Abstract
Abstract. Ocean color observations show semiannual variations in chlorophyll in the Atlantic cold tongue with a main bloom in boreal summer and a secondary bloom in December. In this study, ocean color and in situ measurements and a coupled physical–biogeochemical model are used to investigate the processes that drive this variability. Results show that the main phytoplankton bloom in July–August is driven by a strong vertical supply of nitrate in May–July, and the secondary bloom in December is driven by a shorter and moderate supply in November. The upper ocean nitrate balance is analyzed and shows that vertical advection controls the nitrate input in the equatorial euphotic layer and that vertical diffusion and meridional advection are key in extending and shaping the bloom off Equator. Below the mixed layer, observations and modeling show that the Equatorial Undercurrent brings low-nitrate water (relative to off-equatorial surrounding waters) but still rich enough to enhance the cold tongue productivity. Our results also give insights into the influence of intraseasonal processes in these exchanges. The submonthly meridional advection significantly contributes to the nitrate decrease below the mixed layer.
Highlights
Variations in the equatorial upwelling in the Atlantic Ocean are essentially seasonal
We described and analyzed the seasonal cycle of nitrate and the associated physical processes in the Atlantic cold tongue www.biogeosciences.net/17/529/2020/
The model reproduces the horizontal and vertical patterns of chlorophyll observed in the studied area and its semiannual cycle
Summary
Variations in the equatorial upwelling in the Atlantic Ocean are essentially seasonal. The cold tongue is a region of enhanced biological production mainly driven by nitrate supply (Voituriez and Herbland, 1977; Loukos and Mémery, 1999). In situ measurements in the equatorial Atlantic (Hisard, 1973; Voituriez and Herbland, 1977) evidenced two seasons with different physical and biogeochemical conditions: (i) a warm and lowproductivity season in winter and spring with a nitratedepleted surface layer and a chlorophyll maximum located near the top of the nitracline and (ii) a cool and highproductivity season in summer and fall characterized by efficient vertical processes that bring cold and nitrate-rich
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