Assessing the potential of backscattering as a proxy for phytoplankton carbon biomass
Assessing the potential of backscattering as a proxy for phytoplankton carbon biomass
Despite phytoplankton contributing roughly half of the photosynthesis on earth and fueling marine food-webs, field measurements of phytoplankton biomass remain scarce. The particulate backscattering coefficient (b
bp ) has often been used as an optical proxy to estimate phytoplankton carbon biomass (C
phyto ). However, total observed b
bp is impacted by phytoplankton size, cell composition, and non-algal particles. The lack of phytoplankton field data has prevented the quantification of uncertainties driven by these factors. Here, we first review and discuss existing b
bp algorithms by applying them to b
bp data from the BGC-Argo array in surface waters (<10 m). We find a b
bp threshold where estimated C
phyto differs by more than an order of magnitude. Next, we use a global ocean circulation model (the MITgcm Biogeochemical and Optical model) that simulates plankton dynamics and associated inherent optical properties to quantify and understand uncertainties from b
bp-based algorithms in surface waters. We do so by developing and calibrating an algorithm to the model. Simulated error-estimations show that b
bp-based algorithms overestimate/underestimate C
phyto between 5% and 100% in surface waters, depending on the location and time. This is achieved in the ideal scenario where C
phyto and b
bp are known precisely. This is not the case for algorithms derived from observations, where the largest source of uncertainty is the scarcity of phytoplankton biomass data and related methodological inconsistencies. If these other uncertainties are reduced, the model shows that b
bp could be a relatively good proxy for phytoplankton carbon biomass, with errors close to 20% in most regions.
algorithm, backscattering, model, optic, performance, phytoplankton
Serra-Pompei, Camila
a05a7945-52d6-4bab-bb8a-fba87fa80ab5
Hickman, Anna
a99786c6-65e6-48c8-8b58-0d3b5608be92
Britten, G.L.
69d606e9-21d1-4658-8196-79fcb64fd781
Dutkiewicz, Stephanie
d1ef6d8c-5fcf-4647-9062-26fe108cbc06
June 2023
Serra-Pompei, Camila
a05a7945-52d6-4bab-bb8a-fba87fa80ab5
Hickman, Anna
a99786c6-65e6-48c8-8b58-0d3b5608be92
Britten, G.L.
69d606e9-21d1-4658-8196-79fcb64fd781
Dutkiewicz, Stephanie
d1ef6d8c-5fcf-4647-9062-26fe108cbc06
Serra-Pompei, Camila, Hickman, Anna, Britten, G.L. and Dutkiewicz, Stephanie
(2023)
Assessing the potential of backscattering as a proxy for phytoplankton carbon biomass.
Global Biogeochemical Cycles, 37 (6), [e2022GB007556].
(doi:10.1029/2022GB007556).
Abstract
Despite phytoplankton contributing roughly half of the photosynthesis on earth and fueling marine food-webs, field measurements of phytoplankton biomass remain scarce. The particulate backscattering coefficient (b
bp ) has often been used as an optical proxy to estimate phytoplankton carbon biomass (C
phyto ). However, total observed b
bp is impacted by phytoplankton size, cell composition, and non-algal particles. The lack of phytoplankton field data has prevented the quantification of uncertainties driven by these factors. Here, we first review and discuss existing b
bp algorithms by applying them to b
bp data from the BGC-Argo array in surface waters (<10 m). We find a b
bp threshold where estimated C
phyto differs by more than an order of magnitude. Next, we use a global ocean circulation model (the MITgcm Biogeochemical and Optical model) that simulates plankton dynamics and associated inherent optical properties to quantify and understand uncertainties from b
bp-based algorithms in surface waters. We do so by developing and calibrating an algorithm to the model. Simulated error-estimations show that b
bp-based algorithms overestimate/underestimate C
phyto between 5% and 100% in surface waters, depending on the location and time. This is achieved in the ideal scenario where C
phyto and b
bp are known precisely. This is not the case for algorithms derived from observations, where the largest source of uncertainty is the scarcity of phytoplankton biomass data and related methodological inconsistencies. If these other uncertainties are reduced, the model shows that b
bp could be a relatively good proxy for phytoplankton carbon biomass, with errors close to 20% in most regions.
Text
Global Biogeochemical Cycles - 2023 - Serra‐Pompei - Assessing the potential of backscattering as a proxy for phytoplankton
- Accepted Manuscript
Text
Global Biogeochemical Cycles - 2023 - Serra‐Pompei - Assessing the Potential of Backscattering as a Proxy for Phytoplankton
- Version of Record
More information
Accepted/In Press date: 25 April 2023
e-pub ahead of print date: 28 May 2023
Published date: June 2023
Additional Information:
Funding Information:
We would like to thank I. Cetinić for constructive discussions, and the reviewers of this study for their valuable feedback. This work builds on prior discussions with participants of the Pools of Carbon in the Ocean (POCO) project led by S. Sathyendranath at Plymouth Marine Laboratory and funded by the European Space Agency. We would also like to thank D. Stramski for providing plankton IOPs data that was used to parameterize the former model configuration and part of the new version. This work was supported by multiple grants from the Simons Foundation: the postdoctoral fellowship in Marine microbial ecology funded CSP (#722859) and GLB (#645921), and SD was funded by the Simons Collaboration on Computational Biogeochemical Modeling of Marine Ecosystems (CBIOMES, Grant 549931). SD additionally acknowledges funding from NASA (Grant 80NSSC22K0153).
Publisher Copyright:
© 2023 The Authors.
Keywords:
algorithm, backscattering, model, optic, performance, phytoplankton
Identifiers
Local EPrints ID: 476781
URI: http://eprints.soton.ac.uk/id/eprint/476781
ISSN: 0886-6236
PURE UUID: c347c5cc-19da-49a7-9aa0-959927fc80a4
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Date deposited: 15 May 2023 17:12
Last modified: 06 Jun 2024 01:50
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Contributors
Author:
Camila Serra-Pompei
Author:
G.L. Britten
Author:
Stephanie Dutkiewicz
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