A CO₂ Sink in the South Pacific Ocean Desert

The researchers undertook to document the mechanical link between iron released by underwater volcanoes and the response of the plankton community in the surface layer. They combined acoustic, chemical, physical, and biological observations acquired during the 2019 the Tonga Oceanographic Expedition (link in French), onboard the French oceanographic fleet’s vessel L’Atalante, operated by Ifremer.

The results demonstrated that fluids emitted along the Tonga's volcanic arc have a considerable impact on iron concentrations in the sunlit layer. This stimulates biological activity, resulting in the formation of a large chlorophyll-rich living oasis dominated by the diazotroph Trichodesmium. Diazotroph activity there is two to eight times higher than in adjacent areas without iron fertilization, and carbon sequestration fluxes to the deep ocean are doubled or tripled. These results reveal a natural iron fertilization mechanism in the ocean by hydrothermal vents, which fuels regional atmospheric CO₂ sinks.

Planktonic diazotrophs are widespread microscopic organisms in the ocean. They play a crucial natural fertilizing role by providing a resource of available nitrogen to the ocean’s surface biosphere, an essential but rare nutrient in most of our oceans. The western subtropical South Pacific is a hotbed of diazotrophic activity. It is estimated that this process contributes 21% of nitrogen generated worldwide through this process.

The supply of iron through atmospheric deposition controls the large-scale biogeographical distribution of diazotrophs, but these aeolian inputs are extremely low in this remote region. This suggests the presence of other iron fertilization processes, such as the one identified above for the first time. Diazotrophs were recently identified as key drivers of future CO₂ fixation by the ocean as a response to climate change, and regions where they thrive are expanding with climate change, giving significant importance to the identification of these processes.

1 Micro-organisms capable of growth without external sources of fixed nitrogen

Sophie Bonnet, Cécile Guieu, Vincent Taillandier, Cédric Boulart, Pascale Bouruet-Aubertot, Frédéric Gazeau, Carla Scalabrin, Matthieu Bressac, Angela N. Knapp, Yannis Cuypers, David González-Santana, Heather J. Forrer, Jean-Michel Grisoni, Olivier Grosso, Jérémie Habasque, Mercedes Jardin-Camps, Nathalie Leblond, Frédéric Le Moigne, Anne Lebourges-Dhaussy, Caroline Lory, Sandra Nunige, Elvira Pulido-Villena, Andrea L. Rizzo, Géraldine Sarthou, Chloé Tilliette.

Institut méditerranéen d'océanologie (CNRS/Aix-Marseille Université/IRD/Université de Toulon), Laboratoire d'océanographie de Villefranche (CNRS/Sorbonne Université), Laboratoire Adaptation et diversité en milieu marin (CNRS/SU), Laboratoire d'océanographie et du climat : expérimentations et approches numériques (CNRS/IRD/MNHN/SU), Laboratoire Geo-ocean (CNRS/Ifremer/UBO), Laboratoire des sciences de l'environnement marin (CNRS/IRD/Ifremer/UBO), Institut de la Mer de Villefranche (CNRS/SU).

DOI : Natural iron fertilization by shallow hydrothermal sources fuels diazotroph blooms in the Ocean, Science, 25 mai 2023.