Add to ORKGThere has been a dramatic increase in the understanding of the biological mechanisms underpinning metal transformations in the environment. The techniques used to gain a better understanding of these microbial processes will be discussed, along with an overview of assimilatory, dissimilatory and detoxification transformations of a range of metals and radionuclides
The dissimilatory Fe(III)-reducing bacterium Geobacter sulfurreducens reduced and precipitated Tc(VI...
The overall goal of the proposed research is to provide an improved understanding and predictive cap...
In situ stabilization (inclusive of natural attenuation) of toxic metals and radionuclides is an att...
The microbial reduction of radionuclides has attracted recent interest as these transformations can ...
The microbial reduction of radionuclides has attracted recent interest as these transformations can ...
Microorganisms have important roles in the biogeochemical cycling of toxic metals and radionuclides....
The diversity of microorganisms is still far from understood, although many examples of the microbia...
Microbiological reduction and immobilization of U(VI) and Tc(VII) has been proposed as a strategy fo...
This chapter reviews certain microbiological processes that are of significance in determining radio...
This project will probe fundamental scientific issues regarding a microbial process with potential f...
Biogeochemical activity is an ongoing and dynamic process due to bacterial activity in the subsurfac...
Metal and mineral transformations are a cornerstone of geomicrobiological processes. Of central impo...
Microbial transformations and interactions with metals are reviewed in relation to the biogeochemica...
In situ stabilization (inclusive of natural attenuation) of toxic metals and radionuclides is an att...
The dissimilatory Fe(III)-reducing bacterium Geobacter sulfurreducens reduced and precipitated Tc(VI...
The overall goal of the proposed research is to provide an improved understanding and predictive cap...
In situ stabilization (inclusive of natural attenuation) of toxic metals and radionuclides is an att...
The microbial reduction of radionuclides has attracted recent interest as these transformations can ...
The microbial reduction of radionuclides has attracted recent interest as these transformations can ...
Microorganisms have important roles in the biogeochemical cycling of toxic metals and radionuclides....
The diversity of microorganisms is still far from understood, although many examples of the microbia...
Microbiological reduction and immobilization of U(VI) and Tc(VII) has been proposed as a strategy fo...
This chapter reviews certain microbiological processes that are of significance in determining radio...
This project will probe fundamental scientific issues regarding a microbial process with potential f...
Biogeochemical activity is an ongoing and dynamic process due to bacterial activity in the subsurfac...
Metal and mineral transformations are a cornerstone of geomicrobiological processes. Of central impo...
Microbial transformations and interactions with metals are reviewed in relation to the biogeochemica...
In situ stabilization (inclusive of natural attenuation) of toxic metals and radionuclides is an att...
The dissimilatory Fe(III)-reducing bacterium Geobacter sulfurreducens reduced and precipitated Tc(VI...
The overall goal of the proposed research is to provide an improved understanding and predictive cap...
In situ stabilization (inclusive of natural attenuation) of toxic metals and radionuclides is an att...