On-shelf nutrient trapping enhances the fertility of the southern Benguela upwelling system

The data submitted here is published in the manuscript entitled "On-shelf nutrient trapping enhances fertility of the southern Benguela upwelling system". Our data show that regenerated nutrients get “trapped” on the shelf of the southern Benguela upwelling system (SBUS), increasing the on...

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Hauptverfasser:	Flynn, Raquel, Granger, Julie, Veitch, Jennifer, Siedlecki, Samantha, Burger, Jessica, Pillay, Keshnee, Fawcett, Sarah
Format:	Dataset
Sprache:	eng
Schlagworte:	Nitrate isotope ratios Nutrient regeneration Nutrient trapping Upwelling
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creator	Flynn, Raquel Granger, Julie Veitch, Jennifer Siedlecki, Samantha Burger, Jessica Pillay, Keshnee Fawcett, Sarah
description	The data submitted here is published in the manuscript entitled "On-shelf nutrient trapping enhances fertility of the southern Benguela upwelling system". Our data show that regenerated nutrients get “trapped” on the shelf of the southern Benguela upwelling system (SBUS), increasing the on-shelf nutrient pool available for upwelling. Nutrient trapping occurs when phytoplankton consume upwelled nutrients, sequestering them in their biomass, then sink and are decomposed on the shallow continental shelf, releasing nutrients to bottom waters. The nutrient-deplete surface waters subsequently flow offshore. SBUS nutrient trapping appears to be assisted by hydrographic fronts that limit the offshore transport of phytoplankton, such that their sinking and subsequent decomposition occurs on-shelf. Decomposition consumes oxygen, which means that enhanced nutrient trapping may increase oxygen depletion in the SBUS, with ecosystem-wide deleterious effects.
doi_str_mv	10.5281/zenodo.3725521
format	Dataset
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Our data show that regenerated nutrients get “trapped” on the shelf of the southern Benguela upwelling system (SBUS), increasing the on-shelf nutrient pool available for upwelling. Nutrient trapping occurs when phytoplankton consume upwelled nutrients, sequestering them in their biomass, then sink and are decomposed on the shallow continental shelf, releasing nutrients to bottom waters. The nutrient-deplete surface waters subsequently flow offshore. SBUS nutrient trapping appears to be assisted by hydrographic fronts that limit the offshore transport of phytoplankton, such that their sinking and subsequent decomposition occurs on-shelf. 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identifier	DOI: 10.5281/zenodo.3725521
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language	eng
recordid	cdi_datacite_primary_10_5281_zenodo_3725521
source	DataCite
subjects	Nitrate isotope ratios Nutrient regeneration Nutrient trapping Upwelling
title	On-shelf nutrient trapping enhances the fertility of the southern Benguela upwelling system
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