Litcius/Paper detail

Pathways and timescales of Southern Ocean hydrothermal iron and manganese transport

Antony J. Birchill, Chelsey Baker, Neil J. Wyatt, Katsiaryna Pabortsava, Hugh J. Venables, C. Mark Moore, Isobel Turnbull, Angela Milne, Simon J. Ussher, Sophy Oliver, Adrian P. Martin

2024Communications Earth & Environment11 citationsDOIOpen Access PDF

Abstract

Abstract Scarcity of iron and manganese limits the efficiency of the biological carbon pump over large areas of the Southern Ocean. The importance of hydrothermal vents as a source of these micronutrients to the euphotic zone of the Southern Ocean is debated. Here we present full depth profiles of dissolved and total dissolvable trace metals in the remote eastern Pacific sector of the Southern Ocean (55–60° S, 89.1° W), providing evidence of enrichment of iron and manganese at depths of 2000–4000 m. These enhanced micronutrient concentrations were co-located with 3 He enrichment, an indicator of hydrothermal fluid originating from ocean ridges. Modelled water trajectories revealed the understudied South East Pacific Rise and the Pacific Antarctic Ridge as likely source regions. Additionally, the trajectories demonstrate pathways for these Southern Ocean hydrothermal ridge-derived trace metals to reach the Southern Ocean surface mixed layer within two decades, potentially supporting a regular supply of micronutrients to fuel Southern Ocean primary production.

Topics & Concepts

GeotracesPhotic zoneOceanographyHydrothermal circulationRidgeHydrothermal ventManganeseGeologyDeep seaMid-ocean ridgePacific oceanEnvironmental scienceOcean currentCarbon fibersTrace elementSeawaterGeochemistryNutrientEcologyChemistryPhytoplanktonPaleontologyBiologyOrganic chemistryMaterials scienceComposite materialComposite numberMarine and coastal ecosystemsMarine Biology and Ecology ResearchGeology and Paleoclimatology Research