Analysis of the Genetic Potential and Gene Expression of Microbial Communities Involved in the In Situ Bioremediation of Uranium and Harvesting Electrical Energy from Organic Matter The primary goal of this research is to develop conceptual and computational models that can describe the functioning of complex microbial communities involved in microbial processes of interest to the Department of Energy. Microbial Communities to be Investigated: (1) Microbial community associated with the in situ bioremediation of uranium-contaminated groundwater; and (2) Microbial community that is capable of harvesting energy from waste organic matter in the form of electricity
Nutrient limitation is an environmental stress that may reduce the effectiveness of bioremediation s...
The increasing availability of the genome sequences of microorganisms involved in important bioremed...
Prod 2019-288a EA SPE BIOmE INRAInternational audienceBackground: Bacteria can thrive in environment...
The goal of this genomes-to-life project is to develop models that can describe the functioning of t...
Bioremediation may offer the only feasible strategy for the nearly intractable problem of metal and ...
To better understand the microbial functional diversity changes with subsurface redox conditions dur...
To learn more about the physiological state of Geobacter species living in subsurface sediments, hea...
Enhancing microbial U(VI) reduction with the addition of organic electron donors is a promising stra...
In recent years, uranium pollution in the environment has been recognized as a serious threat, and n...
Dissimilatory Fe(III) reduction is one of the most significant metabolisms in sedimentary environmen...
Molecular tools that can provide an estimate of the in situ growth rate of Geobacter species could i...
As part of an effort to diagnose the physiological status of Geobacter species during in situ biorem...
A pilot-scale system was established to examine the feasibility of in situ bioremediation and immobi...
A field-scale system is being used for evaluating in situ biological reduction and immobilization of...
Nutrient limitation is an environmental stress that may reduce the effectiveness of bioremediation s...
Nutrient limitation is an environmental stress that may reduce the effectiveness of bioremediation s...
The increasing availability of the genome sequences of microorganisms involved in important bioremed...
Prod 2019-288a EA SPE BIOmE INRAInternational audienceBackground: Bacteria can thrive in environment...
The goal of this genomes-to-life project is to develop models that can describe the functioning of t...
Bioremediation may offer the only feasible strategy for the nearly intractable problem of metal and ...
To better understand the microbial functional diversity changes with subsurface redox conditions dur...
To learn more about the physiological state of Geobacter species living in subsurface sediments, hea...
Enhancing microbial U(VI) reduction with the addition of organic electron donors is a promising stra...
In recent years, uranium pollution in the environment has been recognized as a serious threat, and n...
Dissimilatory Fe(III) reduction is one of the most significant metabolisms in sedimentary environmen...
Molecular tools that can provide an estimate of the in situ growth rate of Geobacter species could i...
As part of an effort to diagnose the physiological status of Geobacter species during in situ biorem...
A pilot-scale system was established to examine the feasibility of in situ bioremediation and immobi...
A field-scale system is being used for evaluating in situ biological reduction and immobilization of...
Nutrient limitation is an environmental stress that may reduce the effectiveness of bioremediation s...
Nutrient limitation is an environmental stress that may reduce the effectiveness of bioremediation s...
The increasing availability of the genome sequences of microorganisms involved in important bioremed...
Prod 2019-288a EA SPE BIOmE INRAInternational audienceBackground: Bacteria can thrive in environment...