Journal
ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY
Volume 124, Issue -, Pages 60-67Publisher
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.ecoenv.2015.10.001
Keywords
Aerobic bacteria; Estuaries; Methylmercury; Mercury; Biogeochemistry; Estuarine chemistry
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Funding
- Portuguese Foundation for Science and Technology, FCT through the Project PROFLUX [PTDC/MAR/102748/2008]
- iMed.ULisboa through FCT's strategic project [PEst-OE/SAU/UI4013/2011, UID/DTP/04138/2013]
- FCT [SFRH/BD/78035/2011]
- NSERC
- CRC
- CFI
- Fundação para a Ciência e a Tecnologia [PTDC/MAR/102748/2008, SFRH/BD/78035/2011] Funding Source: FCT
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Aerobic mercury-resistant bacteria were isolated from the sediments of two highly mercury-polluted areas of the Tagus Estuary (Barreiro and Cala do Norte) and one natural reserve area (Alcochete) in order to test their capacity to transform mercury. Bacterial species were identified using 16S rRNA amplification and sequencing techniques and the results indicate the prevalence of Bacillus sp. Resistance patterns to mercurial compounds were established by the determination of minimal inhibitory concentrations. Representative Hg-resistant bacteria were further tested for transformation pathways (reduction, volatilization and methylation) in cultures containing mercury chloride. Bacterial Hg-methylation was carried out by Vibrio fluvialis, Bacillus megaterium and Serratia marcescens that transformed 2-8% of total mercury into methylmercury in 48 h. In addition, most of the HgR bacterial isolates showed He2+-reduction and He-0-volatilization resulting 6-50% mercury loss from the culture media. In summary, the results obtained under controlled laboratory conditions indicate that aerobic Hg-resistant bacteria from the Tagus Estuary significantly affect both the methylation and reduction of mercury and may have a dual face by providing a pathway for pollution dispersion while forming methylmercury, which is highly toxic for living organisms. (C) 2015 Elsevier Inc. All rights reserved.
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