Peura, Sari
- Institutionen för skoglig mykologi och växtpatologi, Sveriges lantbruksuniversitet
- Uppsala universitet
Forskningsartikel2018Vetenskapligt granskadÖppen tillgång
Bravo, Andrea G.; Peura, Sari; Buck, Moritz; Ahmed, Omneya; Mateos-Rivera, Alejandro; Ortega, Sonia Herrero; Schaefer, Jeffra K.; Bouchet, Sylvain; Tolu, Julie; Bjorn, Erik; Bertilsson, Stefan
Methylmercury is a potent human neurotoxin which biomagnifies in aquatic food webs. Although anaerobic microorganisms containing the hgcA gene potentially mediate the formation of methylmercury in natural environments, the diversity of these mercury-methylating microbial communities remains largely unexplored. Previous studies have implicated sulfate-reducing bacteria as the main mercury methylators in aquatic ecosystems. In the present study, we characterized the diversity of mercury-methylating microbial communities of boreal lake sediments using high-throughput sequencing of 16S rRNA and hgcA genes. Our results show that in the lake sediments, Methanomicrobiales and Geobacteraceae also represent abundant members of the mercury-methylating communities. In fact, incubation experiments with a mercury isotopic tracer and molybdate revealed that only between 38% and 45% of mercury methylation was attributed to sulfate reduction. These results suggest that methanogens and iron-reducing bacteria may contribute to more than half of the mercury methylation in boreal lakes.IMPORTANCE Despite the global awareness that mercury, and methylmercury in particular, is a neurotoxin to which millions of people continue to be exposed, there are sizable gaps in the understanding of the processes and organisms involved in methylmercury formation in aquatic ecosystems. In the present study, we shed light on the diversity of the microorganisms responsible for methylmercury formation in boreal lake sediments. All the microorganisms identified are associated with the processing of organic matter in aquatic systems. Moreover, our results show that the well-known mercury-methylating sulfate-reducing bacteria constituted only a minor portion of the potential mercury methylators. In contrast, methanogens and iron-reducing bacteria were important contributors to methylmercury formation, highlighting their role in mercury cycling in the environment.
mercury; methylation; hgcA gene; 16S rRNA gene; boreal lakes; methanogens; iron-reducing bacteria; sulfate-reducing bacteria
Applied and Environmental Microbiology
2018, Volym: 84, nummer: 23, artikelnummer: UNSP e01774-18Utgivare: AMER SOC MICROBIOLOGY
Mikrobiologi
DOI: https://doi.org/10.1128/AEM.01774-18
https://res.slu.se/id/publ/97281