Variability in efficiency of particulate organic carbon export: A model study
Variability in efficiency of particulate organic carbon export: A model study
The flux of organic carbon from the surface ocean to mesopelagic depths is a key component of the global carbon cycle and is ultimately derived from primary production (PP) by phytoplankton. Only a small fraction of organic carbon produced by PP is exported from the upper ocean, referred to as the export efficiency (herein e-ratio). Limited observations of the e-ratio are available and there is thus considerable interest in using remotely-sensed parameters such as sea surface temperature to extrapolate local estimates to global annual export flux. Currently, there are large discrepancies between export estimates derived in this way; one possible explanation is spatial or temporal sampling bias in the observations. Here we examine global patterns in the spatial and seasonal variability in e-ratio and the subsequent effect on export estimates using a high resolution global biogeochemical model. NEMO-MEDUSA represents export as separate slow and fast sinking detrital material whose remineralisation is respectively temperature dependent and a function of ballasting minerals. We find that both temperature and the fraction of export carried by slow sinking particles are factors in determining e-ratio, suggesting that current empirical algorithms for e-ratio that only consider temperature are overly simple. We quantify the temporal lag between PP and export, which is greatest in regions of strong variability in PP where seasonal decoupling can result in large e-ratio variability. Extrapolating global export estimates from instantaneous measurements of e-ratio is strongly affected by seasonal variability, and can result in errors in estimated export of up to ±60%.
POC flux, carbon export, seasonal variability, biogeochemical model, empirical algorithm
33-45
Henson, Stephanie A.
d6532e17-a65b-4d7b-9ee3-755ecb565c19
Yool, Andrew
882aeb0d-dda0-405e-844c-65b68cce5017
Sanders, Richard
02c163c1-8f5e-49ad-857c-d28f7da66c65
January 2015
Henson, Stephanie A.
d6532e17-a65b-4d7b-9ee3-755ecb565c19
Yool, Andrew
882aeb0d-dda0-405e-844c-65b68cce5017
Sanders, Richard
02c163c1-8f5e-49ad-857c-d28f7da66c65
Henson, Stephanie A., Yool, Andrew and Sanders, Richard
(2015)
Variability in efficiency of particulate organic carbon export: A model study.
Global Biogeochemical Cycles, 29 (1), .
(doi:10.1002/2014GB004965).
Abstract
The flux of organic carbon from the surface ocean to mesopelagic depths is a key component of the global carbon cycle and is ultimately derived from primary production (PP) by phytoplankton. Only a small fraction of organic carbon produced by PP is exported from the upper ocean, referred to as the export efficiency (herein e-ratio). Limited observations of the e-ratio are available and there is thus considerable interest in using remotely-sensed parameters such as sea surface temperature to extrapolate local estimates to global annual export flux. Currently, there are large discrepancies between export estimates derived in this way; one possible explanation is spatial or temporal sampling bias in the observations. Here we examine global patterns in the spatial and seasonal variability in e-ratio and the subsequent effect on export estimates using a high resolution global biogeochemical model. NEMO-MEDUSA represents export as separate slow and fast sinking detrital material whose remineralisation is respectively temperature dependent and a function of ballasting minerals. We find that both temperature and the fraction of export carried by slow sinking particles are factors in determining e-ratio, suggesting that current empirical algorithms for e-ratio that only consider temperature are overly simple. We quantify the temporal lag between PP and export, which is greatest in regions of strong variability in PP where seasonal decoupling can result in large e-ratio variability. Extrapolating global export estimates from instantaneous measurements of e-ratio is strongly affected by seasonal variability, and can result in errors in estimated export of up to ±60%.
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Henson_et_al-2015-Global_Biogeochemical_Cycles.pdf
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Accepted/In Press date: January 2015
Published date: January 2015
Keywords:
POC flux, carbon export, seasonal variability, biogeochemical model, empirical algorithm
Organisations:
Marine Systems Modelling, Marine Biogeochemistry
Identifiers
Local EPrints ID: 372996
URI: http://eprints.soton.ac.uk/id/eprint/372996
ISSN: 0886-6236
PURE UUID: 4b457ebf-cbf6-4e84-b500-161a13e27699
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Date deposited: 23 Dec 2014 14:56
Last modified: 14 Mar 2024 18:46
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Author:
Andrew Yool
Author:
Richard Sanders
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