Fronts divide diazotroph communities in the Southern Indian Ocean

Subhadeep Chowdhury; Hugo Berthelot; Corentin Baudet; David González-Santana; Christian Furbo Reeder; Stéphane L’Helguen; Jean François Maguer; Carolin R. Löscher; Arvind Singh; Stéphane Blain; Nicolas Cassar; Sophie Bonnet; Hélène Planquette; Mar Benavides

doi:10.1093/femsec/fiae095

Fronts divide diazotroph communities in the Southern Indian Ocean

Subhadeep Chowdhury, Hugo Berthelot, Corentin Baudet, David González-Santana, Christian Furbo Reeder, Stéphane L’Helguen, Jean François Maguer, Carolin R. Löscher, Arvind Singh, Stéphane Blain, Nicolas Cassar, Sophie Bonnet, Hélène Planquette, Mar Benavides^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

Dinitrogen (N₂) fixation represents a key source of reactive nitrogen in marine ecosystems. While the process has been rather well-explored in low latitudes of the Atlantic and Pacific Oceans, other higher latitude regions and particularly the Indian Ocean have been chronically overlooked. Here, we characterize N₂ fixation and diazotroph community composition across nutrient and trace metals gradients spanning the multifrontal system separating the oligotrophic waters of the Indian Ocean subtropical gyre from the high nutrient low chlorophyll waters of the Southern Ocean. We found a sharp contrasting distribution of diazotroph groups across the frontal system. Notably, cyanobacterial diazotrophs dominated north of fronts, driving high N₂ fixation rates (up to 13.96 nmol N l⁻¹ d⁻¹) with notable peaks near the South African coast. South of the fronts non-cyanobacterial diazotrophs prevailed without significant N₂ fixation activity being detected. Our results provide new crucial insights into high latitude diazotrophy in the Indian Ocean, which should contribute to improved climate model parameterization and enhanced constraints on global net primary productivity projections.

Original language	English
Article number	fiae095
Journal	FEMS Microbiology Ecology
Volume	100
Issue number	8
Number of pages	13
ISSN	0168-6496
DOIs	https://doi.org/10.1093/femsec/fiae095
Publication status	Published - 1. Aug 2024

Keywords

fronts
HNLC
N fixation
noncyanobacterial diazotrophs
subtropical gyre
trace metals

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10.1093/femsec/fiae095Licence: CC BY

Open Access VersionFinal published version, 1.53 MBLicence: CC BY

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Chowdhury, S., Berthelot, H., Baudet, C., González-Santana, D., Reeder, C. F., L’Helguen, S., Maguer, J. F., Löscher, C. R., Singh, A., Blain, S., Cassar, N., Bonnet, S., Planquette, H., & Benavides, M. (2024). Fronts divide diazotroph communities in the Southern Indian Ocean. FEMS Microbiology Ecology, 100(8), Article fiae095. https://doi.org/10.1093/femsec/fiae095

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title = "Fronts divide diazotroph communities in the Southern Indian Ocean",

abstract = "Dinitrogen (N2) fixation represents a key source of reactive nitrogen in marine ecosystems. While the process has been rather well-explored in low latitudes of the Atlantic and Pacific Oceans, other higher latitude regions and particularly the Indian Ocean have been chronically overlooked. Here, we characterize N2 fixation and diazotroph community composition across nutrient and trace metals gradients spanning the multifrontal system separating the oligotrophic waters of the Indian Ocean subtropical gyre from the high nutrient low chlorophyll waters of the Southern Ocean. We found a sharp contrasting distribution of diazotroph groups across the frontal system. Notably, cyanobacterial diazotrophs dominated north of fronts, driving high N2 fixation rates (up to 13.96 nmol N l−1 d−1) with notable peaks near the South African coast. South of the fronts non-cyanobacterial diazotrophs prevailed without significant N2 fixation activity being detected. Our results provide new crucial insights into high latitude diazotrophy in the Indian Ocean, which should contribute to improved climate model parameterization and enhanced constraints on global net primary productivity projections.",

keywords = "fronts, HNLC, N fixation, noncyanobacterial diazotrophs, subtropical gyre, trace metals",

author = "Subhadeep Chowdhury and Hugo Berthelot and Corentin Baudet and David Gonz{\'a}lez-Santana and Reeder, \{Christian Furbo\} and St{\'e}phane L{\textquoteright}Helguen and Maguer, \{Jean Fran{\c c}ois\} and L{\"o}scher, \{Carolin R.\} and Arvind Singh and St{\'e}phane Blain and Nicolas Cassar and Sophie Bonnet and H{\'e}l{\`e}ne Planquette and Mar Benavides",

year = "2024",

month = aug,

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doi = "10.1093/femsec/fiae095",

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journal = "FEMS Microbiology Ecology",

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TY - JOUR

T1 - Fronts divide diazotroph communities in the Southern Indian Ocean

AU - Chowdhury, Subhadeep

AU - Berthelot, Hugo

AU - Baudet, Corentin

AU - González-Santana, David

AU - Reeder, Christian Furbo

AU - L’Helguen, Stéphane

AU - Maguer, Jean François

AU - Löscher, Carolin R.

AU - Singh, Arvind

AU - Blain, Stéphane

AU - Cassar, Nicolas

AU - Bonnet, Sophie

AU - Planquette, Hélène

AU - Benavides, Mar

PY - 2024/8/1

Y1 - 2024/8/1

N2 - Dinitrogen (N2) fixation represents a key source of reactive nitrogen in marine ecosystems. While the process has been rather well-explored in low latitudes of the Atlantic and Pacific Oceans, other higher latitude regions and particularly the Indian Ocean have been chronically overlooked. Here, we characterize N2 fixation and diazotroph community composition across nutrient and trace metals gradients spanning the multifrontal system separating the oligotrophic waters of the Indian Ocean subtropical gyre from the high nutrient low chlorophyll waters of the Southern Ocean. We found a sharp contrasting distribution of diazotroph groups across the frontal system. Notably, cyanobacterial diazotrophs dominated north of fronts, driving high N2 fixation rates (up to 13.96 nmol N l−1 d−1) with notable peaks near the South African coast. South of the fronts non-cyanobacterial diazotrophs prevailed without significant N2 fixation activity being detected. Our results provide new crucial insights into high latitude diazotrophy in the Indian Ocean, which should contribute to improved climate model parameterization and enhanced constraints on global net primary productivity projections.

AB - Dinitrogen (N2) fixation represents a key source of reactive nitrogen in marine ecosystems. While the process has been rather well-explored in low latitudes of the Atlantic and Pacific Oceans, other higher latitude regions and particularly the Indian Ocean have been chronically overlooked. Here, we characterize N2 fixation and diazotroph community composition across nutrient and trace metals gradients spanning the multifrontal system separating the oligotrophic waters of the Indian Ocean subtropical gyre from the high nutrient low chlorophyll waters of the Southern Ocean. We found a sharp contrasting distribution of diazotroph groups across the frontal system. Notably, cyanobacterial diazotrophs dominated north of fronts, driving high N2 fixation rates (up to 13.96 nmol N l−1 d−1) with notable peaks near the South African coast. South of the fronts non-cyanobacterial diazotrophs prevailed without significant N2 fixation activity being detected. Our results provide new crucial insights into high latitude diazotrophy in the Indian Ocean, which should contribute to improved climate model parameterization and enhanced constraints on global net primary productivity projections.

KW - fronts

KW - HNLC

KW - N fixation

KW - noncyanobacterial diazotrophs

KW - subtropical gyre

KW - trace metals

U2 - 10.1093/femsec/fiae095

DO - 10.1093/femsec/fiae095

M3 - Journal article

C2 - 38992179

AN - SCOPUS:85198830938

SN - 0168-6496

VL - 100

JO - FEMS Microbiology Ecology

JF - FEMS Microbiology Ecology

IS - 8

M1 - fiae095

ER -

Fronts divide diazotroph communities in the Southern Indian Ocean

Abstract

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