Physical Mechanisms Routing Nutrients in the Central Red Sea

Mesoscale eddies and boundary currents play a key role in the upper layer circulation of the Red Sea. This study assesses the physical and biochemical characteristics of an eastern boundary current (EBC) and recurrent eddies in the central Red Sea (CRS) using a combination of in situ and satellite o...

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Veröffentlicht in:Journal of geophysical research. Oceans 2017-11, Vol.122 (11), p.9032-9046
Hauptverfasser: Zarokanellos, Nikolaos D., Kürten, Benjamin, Churchill, James H., Roder, Cornelia, Voolstra, Christian R., Abualnaja, Yasser, Jones, Burton H.
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Sprache:eng
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Zusammenfassung:Mesoscale eddies and boundary currents play a key role in the upper layer circulation of the Red Sea. This study assesses the physical and biochemical characteristics of an eastern boundary current (EBC) and recurrent eddies in the central Red Sea (CRS) using a combination of in situ and satellite observations. Hydrographic surveys in November 2013 (autumn) and in April 2014 (spring) in the CRS (22.15°N–24.1°N) included a total of 39 and 27 CTD stations, respectively. In addition, high‐resolution hydrographic data were acquired in spring 2014 with a towed undulating vehicle (ScanFish). In situ measurements of salinity, temperature, chlorophyll fluorescence, colored dissolved organic matter (CDOM), and dissolved nitrate: phosphorous ratios reveal distinct water mass characteristics for the two periods. An EBC, observed in the upper 150 m of the water column during autumn, transported low‐salinity and warm water from the south toward the CRS. Patches of the low‐salinity water of southern origin tended to contain relatively high concentrations of chlorophyll and CDOM. The prominent dynamic feature observed in spring was a cyclonic/anticyclonic eddy pair. The cyclonic eddy was responsible for an upward nutrient flux into the euphotic zone. Higher chlorophyll and CDOM concentrations, and concomitant lower nitrate:phosphorous ratios indicate the influence of the EBC in the CRS at the end of the stratified summer period. Key Points Eastern boundary currents transport episodically patches of less salty and warmer water with higher biomass from the southern toward the CRS A cyclonic/anticyclonic eddy pair in spring created an upward nutrient flux and increased the integrated chlorophyll in the oligotrophic CRS Higher chlorophyll and CDOM and lower N:P ratios reveal the influence of the eastern boundary current compared with an eddy pair
ISSN:2169-9275
2169-9291
DOI:10.1002/2017JC013017