Using ocean models to predict spatial and temporal variation in marine carbon isotopes
Using ocean models to predict spatial and temporal variation in marine carbon isotopes
Natural-abundance stable isotope ratios provide a wealth of ecological information relating to food web structure, trophic level, and location. The correct interpretation of stable isotope data requires an understanding of spatial and temporal variation in the isotopic compositions at the base of the food web. In marine pelagic environments, accurate interpretation of stable isotope data is hampered by a lack of reliable, spatio-temporally distributed measurements of baseline isotopic compositions. In this study, we present a relatively simple, process-based carbon isotope model that predicts the spatio-temporal distributions of the carbon isotope composition of phytoplankton (here expressed as δ13CPLK) across the global ocean at one degree and monthly resolution. The model is driven by output from a coupled physics-biogeochemistry model, NEMO-MEDUSA, and operates offline; it could also be coupled to alternative underlying ocean model systems. Model validation is challenged by the same lack of spatio-temporally explicit data that motivates model development, but predictions from our model successfully reproduce major spatial patterns in carbon isotope values observed in zooplankton, and are consistent with simulations from alternative models. Model predictions represent an initial hypothesis of spatial and temporal variation in carbon isotopic baselines in ocean areas where a few data are currently available, and provide the best currently available tool to estimate spatial and temporal variation in baseline isotopic compositions at ocean basin to global scales.
Magozzi, S.
04b10c48-de68-4c20-ad93-eeb32ce442dc
Yool, A.
882aeb0d-dda0-405e-844c-65b68cce5017
Vander Zanden, H.B.
e79a50d2-bac4-4d66-90ac-39b53ff670d5
Wunder, M.B.
2a2c7797-eb0e-423d-8573-a7ec11b28009
Trueman, C.N.
d00d3bd6-a47b-4d47-89ae-841c3d506205
9 May 2017
Magozzi, S.
04b10c48-de68-4c20-ad93-eeb32ce442dc
Yool, A.
882aeb0d-dda0-405e-844c-65b68cce5017
Vander Zanden, H.B.
e79a50d2-bac4-4d66-90ac-39b53ff670d5
Wunder, M.B.
2a2c7797-eb0e-423d-8573-a7ec11b28009
Trueman, C.N.
d00d3bd6-a47b-4d47-89ae-841c3d506205
Magozzi, S., Yool, A., Vander Zanden, H.B., Wunder, M.B. and Trueman, C.N.
(2017)
Using ocean models to predict spatial and temporal variation in marine carbon isotopes.
Ecosphere, 8 (5), [e01763].
(doi:10.1002/ecs2.1763).
Abstract
Natural-abundance stable isotope ratios provide a wealth of ecological information relating to food web structure, trophic level, and location. The correct interpretation of stable isotope data requires an understanding of spatial and temporal variation in the isotopic compositions at the base of the food web. In marine pelagic environments, accurate interpretation of stable isotope data is hampered by a lack of reliable, spatio-temporally distributed measurements of baseline isotopic compositions. In this study, we present a relatively simple, process-based carbon isotope model that predicts the spatio-temporal distributions of the carbon isotope composition of phytoplankton (here expressed as δ13CPLK) across the global ocean at one degree and monthly resolution. The model is driven by output from a coupled physics-biogeochemistry model, NEMO-MEDUSA, and operates offline; it could also be coupled to alternative underlying ocean model systems. Model validation is challenged by the same lack of spatio-temporally explicit data that motivates model development, but predictions from our model successfully reproduce major spatial patterns in carbon isotope values observed in zooplankton, and are consistent with simulations from alternative models. Model predictions represent an initial hypothesis of spatial and temporal variation in carbon isotopic baselines in ocean areas where a few data are currently available, and provide the best currently available tool to estimate spatial and temporal variation in baseline isotopic compositions at ocean basin to global scales.
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Magozzi_et_al-2017-Ecosphere
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Accepted/In Press date: 7 March 2017
e-pub ahead of print date: 9 May 2017
Published date: 9 May 2017
Organisations:
Marine Systems Modelling, Geochemistry, National Oceanography Centre
Identifiers
Local EPrints ID: 408078
URI: http://eprints.soton.ac.uk/id/eprint/408078
ISSN: 2150-8925
PURE UUID: 3e12bc7c-6d99-4e77-967c-5a8c4bac95ad
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Date deposited: 11 May 2017 01:05
Last modified: 16 Mar 2024 03:35
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Author:
S. Magozzi
Author:
A. Yool
Author:
H.B. Vander Zanden
Author:
M.B. Wunder
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