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A global ocean opal Ballasting–silicate relationship

A global ocean opal Ballasting–silicate relationship
A global ocean opal Ballasting–silicate relationship

Opal and calcium carbonate are thought to regulate the biological pump's transfer of organic carbon to the deep ocean. A global sediment trap database exhibits large regional variations in the organic carbon flux associated with opal flux. These variations are well-explained by upper ocean silicate concentrations, with high opal ‘ballasting’ in the silicate-deplete tropical Atlantic Ocean, and low ballasting in the silicate-rich Southern Ocean. A plausible, testable hypothesis is that opal ballasting varies because diatoms grow thicker frustules where silicate concentrations are higher, carrying less organic carbon per unit opal. The observed pattern does not fully emerge in an advanced ocean biogeochemical model when diatom silicification is represented using a single global parameterization as a function of silicate and iron. Our results suggest a need for improving understanding of currently modeled processes and/or considering additional parameterizations to capture the links between elemental cycles and future biological pump changes.

0094-8276
Cael, B.B.
458442c7-574e-42dd-b2aa-717277e14eba
Moore, C. Mark
7ec80b7b-bedc-4dd5-8924-0f5d01927b12
Guest, Joe
b2ce896f-3fbd-4296-b42d-f86af4e57733
Jarníková, Tereza
5fb745df-4c35-4bd1-a96d-ef019d5e1038
Mouw, Colleen B.
fa7e23ea-6638-406a-a36d-cf705297b8d6
Bowler, Chris
138c3382-d258-4ef3-8f5f-e16603c21880
Mawji, Edward
36970997-a479-4cc5-8120-82a2fe000202
Henson, Stephanie A.
d6532e17-a65b-4d7b-9ee3-755ecb565c19
Le Quere, Corrine
7baa1868-5243-4ef0-9a64-aefa0b2599f9
Cael, B.B.
458442c7-574e-42dd-b2aa-717277e14eba
Moore, C. Mark
7ec80b7b-bedc-4dd5-8924-0f5d01927b12
Guest, Joe
b2ce896f-3fbd-4296-b42d-f86af4e57733
Jarníková, Tereza
5fb745df-4c35-4bd1-a96d-ef019d5e1038
Mouw, Colleen B.
fa7e23ea-6638-406a-a36d-cf705297b8d6
Bowler, Chris
138c3382-d258-4ef3-8f5f-e16603c21880
Mawji, Edward
36970997-a479-4cc5-8120-82a2fe000202
Henson, Stephanie A.
d6532e17-a65b-4d7b-9ee3-755ecb565c19
Le Quere, Corrine
7baa1868-5243-4ef0-9a64-aefa0b2599f9

Cael, B.B., Moore, C. Mark, Guest, Joe, Jarníková, Tereza, Mouw, Colleen B., Bowler, Chris, Mawji, Edward, Henson, Stephanie A. and Le Quere, Corrine (2024) A global ocean opal Ballasting–silicate relationship. Geophysical Research Letters, 51 (19), [e2024GL110225]. (doi:10.1029/2024GL110225).

Record type: Article

Abstract

Opal and calcium carbonate are thought to regulate the biological pump's transfer of organic carbon to the deep ocean. A global sediment trap database exhibits large regional variations in the organic carbon flux associated with opal flux. These variations are well-explained by upper ocean silicate concentrations, with high opal ‘ballasting’ in the silicate-deplete tropical Atlantic Ocean, and low ballasting in the silicate-rich Southern Ocean. A plausible, testable hypothesis is that opal ballasting varies because diatoms grow thicker frustules where silicate concentrations are higher, carrying less organic carbon per unit opal. The observed pattern does not fully emerge in an advanced ocean biogeochemical model when diatom silicification is represented using a single global parameterization as a function of silicate and iron. Our results suggest a need for improving understanding of currently modeled processes and/or considering additional parameterizations to capture the links between elemental cycles and future biological pump changes.

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Geophysical Research Letters - 2024 - Cael - A Global Ocean Opal Ballasting Silicate Relationship - Version of Record
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Accepted/In Press date: 1 August 2024
e-pub ahead of print date: 1 October 2024
Published date: 16 October 2024
Learn more about Institute for Life Sciences research Learn more about Institute for Life Sciences research Learn more about Ocean and Earth Science research

Identifiers

Local EPrints ID: 495420
URI: http://eprints.soton.ac.uk/id/eprint/495420
DOI: doi:10.1029/2024GL110225
ISSN: 0094-8276
PURE UUID: 7d106e92-3ae8-4335-98a3-8138b12c9a46
ORCID for C. Mark Moore: ORCID iD orcid.org/0000-0002-9541-6046

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Date deposited: 13 Nov 2024 17:37
Last modified: 14 Nov 2024 02:36

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Contributors

Author: B.B. Cael
Author: C. Mark Moore ORCID iD
Author: Joe Guest
Author: Tereza Jarníková
Author: Colleen B. Mouw
Author: Chris Bowler
Author: Edward Mawji
Author: Stephanie A. Henson
Author: Corrine Le Quere

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