Etude des émissions de fluide et de gaz dans un contexte d’éruption sous-marine au large de l’Ile de Mayotte : impact géochimique sur la colonne d’eau
Submarine volcanism contributes significant fluxes of chemicals (e.g. He, CO2, CH4, H2, Fe2+, Mn2+) in the ocean. However, the geochemical processes behind these emissions and the impact of these discharges on the water column geochemistry are poorly documented. In this PhD thesis, we took advantage...
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Other Authors: | , , , , , |
Format: | Doctoral or Postdoctoral Thesis |
Language: | French |
Published: |
HAL CCSD
2023
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Subjects: | |
Online Access: | https://theses.hal.science/tel-04394229 https://theses.hal.science/tel-04394229/document https://theses.hal.science/tel-04394229/file/These-2023-SML-Geosciences_marines-MASTIN_Manon.pdf |
Summary: | Submarine volcanism contributes significant fluxes of chemicals (e.g. He, CO2, CH4, H2, Fe2+, Mn2+) in the ocean. However, the geochemical processes behind these emissions and the impact of these discharges on the water column geochemistry are poorly documented. In this PhD thesis, we took advantage of the Fani Maoré newly born submarine volcano whose activity started in 2018-2019 (Mayotte Island, Comoros Archipelago, Indian Ocean). This exceptional and unique setting offers the opportunity to study the water column geochemistry during the eruption and formation of a new volcanic edifice, and after the eruptive event (i.e. during lava flows installation and hydrothermal circulation initiation). In particular, we investigate the impact of elevated levels of CO2 – major greenhouse gas involved in climate change and associated ocean acidification – on the water column geochemistry. We find evidence of the relationship between the degree of eruptive activity (i.e. ongoing eruption, lava flow installation) and the footprint of fluid and gas emissions within the water column. The volcanic activity also influences the carbonate system although a return toward local background levels was observed a year after the main eruptive event. Continuous discharge of liquid CO2 at venting sites are responsible of significant acidification, increase in alkalinity and in dissolved inorganic carbon. This impact on the water column depends on seafloor morphology and local hydrodynamics. Overall, this work is a step toward a better understanding of the impact of submarine volcanism on geochemical processes taking place within the water column and more generally on the ocean chemistry. Le volcanisme sous-marin émet des flux significatifs d’éléments chimiques (ex. He, CO2, CH4, H2, Fe2+, Mn2+) dans l'océan. Cependant, les processus géochimiques à l'origine de ces émissions et l'impact de ces rejets sur la géochimie de la colonne d'eau sont peu connus. Dans cette thèse, nous avons étudié le nouveau volcan sous-marin Fani Maoré, dont ... |
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