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Subaerial volcanism is a potentially major contributor to oceanic iron and manganese cycles

Jack Longman, Martin R. Palmer, Thomas Gernon, Hayley Manners, Morgan T. Jones

2022Communications Earth & Environment28 citationsDOIOpen Access PDF

Abstract

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.

Topics & Concepts

SubaerialManganeseVolcanic ashGeologyVolcanoGeochemistryDiagenesisGeotracesAeolian processesEnvironmental scienceCarbon cycleEarth scienceOceanographySeawaterChemistryGeomorphologyEcologyOrganic chemistryBiologyEcosystemMarine and coastal ecosystemsGeochemistry and Elemental AnalysisPaleontology and Stratigraphy of Fossils
Subaerial volcanism is a potentially major contributor to oceanic iron and manganese cycles | Litcius