Add to ORKGSix mercury-resistant environmental proteobacterial isolates and one genetically modified mercury-resistant Pseudomonas putida strain were analyzed for physiological traits of adaptive relevance in an environment of packed-bed bioreactors designed for the decontamination of mercury-polluted chlor-alkali wastewater. The strains displayed characteristic differences in each trait (i.e., biofilm formation capability, growth rate in mercury contaminated wastewaters, and mercury reduction efficiency). Subsequently, they were immobilized either as a monoculture or as a mixed culture on porous carrier material in packed-bed bioreactors through which different batches of filter-sterilized industrial chlor-alkali wastewater were pumped. In monospecie...
The Pseudomonas putida strain SP1 was isolated from marine environment and was found to be resist &c...
Abstract Background Bacterial mercury resistance is based on enzymatic reduction of ionic mercury to...
AbstractMercury, which is ubiquitous and recalcitrant to biodegradation processes, threatens human h...
Mercury-contaminated chemical wastewater of a mercury cell chloralkali plant was cleaned on site by ...
The composition of mercury-reducing communities in two bioreactors retaining Hg(II) from chloralkali...
Mercury-reducing biofilms from packed-bed bioreactors treating nonsterile industrial effluents were ...
Bacteria are able to adapt to heavy metals in contaminated environments, by developing specific mech...
This study was aimed to isolate Hg-resistant bacteria from contaminated sediments of the Orbetello L...
Abstract: The long-term performance of bioreactors re-taining mercury from contaminated industrial w...
New bacterial strains resistant to high concentration of mercury were obtained and character iz ed f...
To successfully clean and recycle heavy metal-contaminated wastewater, we developed a fast, simple, ...
The conditions promoting the persistence of a plasmid carrying a trait that may be mutually benefici...
The conditions promoting the persistence of a plasmid carrying a trait that may be mutually benefici...
Mercury is one of the most poisonous elements found on earth bonded to sulfhydryl groups of enzymes ...
Abstract Mercury, which is ubiquitous and recalcitrant to biodegradation processes, threatens human ...
The Pseudomonas putida strain SP1 was isolated from marine environment and was found to be resist &c...
Abstract Background Bacterial mercury resistance is based on enzymatic reduction of ionic mercury to...
AbstractMercury, which is ubiquitous and recalcitrant to biodegradation processes, threatens human h...
Mercury-contaminated chemical wastewater of a mercury cell chloralkali plant was cleaned on site by ...
The composition of mercury-reducing communities in two bioreactors retaining Hg(II) from chloralkali...
Mercury-reducing biofilms from packed-bed bioreactors treating nonsterile industrial effluents were ...
Bacteria are able to adapt to heavy metals in contaminated environments, by developing specific mech...
This study was aimed to isolate Hg-resistant bacteria from contaminated sediments of the Orbetello L...
Abstract: The long-term performance of bioreactors re-taining mercury from contaminated industrial w...
New bacterial strains resistant to high concentration of mercury were obtained and character iz ed f...
To successfully clean and recycle heavy metal-contaminated wastewater, we developed a fast, simple, ...
The conditions promoting the persistence of a plasmid carrying a trait that may be mutually benefici...
The conditions promoting the persistence of a plasmid carrying a trait that may be mutually benefici...
Mercury is one of the most poisonous elements found on earth bonded to sulfhydryl groups of enzymes ...
Abstract Mercury, which is ubiquitous and recalcitrant to biodegradation processes, threatens human ...
The Pseudomonas putida strain SP1 was isolated from marine environment and was found to be resist &c...
Abstract Background Bacterial mercury resistance is based on enzymatic reduction of ionic mercury to...
AbstractMercury, which is ubiquitous and recalcitrant to biodegradation processes, threatens human h...