygen minimum zones (OMZs). The last decades of observations have revealed that OMZs are in general expanding, and thus potentially threatening the surrounding rich marine ecosystems. However, it is not clear whether this change is based on natural variability or it has an anthropogenic origin. Furthermore, under a global warming scenario, the future evolution of the OMZs is uncertain due to the complex interaction between the physical and biochemical processes that interplay in the OMZs dynamics. This dissertation seeks to unravel the key elements of the circulation in the North Atlantic shadow zone, aiming to provide a deeper understanding of the physical components that rule the dynamics of the North Atlantic OMZ (naOMZ) -this being the less intense OMZ of the world ocean but the one that has experienced the largest expansion. A comprehensive description of the North Atlantic shadow zone circulation is presented from novel (CANOA08 cruise) and historic observations, including numerical outputs from the assimilative ECCO2 circulation model. The main outcome of our work is that two markedly distinct regimes of circulation exist in the thermocline layers of the naOMZ, above and below ςϴ=26.8 kg m-3. In the upper layer, within the upper Central Water (uCW), the circulation is governed by the cyclonic regime of the subtropical cell. This stratum is characterized by relatively high oxygenation, with a predominance of South Atlantic Central Water (SACW). The lower layer, within the lower Central Water (lCW), presents a drastic decrease in the oxygen content due to its sluggish circulation; in contrast with the uCW, a ... |
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