Add to ORKGThe abundance of arsenic-tolerant diazotrophic bacteria was compared in a long-term contaminated soil versus a non-contaminated one. In addition, the characterization of tolerant diazotrophic bacteria was carried out. Differences in the number of heterotrophic N2 fixers were found between soils. Contaminated soil showed a decrease in the microbial population size of about 80%, confirming the great sensitivity of this group of soil bacteria to metals. However, quantitative analysis of the response to increased doses of arsenic reveals that the proportion of the culturable diazotrophic community tolerant to arsenic was identical for both soils (contaminated and non-contaminated). Twentytwo arsenic-tolerant diazotrophic isolates w...
This study attempted to investigate if the tolerance of soil bacterial communities in general, and a...
Industrialization has added extremely toxic metalloid arsenic into the environment which at high con...
Human exposure to arsenic typically occurs through drinking water and the World Health Organization ...
The abundance of arsenic-tolerant diazotrophic bacteria was compared in a long-term contaminated s...
La mesure des effets des éléments en traces métalliques (ETM) sur les microorganismes, acteurs majeu...
Naturally found in soil and water environments arsenic is toxic to many organisms, carcinogenic to h...
Arsenic is a toxic metalloid of the nitrogen family which is found in both natural environments and ...
Community structure of bacteria present in arsenic contaminated agricultural soil was studied with q...
International audienceThis study aimed at evaluating potential arsenic (As) mobility in an industria...
The biogeochemical cycle of arsenic (As) is very complex. The current practice of measuring total ar...
BACKGROUND:Arsenic is known as a toxic metalloid, which primarily exists in inorganic form As(III) a...
Conceived and designed the experiments: GW. Performed the experiments: JX GL. Analyzed the data: JX ...
Aims: To analyse the arsenic-resistant bacterial communities of two agricultural soils of Banglade...
This study aimed at evaluating potential arsenic (As) mobility in an industrially contaminated soil ...
The presence of heavy metals in soils can lead to changes in microbial community structure, characte...
This study attempted to investigate if the tolerance of soil bacterial communities in general, and a...
Industrialization has added extremely toxic metalloid arsenic into the environment which at high con...
Human exposure to arsenic typically occurs through drinking water and the World Health Organization ...
The abundance of arsenic-tolerant diazotrophic bacteria was compared in a long-term contaminated s...
La mesure des effets des éléments en traces métalliques (ETM) sur les microorganismes, acteurs majeu...
Naturally found in soil and water environments arsenic is toxic to many organisms, carcinogenic to h...
Arsenic is a toxic metalloid of the nitrogen family which is found in both natural environments and ...
Community structure of bacteria present in arsenic contaminated agricultural soil was studied with q...
International audienceThis study aimed at evaluating potential arsenic (As) mobility in an industria...
The biogeochemical cycle of arsenic (As) is very complex. The current practice of measuring total ar...
BACKGROUND:Arsenic is known as a toxic metalloid, which primarily exists in inorganic form As(III) a...
Conceived and designed the experiments: GW. Performed the experiments: JX GL. Analyzed the data: JX ...
Aims: To analyse the arsenic-resistant bacterial communities of two agricultural soils of Banglade...
This study aimed at evaluating potential arsenic (As) mobility in an industrially contaminated soil ...
The presence of heavy metals in soils can lead to changes in microbial community structure, characte...
This study attempted to investigate if the tolerance of soil bacterial communities in general, and a...
Industrialization has added extremely toxic metalloid arsenic into the environment which at high con...
Human exposure to arsenic typically occurs through drinking water and the World Health Organization ...