The University of Southampton
University of Southampton Institutional Repository

Predicting the Electron Requirement for Carbon Fixation in Seas and Oceans

Predicting the Electron Requirement for Carbon Fixation in Seas and Oceans
Predicting the Electron Requirement for Carbon Fixation in Seas and Oceans
Marine phytoplankton account for about 50% of all global net primary productivity (NPP). Active fluorometry, mainly Fast Repetition Rate fluorometry (FRRf), has been advocated as means of providing high resolution estimates of NPP. However, not measuring CO2-fixation directly, FRRf instead provides photosynthetic quantum efficiency estimates from which electron transfer rates (ETR) and ultimately CO2-fixation rates can be derived. Consequently, conversions of ETRs to CO2-fixation requires knowledge of the electron requirement for carbon fixation (?e,C, ETR/CO2 uptake rate) and its dependence on environmental gradients. Such knowledge is critical for large scale implementation of active fluorescence to better characterise CO2-uptake. Here we examine the variability of experimentally determined ?e,C values in relation to key environmental variables with the aim of developing new working algorithms for the calculation of ?e,C from environmental variables. Coincident FRRf and 14C-uptake and environmental data from 14 studies covering 12 marine regions were analysed via a meta-analytical, non-parametric, multivariate approach. Combining all studies, ?e,C varied between 1.15 and 54.2 mol e? (mol C)?1 with a mean of 10.9±6.91 mol e? mol C)?1. Although variability of ?e,C was related to environmental gradients at global scales, region-specific analyses provided far improved predictive capability. However, use of regional ?e,C algorithms requires objective means of defining regions of interest, which remains challenging. Considering individual studies and specific small-scale regions, temperature, nutrient and light availability were correlated with ?e,C albeit to varying degrees and depending on the study/region and the composition of the extant phytoplankton community. At the level of large biogeographic regions and distinct water masses, ?e,C was related to nutrient availability, chlorophyll, as well as temperature and/or salinity in most regions, while light availability was also important in Baltic Sea and shelf waters. The novel ?e,C algorithms provide a major step forward for widespread fluorometry-based NPP estimates and highlight the need for further studying the natural variability of ?e,C to verify and develop algorithms with improved accuracy.
1932-6203
e58137
Lawrenz, Evelyn
5f85ce9d-4de6-4a9e-b2c4-e6b518ac6364
Silsbe, Greg
2030cd04-003e-4141-a665-4f6b2d6d26db
Capuzzo, Elisa
2ff3baef-6c8f-446a-884c-4c20d2b9badb
Ylöstalo, Pasi
e1a9088b-b6e3-47af-b6db-fc52e69a73ea
Forster, Rodney M.
b89bd38e-169d-428d-a2e0-fb29b0eeeb9e
Simis, Stefan G. H.
105c243a-5c34-4541-a9f8-59860fef7ba5
Prášil, Ondřej
c553fda0-711f-4fe5-9cd9-200ac4b50bd6
Kromkamp, Jacco C.
aaa6bf12-5ab2-4319-8ac3-4a331e782960
Hickman, Anna E.
a99786c6-65e6-48c8-8b58-0d3b5608be92
Moore, C. Mark
7ec80b7b-bedc-4dd5-8924-0f5d01927b12
Forget, Marie-Hélèn
e984fa12-39d5-4896-9e75-ea4cbe1c1d83
Geider, Richard J.
f1432d5c-8c1d-48ab-ac52-e81ee5ce7f42
Suggett, David J.
9100a791-1264-40e4-9403-8491190c3430
Lawrenz, Evelyn
5f85ce9d-4de6-4a9e-b2c4-e6b518ac6364
Silsbe, Greg
2030cd04-003e-4141-a665-4f6b2d6d26db
Capuzzo, Elisa
2ff3baef-6c8f-446a-884c-4c20d2b9badb
Ylöstalo, Pasi
e1a9088b-b6e3-47af-b6db-fc52e69a73ea
Forster, Rodney M.
b89bd38e-169d-428d-a2e0-fb29b0eeeb9e
Simis, Stefan G. H.
105c243a-5c34-4541-a9f8-59860fef7ba5
Prášil, Ondřej
c553fda0-711f-4fe5-9cd9-200ac4b50bd6
Kromkamp, Jacco C.
aaa6bf12-5ab2-4319-8ac3-4a331e782960
Hickman, Anna E.
a99786c6-65e6-48c8-8b58-0d3b5608be92
Moore, C. Mark
7ec80b7b-bedc-4dd5-8924-0f5d01927b12
Forget, Marie-Hélèn
e984fa12-39d5-4896-9e75-ea4cbe1c1d83
Geider, Richard J.
f1432d5c-8c1d-48ab-ac52-e81ee5ce7f42
Suggett, David J.
9100a791-1264-40e4-9403-8491190c3430

Lawrenz, Evelyn, Silsbe, Greg, Capuzzo, Elisa, Ylöstalo, Pasi, Forster, Rodney M., Simis, Stefan G. H., Prášil, Ondřej, Kromkamp, Jacco C., Hickman, Anna E., Moore, C. Mark, Forget, Marie-Hélèn, Geider, Richard J. and Suggett, David J. (2013) Predicting the Electron Requirement for Carbon Fixation in Seas and Oceans. PLoS ONE, 8 (3), e58137. (doi:10.1371/journal.pone.0058137).

Record type: Article

Abstract

Marine phytoplankton account for about 50% of all global net primary productivity (NPP). Active fluorometry, mainly Fast Repetition Rate fluorometry (FRRf), has been advocated as means of providing high resolution estimates of NPP. However, not measuring CO2-fixation directly, FRRf instead provides photosynthetic quantum efficiency estimates from which electron transfer rates (ETR) and ultimately CO2-fixation rates can be derived. Consequently, conversions of ETRs to CO2-fixation requires knowledge of the electron requirement for carbon fixation (?e,C, ETR/CO2 uptake rate) and its dependence on environmental gradients. Such knowledge is critical for large scale implementation of active fluorescence to better characterise CO2-uptake. Here we examine the variability of experimentally determined ?e,C values in relation to key environmental variables with the aim of developing new working algorithms for the calculation of ?e,C from environmental variables. Coincident FRRf and 14C-uptake and environmental data from 14 studies covering 12 marine regions were analysed via a meta-analytical, non-parametric, multivariate approach. Combining all studies, ?e,C varied between 1.15 and 54.2 mol e? (mol C)?1 with a mean of 10.9±6.91 mol e? mol C)?1. Although variability of ?e,C was related to environmental gradients at global scales, region-specific analyses provided far improved predictive capability. However, use of regional ?e,C algorithms requires objective means of defining regions of interest, which remains challenging. Considering individual studies and specific small-scale regions, temperature, nutrient and light availability were correlated with ?e,C albeit to varying degrees and depending on the study/region and the composition of the extant phytoplankton community. At the level of large biogeographic regions and distinct water masses, ?e,C was related to nutrient availability, chlorophyll, as well as temperature and/or salinity in most regions, while light availability was also important in Baltic Sea and shelf waters. The novel ?e,C algorithms provide a major step forward for widespread fluorometry-based NPP estimates and highlight the need for further studying the natural variability of ?e,C to verify and develop algorithms with improved accuracy.

Other
fetchObject.action_uri=info_doi%2F10.1371%2Fjournal.pone.0058137&representation=PDF - Version of Record
Available under License Other.
Download (2MB)

More information

Published date: 2013
Organisations: Ocean Biochemistry & Ecosystems

Identifiers

Local EPrints ID: 350447
URI: http://eprints.soton.ac.uk/id/eprint/350447
ISSN: 1932-6203
PURE UUID: 91c1dc07-c42f-4313-b0fe-ab6595da7b39
ORCID for Anna E. Hickman: ORCID iD orcid.org/0000-0002-2774-3934
ORCID for C. Mark Moore: ORCID iD orcid.org/0000-0002-9541-6046

Catalogue record

Date deposited: 25 Mar 2013 11:56
Last modified: 15 Mar 2024 03:43

Export record

Altmetrics

Contributors

Author: Evelyn Lawrenz
Author: Greg Silsbe
Author: Elisa Capuzzo
Author: Pasi Ylöstalo
Author: Rodney M. Forster
Author: Stefan G. H. Simis
Author: Ondřej Prášil
Author: Jacco C. Kromkamp
Author: Anna E. Hickman ORCID iD
Author: C. Mark Moore ORCID iD
Author: Marie-Hélèn Forget
Author: Richard J. Geider
Author: David J. Suggett

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×