4.2 Article

ISOLATION AND CHARACTERIZATION OF MERCURY-RESISTANT BACTERIA FROM SEDIMENTS OF TAGUS ESTUARY ( PORTUGAL): IMPLICATIONS FOR ENVIRONMENTAL AND HUMAN HEALTH RISK ASSESSMENT

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TAYLOR & FRANCIS INC
DOI: 10.1080/15287394.2014.867204

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资金

  1. FCT through the project PROFLUX [PTDC/MAR/102748/2008]
  2. iMed.UL through FCT [PEst-OE/SAU/UI4013/2011]
  3. PROFLUX

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Mercury (Hg) contamination of aquatic systems has been recognized as a global and serious problem affecting both human and environmental health. In the aquatic ecosystems, mercurial compounds are microbiologically transformed with methylation responsible for generation of methylmercury (MeHg) and subsequent biomagnification in food chain, consequently increasing the risk of poisoning for humans and wildlife. High levels of Hg, especially MeHg, are known to exist in Tagus Estuary as a result of past industrial activities. The aim of this study was to isolate and characterize Hg-resistant bacteria from Tagus Estuary. Mercury-resistant (Hg-R) bacteria were isolated from sediments of two hotspots (Barreiro and North Channel) and one reserve area (Alcochete). Mercury contamination in these areas was examined and bacterial susceptibility to Hg compounds evaluated by determination of minimal inhibitory concentrations (MIC). The isolates characterization was based on morphological observation and biochemical testing. Bacteria characteristics, distribution, and Hg resistance levels were compared with metal levels. Barreiro and North Channel were highly contaminated with Hg, containing 126 and 18 g/g total Hg, respectively, and in Alcochete, contamination was lower at 0.87 g/g total Hg. Among the isolates there were aerobic and anaerobic bacteria, namely, sulfate-reducing bacteria, and Hg resistance levels ranged from 0.16 to 140 g/ml for Hg2+ and from 0.02 to 50.1 g/ml for MeHg. The distribution of these bacteria and the resistance levels were consistent with Hg contamination along the depth of the sediments. Overall, results show the importance of the characterization of Tagus Estuary bacteria for ecological and human health risk assessment.

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