Multiple drivers of production and particle export in the western tropical North Atlantic

To assess the impacts of Amazon River discharge, Saharan dust deposition, N2‐fixation and mixed‐layer deepening on the biological carbon pump, sediment traps were moored from October 2012 to November 2013 at two sites in the western tropical North Atlantic (49°W,12°N/57°W,12°N). Particle exports interpreted along with satellite‐ and Argo‐float data show peak fluxes in biogenic silica (31 mg m**−2 d**−1) and organic carbon (25 mg m**−2 d**−1) during the fall of 2013 that were ten to five times higher than any time earlier during the year. These high export fluxes occurred in tandem with high su... Mehr ...

Verfasser: Korte, Laura F
Brummer, Geert-Jan A
van der Does, Michèlle
Guerreiro, Catarina V
Mienis, Furu
Munday, Chris I
Ponsoni, Leandro
Schouten, Stefan
Stuut, Jan-Berend W
Dokumenttyp: dataset publication series
Erscheinungsdatum: 2020
Verlag/Hrsg.: PANGAEA
Schlagwörter: argo float / Atlantic Ocean / NIOZ_UU / NIOZ Royal Netherlands Institute for Sea Research / and Utrecht University / particle export / primary production / satellite data / Sediment traps
Sprache: Englisch
Permalink: https://search.fid-benelux.de/Record/base-29182591
Datenquelle: BASE; Originalkatalog
Powered By: BASE
Link(s) : https://doi.pangaea.de/10.1594/PANGAEA.918181

To assess the impacts of Amazon River discharge, Saharan dust deposition, N2‐fixation and mixed‐layer deepening on the biological carbon pump, sediment traps were moored from October 2012 to November 2013 at two sites in the western tropical North Atlantic (49°W,12°N/57°W,12°N). Particle exports interpreted along with satellite‐ and Argo‐float data show peak fluxes in biogenic silica (31 mg m**−2 d**−1) and organic carbon (25 mg m**−2 d**−1) during the fall of 2013 that were ten to five times higher than any time earlier during the year. These high export fluxes occurred in tandem with high surface chlorophyll a concentrations associated with the dispersal of the Amazon River plume, following retroflection into the North‐Atlantic‐Counter‐Current. High fucoxanthin fluxes (> 80 μ g m**−2 d**−1) and low δ15N‐values (−0.6‰) suggest a large contribution by marine diatom‐diazotrophic‐associations, possibly enhanced by wet Saharan dust deposition. During summer, the Amazon River plume resulted in high mass fluxes at 57°W that were enriched in biogenic silica but weakly influenced by diazotrophic‐associations compared to the fall event at 49°W. High carbonate‐carbon fluxes (17 mg m**−2 d**−1) dominated a second single event at 49°W during spring that was likely triggered by mixed‐layer deepening. Rain‐ratios of BSi/Ccarb amounted to 1.7 when associated with high export fluxes linked to the Amazon River plume. Compared to an annual average of 0.3, this indicates a more efficient uptake of CO2 via the biological pump compared to when the plume was absent, hence supporting earlier observations that the Amazon River plume is important for ocean CO2 sequestration.