Natural iron fertilization by shallow hydrothermal sources fuels diazotroph blooms in the ocean | Zendy

Sophie Bonnet | Zendy; Cécile Guieu | Zendy; Vincent Taillandier | Zendy; Cédric Boulart | Zendy; Pascale BouruetAubertot | Zendy; Frédéric Gazeau | Zendy; Carla Scalabrin | Zendy; Matthieu Bressac | Zendy; Angela N. Knapp | Zendy; Yannis Cuypers | Zendy; David González-Santana | Zendy; Heather J. Forrer | Zendy; Jean-Michel Grisoni | Zendy; Olivier Grosso | Zendy; Jérémie Habasque | Zendy; Mercedes Jardin-Camps | Zendy; N. Leblond | Zendy; Frédéric A.C. Le Moigne | Zendy; Anne LebourgesDhaussy | Zendy; Caroline Lory | Zendy; Sandra Nunige | Zendy; Elvira PulidoVillena | Zendy; Andrea Luca Rizzo | Zendy; Géraldine Sarthou | Zendy; Chloé Tilliette | Zendy

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Natural iron fertilization by shallow hydrothermal sources fuels diazotroph blooms in the ocean

Author(s) -

Sophie Bonnet,

Cécile Guieu,

Vincent Taillandier,

Cédric Boulart,

Pascale BouruetAubertot,

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,

N. Leblond,

Frédéric A.C. Le Moigne,

Anne LebourgesDhaussy,

Caroline Lory,

Sandra Nunige,

Elvira PulidoVillena,

Andrea Luca Rizzo,

Géraldine Sarthou,

Chloé Tilliette

Publication year - 2023

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.abq4654

Subject(s) - photic zone , hydrothermal vent , hydrothermal circulation , iron fertilization , oceanography , geology , environmental science , diazotroph , earth science , geochemistry , nutrient , phytoplankton , biology , ecology , paleontology , nitrogen fixation , bacteria

Iron is an essential nutrient that regulates productivity in ~30% of the ocean. Compared with deep (>2000 meter) hydrothermal activity at mid-ocean ridges that provide iron to the ocean's interior, shallow (<500 meter) hydrothermal fluids are likely to influence the surface's ecosystem. However, their effect is unknown. In this work, we show that fluids emitted along the Tonga volcanic arc (South Pacific) have a substantial impact on iron concentrations in the photic layer through vertical diffusion. This enrichment stimulates biological activity, resulting in an extensive patch of chlorophyll (360,000 square kilometers). Diazotroph activity is two to eight times higher and carbon export fluxes are two to three times higher in iron-enriched waters than in adjacent unfertilized waters. Such findings reveal a previously undescribed mechanism of natural iron fertilization in the ocean that fuels regional hotspot sinks for atmospheric CO 2 .

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