%0 Journal Article
%9 ACL : Articles dans des revues avec comité de lecture répertoriées par l'AERES
%A Raherimino, R.
%A Crucitti, T.
%A Troussellier, M.
%A d'Orbcastel, E. R.
%A Auguet, J. C.
%A Rasoamananto, I.
%A Paul-Pont, I.
%A Jourand, Philippe
%A Lenoble, V.
%A Rabenandrasana, N. M. A.
%A Bouvier, T.
%T Culturable macroplastic-associated potential human pathogens in coral reef lagoons, Madagascar
%D 2026
%L fdi:010095402
%G ENG
%J Marine Pollution Bulletin
%@ 0025-326X
%K Bacteria ; Pathogens ; Culture ; Macroplastic ; Coral-reef lagoon ; Madagascar
%K MADAGASCAR ; TOLIARA
%M ISI:001561344600002
%N 1
%P 118547 [11 ]
%R 10.1016/j.marpolbul.2025.118547
%U https://www.documentation.ird.fr/hor/fdi:010095402
%> https://www.documentation.ird.fr/intranet/publi/2025-11/010095402.pdf
%V 222
%W Horizon (IRD)
%X Potentially human pathogenic bacteria (PHPBs) have been detected in plastic-associated marine microbiomes, primarily through DNA-based methods. However, data on their culturability and concentrations on plastics remain limited, yet are essential to assess actual health risks. To address this gap, 70 floating macroplastic and 20 seawater samples were collected from two human-impacted reef lagoons in southwestern Madagascar (AtsimoAndrefana region). PHPBs were cultured from their microbiomes using selective media and quantified. Macroplastics were predominantly polypropylene (34 %) and polyamide (31 %). In increasing order of concentration, four culturable PHPBs, Staphylococcus aureus, Escherichia coli, Enterococcus faecalis, and Vibrio Harveyi clade species, were identified on both macroplastics and in seawater, across all sites and polymer types. Notably, 52 % of macroplastic samples harbored two PHPB species simultaneously, while only 7 % were PHPB-free. Concentrations of all PHPBs were consistently and significantly higher on macroplastics than in seawater, regardless of the measurement unit or polymer type, with the Vibrio Harveyi clade being the most abundant. No significant correlations were observed among PHPB species concentrations, suggesting limited interaction and independent colonization. These findings indicate that floating macroplastics may serve as reservoirs and fomites for viable PHPBs. However, their potential impacts on ecosystems and human health should be interpreted cautiously. We emphasize the need to contextualize PHPB concentration data by considering factors such as exposure pathways, environmental persistence, and bacterial virulence, rather than relying solely on concentration-based comparisons, which may lead to misinterpretation.
%$ 038 ; 034 ; 084