Litcius/Paper detail

Mesoscale Circulation Controls Chlorophyll Concentrations in the East Australian Current Separation Zone

Neil Malan, Moninya Roughan, Michael Hemming, Amandine Schaeffer

2023Journal of Geophysical Research Oceans19 citationsDOIOpen Access PDF

Abstract

Abstract Understanding the distribution of chlorophyll on the continental shelves adjacent to western boundary currents is important, both from an ecosystem perspective, as well as for their role as a net sink of atmospheric CO 2 . However, in‐situ observations of chlorophyll in these dynamic regions are rare. Here, using more than a decade of underwater glider observations from 29 deployments in the East Australian Current (EAC) system, we examine the effect of the mesoscale western boundary current (WBC) circulation on chlorophyll distribution across the shelf. The extensive hydrographic dataset reveals that the mode of boundary current separation has a strong persistent spatial influence on both the stratification and chlorophyll distribution on the shelf between 31.5° and 34°S, a productive area adjacent to the EAC separation zone. We identify that subsurface chlorophyll maxima are common, and their depth and strength is dictated by the offshore mesoscale circulation associated with the WBC separation. The vertical chlorophyll distribution is modulated by the combination of the seasonal cycle and the sporadic influence of mesoscale eddies associated with WBC jet separation. Of the three dominant WBC separation scenarios, eddy dipoles result in shelf waters that are on average more stratified, have higher chlorophyll values, and a deeper chlorophyll maximum compared to other circulation modes. These results suggest that it is necessary to consider the influence of WBC dynamics on chlorophyll concentrations for accurate estimates of atmospheric CO 2 uptake.

Topics & Concepts

Mesoscale meteorologyHydrographyOceanographyBoundary currentEnvironmental scienceChlorophyllChlorophyll aStratification (seeds)ClimatologyGeologyOcean currentAtmospheric sciencesBiologyGerminationBotanyDormancySeed dormancyOceanographic and Atmospheric ProcessesMarine and coastal ecosystemsMarine Biology and Ecology Research
Mesoscale Circulation Controls Chlorophyll Concentrations in the East Australian Current Separation Zone | Litcius