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Isoscape models of the Southern Ocean: predicting spatial and temporal variability in carbon and nitrogen isotope compositions of particulate organic matter

Isoscape models of the Southern Ocean: predicting spatial and temporal variability in carbon and nitrogen isotope compositions of particulate organic matter
Isoscape models of the Southern Ocean: predicting spatial and temporal variability in carbon and nitrogen isotope compositions of particulate organic matter
Polar marine ecosystems are particularly vulnerable to the effects of climate change. Warming temperatures, freshening seawater, and disruption to sea-ice formation potentially all have cascading effects on food webs. New approaches are needed to better understand spatiotemporal interactions among biogeochemical processes at the base of Southern Ocean food webs. In marine systems, isoscapes (models of the spatial variation in the stable isotopic composition) of carbon and nitrogen have proven useful in identifying spatial variation in a range of biogeochemical processes, such as nutrient utilization by phytoplankton. Isoscapes provide a baseline for interpreting stable isotope compositions of higher trophic level animals in movement, migration, and diet research. Here, we produce carbon and nitrogen isoscapes across the entire Southern Ocean (>40°S) using surface particulate organic matter isotope data, collected over the past 50 years. We use Integrated Nested Laplace Approximation-based approaches to predict mean annual isoscapes and four seasonal isoscapes using a suite of environmental data as predictor variables. Clear spatial gradients in δ13C and δ15N values were predicted across the Southern Ocean, consistent with previous statistical and mechanistic views of isotopic variability in this region. We identify strong seasonal variability in both carbon and nitrogen isoscapes, with key implications for the use of static or annual average isoscape baselines in animal studies attempting to document seasonal migratory or foraging behaviors.
0886-6236
St John Glew, Katie
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Espinasse, Boris
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Hunt, Brian P.V.
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Pakhomov, Evgeny A.
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Bury, Sarah J.
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Pinkerton, Matt
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Nodder, Scott D.
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Gutiérrez-Rodríguez, Andres
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Safi, Karl
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Brown, Julie C.S.
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Graham, Laura
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Dunbar, Robert B.
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Mucciarone, David A.
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Magozzi, Sarah
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Somes, Chris
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Trueman, Clive N.
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St John Glew, Katie
d6fbd94d-8194-4b27-ac10-b1b7333da20b
Espinasse, Boris
922b688f-13e4-44b5-af66-af7047d7033b
Hunt, Brian P.V.
e84cd431-e193-41bc-a921-4bddf9563da2
Pakhomov, Evgeny A.
77ed3aa2-a63f-477e-88d7-dc8a07c5756f
Bury, Sarah J.
7a894e46-453f-4687-89f3-e568d6f1385a
Pinkerton, Matt
9f1316f9-73ee-4184-aa74-66f2734e375a
Nodder, Scott D.
52b35ad3-7760-4fbf-915c-5ce456315a29
Gutiérrez-Rodríguez, Andres
465bbe14-84f0-4452-af5f-ba8d32ba91e1
Safi, Karl
758c3ce8-fdae-42cf-8055-22d01286b99a
Brown, Julie C.S.
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Graham, Laura
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Dunbar, Robert B.
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Mucciarone, David A.
c6a9fb11-cc8a-41c8-b4e8-8592bd2bf439
Magozzi, Sarah
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Somes, Chris
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Trueman, Clive N.
d00d3bd6-a47b-4d47-89ae-841c3d506205

St John Glew, Katie, Espinasse, Boris, Hunt, Brian P.V., Pakhomov, Evgeny A., Bury, Sarah J., Pinkerton, Matt, Nodder, Scott D., Gutiérrez-Rodríguez, Andres, Safi, Karl, Brown, Julie C.S., Graham, Laura, Dunbar, Robert B., Mucciarone, David A., Magozzi, Sarah, Somes, Chris and Trueman, Clive N. (2021) Isoscape models of the Southern Ocean: predicting spatial and temporal variability in carbon and nitrogen isotope compositions of particulate organic matter. Global Biogeochemical Cycles, 35 (9), [e2020GB006901]. (doi:10.1029/2020GB006901).

Record type: Article

Abstract

Polar marine ecosystems are particularly vulnerable to the effects of climate change. Warming temperatures, freshening seawater, and disruption to sea-ice formation potentially all have cascading effects on food webs. New approaches are needed to better understand spatiotemporal interactions among biogeochemical processes at the base of Southern Ocean food webs. In marine systems, isoscapes (models of the spatial variation in the stable isotopic composition) of carbon and nitrogen have proven useful in identifying spatial variation in a range of biogeochemical processes, such as nutrient utilization by phytoplankton. Isoscapes provide a baseline for interpreting stable isotope compositions of higher trophic level animals in movement, migration, and diet research. Here, we produce carbon and nitrogen isoscapes across the entire Southern Ocean (>40°S) using surface particulate organic matter isotope data, collected over the past 50 years. We use Integrated Nested Laplace Approximation-based approaches to predict mean annual isoscapes and four seasonal isoscapes using a suite of environmental data as predictor variables. Clear spatial gradients in δ13C and δ15N values were predicted across the Southern Ocean, consistent with previous statistical and mechanistic views of isotopic variability in this region. We identify strong seasonal variability in both carbon and nitrogen isoscapes, with key implications for the use of static or annual average isoscape baselines in animal studies attempting to document seasonal migratory or foraging behaviors.

Text
Global Biogeochemical Cycles - 2021 - St John Glew - Isoscape Models of the Southern Ocean Predicting Spatial and Temporal - Version of Record
Available under License Creative Commons Attribution Non-commercial No Derivatives.
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Accepted/In Press date: 11 August 2021
e-pub ahead of print date: 30 August 2021
Published date: 12 September 2021
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Identifiers

Local EPrints ID: 491024
URI: http://eprints.soton.ac.uk/id/eprint/491024
DOI: doi:10.1029/2020GB006901
ISSN: 0886-6236
PURE UUID: 6eee27a9-9e5c-4cea-b8c5-8d69e27247f2
ORCID for Clive N. Trueman: ORCID iD orcid.org/0000-0002-4995-736X

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Date deposited: 11 Jun 2024 16:39
Last modified: 15 Jun 2024 01:39

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Contributors

Author: Katie St John Glew
Author: Boris Espinasse
Author: Brian P.V. Hunt
Author: Evgeny A. Pakhomov
Author: Sarah J. Bury
Author: Matt Pinkerton
Author: Scott D. Nodder
Author: Andres Gutiérrez-Rodríguez
Author: Karl Safi
Author: Julie C.S. Brown
Author: Laura Graham
Author: Robert B. Dunbar
Author: David A. Mucciarone
Author: Sarah Magozzi
Author: Chris Somes
Author: Clive N. Trueman ORCID iD

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