No Cover Image

Journal article 22 views 2 downloads

From Flames to the Ocean: Biomass Burning Aerosols Are Associated With Changes in Prokaryotic Communities in the Mediterranean Sea

Nathan Nault Orcid Logo, Frédéric Gazeau Orcid Logo, Philippe Catala Orcid Logo, Barbara Marie Orcid Logo, Joan Llort Orcid Logo, Cécile Guieu Orcid Logo, Matthieu Bressac Orcid Logo, Emmanuelle Uher Orcid Logo, Maryline Montanes Orcid Logo, Elvira Pulido‐Villena Orcid Logo, Cristina Santin Nuno, Kahina Djaoudi Orcid Logo, Pierre E. Galand Orcid Logo, Eva Ortega‐Retuerta Orcid Logo

Environmental Microbiology, Volume: 28, Issue: 4, Start page: e70267

Swansea University Author: Cristina Santin Nuno

  • 71697.VoR.pdf

    PDF | Version of Record

    © 2026 The Author(s). This is an open access article under the terms of the Creative Commons Attribution License.

    Download (1.99MB)

Check full text

DOI (Published version): 10.1111/1462-2920.70267

Abstract

The Mediterranean basin faces enhanced wildfire risks associated with human‐driven climate and land use changes. Wildfire‐generated aerosols can reach the ocean, where they may subsequently impact marine prokaryotic communities, key drivers of global biogeochemical cycles. However, our understanding...

Full description

Published in: Environmental Microbiology
ISSN: 1462-2912
Published: John Wiley & Sons, Inc. 2026
Online Access: Check full text

URI: https://cronfa.swan.ac.uk/Record/cronfa71697
Abstract: The Mediterranean basin faces enhanced wildfire risks associated with human‐driven climate and land use changes. Wildfire‐generated aerosols can reach the ocean, where they may subsequently impact marine prokaryotic communities, key drivers of global biogeochemical cycles. However, our understanding of the influence of wildfire airborne particles on the abundance and composition of marine microbes remains limited. We conducted experiments in which surface water from the northwestern Mediterranean Sea was incubated in 300 L minicosms amended with varying amounts of wildfire fine ash particles, previously collected during a Mediterranean wildfire. Wet deposition of wildfire fine ash particles had a short‐term effect on prokaryotes by increasing their abundance and diversity, likely due to the release of both inorganic and organic substrates, alleviating nutrient limitations. Ash deposition could also indirectly affect prokaryotic communities via changes in the composition of phytoplankton populations. These mechanisms induced changes in prokaryotic community composition, reflecting a succession of taxa likely adapted to different substrate qualities. Ash had a negative effect on Cyanobiaceae but promoted the growth of Flavobacteriaceae, Rhodobacteraceae and SAR11 clade I among other taxa. Our findings demonstrate that wildfire ash can alter Mediterranean prokaryotic communities during oligotrophic periods, further exacerbating the impact of wildfires on marine ecosystems.
Keywords: experimental incubations; Mediterranean Sea; prokaryotic abundance; prokaryotic communities; wildfire ash
College: Faculty of Science and Engineering
Funders: Institut national des sciences de l’Univers; European Space Agency; Agence Nationale de la Recherche. Grant Numbers: ANR-10-INBS-0, ANR-21-ESRE-0038; Spanish ‘Ramon y Cajal’ Programme. Grant Number: RYC2018-025797-I
Issue: 4
Start Page: e70267

Similar Items