Abstract
It is generally assumed that episodic nutrient pulses by cyclonic eddies into surface waters support a significant fraction of the primary production in subtropical low-nutrient environments in the northern hemisphere. However, contradictory results related to the influence of eddies on particulate organic carbon (POC) export have been reported. As a step toward understanding the complex mechanisms that control export of material within eddies, we present here results from a sediment trap mooring deployed within the path of cyclonic eddies generated near the Canary Islands over a 1.5-year period. We find that, during summer and autumn (when surface stratification is stronger, eddies are more intense, and a relative enrichment in CaCO3 forming organisms occurs), POC export to the deep ocean was 2–4 times higher than observed for the rest of the year. On the contrary, during winter and spring (when mixing is strongest and the seasonal phytoplankton bloom occurs), no significant enhancement of POC export associated with eddies was observed. Our biomarker results suggest that a large fraction of the material exported from surface waters during the late-winter bloom is either recycled in the mesopelagic zone or bypassed by migrant zooplankton to the deep scattering layer, where it would disaggregate to smaller particles or be excreted as dissolved organic carbon. Cyclonic eddies, however, would enhance carbon export below 1000 m depth during the summer stratification period, when eddies are more intense and frequent, highlighting the important role of eddies and their different biological communities on the regional carbon cycle.
Highlights
Understanding the mechanisms that control carbon export to the deep ocean is a major outstanding concern in oceanography
Our results reveal a significant influence of cyclonic eddies on particulate organic carbon (POC) fluxes during summer and autumn periods (Periods I and III), when surface waters are stratified and eddies are more intense due to the combined effect of flow perturbation and wind forcing [11,32,33]
The higher POC Teff observed during eddy conditions together with the fresher organic matter exported make eddies an efficient organic carbon pump to the ocean interior
Summary
Understanding the mechanisms that control carbon export to the deep ocean is a major outstanding concern in oceanography. Sinking particulate organic carbon (POC) fluxes measured with current techniques (sediment traps and thorium approaches) are not consistent with the oxygen utilization rates measured in the deep ocean [1,2]. Recent interdisciplinary programs that focused on the effects of eddies on carbon export (EFlux in the North Pacific and EDDIES in the North Atlantic) have shown different results. Both programs concluded that the studied eddies did not enhance carbon flux, they increased the flux of biogenic silica [7,8]. Determining the influence of eddies on carbon export and organic matter composition using time series observations could be useful to test this hypothesis
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