Subaerial volcanism is a potentially major contributor to oceanic iron and manganese cycles
Subaerial volcanism is a potentially major contributor to oceanic iron and manganese cycles
Surface ocean availability of the micronutrients iron and manganese influences primary productivity and carbon cycling in the ocean. Volcanic ash is rich in iron and manganese, but the global supply of these nutrients to the oceans via ash deposition is poorly constrained. Here, we use marine sediment-hosted ash composition data from ten volcanic regions, and subaerial volcanic eruption volumes, to estimate global ash-driven nutrient fluxes. Using Monte Carlo simulations, we estimate average fluxes of dissolved Iron and Manganese from volcanic sources to be between 50 and 500 (median 180) and 0.6 and 3.2 (median 1.3) Gmol yr−1, respectively. Much of the element release occurs during early diagenesis, indicating ash-rich shelf sediments are likely important suppliers of aqueous iron and manganese. Estimated ash-driven fluxes are of similar magnitude to aeolian inputs. We suggest that subaerial volcanism is an important, but underappreciated, source of these micronutrients to the global ocean.
Longman, Jack
af44cd08-812c-4c77-8e87-673fd5ce4157
Palmer, Martin
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Gernon, Thomas
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Manners, Hayley
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Jones, Morgan
2b31f74d-f943-4e5e-9da0-f19bcae696dd
14 March 2022
Longman, Jack
af44cd08-812c-4c77-8e87-673fd5ce4157
Palmer, Martin
d2e60e81-5d6e-4ddb-a243-602537286080
Gernon, Thomas
658041a0-fdd1-4516-85f4-98895a39235e
Manners, Hayley
b96fdd22-f32d-4ebe-84d0-1aa77163a8ce
Jones, Morgan
2b31f74d-f943-4e5e-9da0-f19bcae696dd
Longman, Jack, Palmer, Martin, Gernon, Thomas, Manners, Hayley and Jones, Morgan
(2022)
Subaerial volcanism is a potentially major contributor to oceanic iron and manganese cycles.
Communications Earth & Environment, 3, [60].
Abstract
Surface ocean availability of the micronutrients iron and manganese influences primary productivity and carbon cycling in the ocean. Volcanic ash is rich in iron and manganese, but the global supply of these nutrients to the oceans via ash deposition is poorly constrained. Here, we use marine sediment-hosted ash composition data from ten volcanic regions, and subaerial volcanic eruption volumes, to estimate global ash-driven nutrient fluxes. Using Monte Carlo simulations, we estimate average fluxes of dissolved Iron and Manganese from volcanic sources to be between 50 and 500 (median 180) and 0.6 and 3.2 (median 1.3) Gmol yr−1, respectively. Much of the element release occurs during early diagenesis, indicating ash-rich shelf sediments are likely important suppliers of aqueous iron and manganese. Estimated ash-driven fluxes are of similar magnitude to aeolian inputs. We suggest that subaerial volcanism is an important, but underappreciated, source of these micronutrients to the global ocean.
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Longman_AshFert_CEE_MS_Revised_Final_v3
- Accepted Manuscript
Text
s43247-022-00389-7
- Version of Record
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e-pub ahead of print date: 14 March 2022
Published date: 14 March 2022
Identifiers
Local EPrints ID: 471916
URI: http://eprints.soton.ac.uk/id/eprint/471916
PURE UUID: a9988a36-2070-45d8-99cc-133afe12ebf9
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Date deposited: 22 Nov 2022 17:44
Last modified: 17 Mar 2024 03:20
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Contributors
Author:
Jack Longman
Author:
Hayley Manners
Author:
Morgan Jones
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