textWhen CO₂ is sequestered into deep saline aquifers, significant changes to the biogeochemistry of the system are inevitable and will affect native microbial populations both directly and indirectly. These communities are important as they catalyze many geochemical reactions in these reservoirs. We present evidence that the injection of CO₂ will cause a large scale disturbance to subsurface microbial populations which will ultimately affect the solution and mineral trapping of CO₂ as well as the movement of CO₂ charged water through the subsurface. Representative subsurface microorganisms including a Gram negative bacterium (G⁻), two Gram positive bacteria (G⁺), and an archaeon were tested for CO₂ survival at pressures up to 50 bar and ex...
Microorganisms influence the chemical and physical properties of subsurface environments and thus re...
AbstractStudies of the potential environmental consequences of carbon capture and storage (CCS) have...
Citation: Jin Q and Kirk MF (2016) Thermodynamic and Kinetic Response of Microbial Reactions to High...
textWhen CO₂ is sequestered into deep saline aquifers, significant changes to the biogeochemistry of...
Subsurface microorganisms may respond to increased CO2 levels in ways that significantly affect pore...
© 2015 Dr. Andre MuThe cycling of many elements at or near the Earth’s surface, including nitrogen, ...
Citation: Kirk, MF, Altman, SJ, Santillan, EFU, Bennett, PC (2016) Interplay between microorganisms ...
Geologic carbon storage (GCS) is a crucial part of a proposed mitigation strategy to reduce the anth...
Our primary research paper (Mu et al., 2014) demonstrated selective changes to a deep subsurface pro...
<div><p>In addition to efforts aimed at reducing anthropogenic production of greenhouse gases, geolo...
Studies of the potential environmental consequences of carbon capture and storage (CCS) have, to dat...
In addition to efforts aimed at reducing anthropogenic production of greenhouse gases, geological st...
One of the main challenges of CCS technology is to estimate and control the stability of the storage...
In addition to efforts aimed at reducing anthropogenic production of greenhouse gases, geological st...
In addition to efforts aimed at reducing anthropogenic production of greenhouse gases, geological st...
Microorganisms influence the chemical and physical properties of subsurface environments and thus re...
AbstractStudies of the potential environmental consequences of carbon capture and storage (CCS) have...
Citation: Jin Q and Kirk MF (2016) Thermodynamic and Kinetic Response of Microbial Reactions to High...
textWhen CO₂ is sequestered into deep saline aquifers, significant changes to the biogeochemistry of...
Subsurface microorganisms may respond to increased CO2 levels in ways that significantly affect pore...
© 2015 Dr. Andre MuThe cycling of many elements at or near the Earth’s surface, including nitrogen, ...
Citation: Kirk, MF, Altman, SJ, Santillan, EFU, Bennett, PC (2016) Interplay between microorganisms ...
Geologic carbon storage (GCS) is a crucial part of a proposed mitigation strategy to reduce the anth...
Our primary research paper (Mu et al., 2014) demonstrated selective changes to a deep subsurface pro...
<div><p>In addition to efforts aimed at reducing anthropogenic production of greenhouse gases, geolo...
Studies of the potential environmental consequences of carbon capture and storage (CCS) have, to dat...
In addition to efforts aimed at reducing anthropogenic production of greenhouse gases, geological st...
One of the main challenges of CCS technology is to estimate and control the stability of the storage...
In addition to efforts aimed at reducing anthropogenic production of greenhouse gases, geological st...
In addition to efforts aimed at reducing anthropogenic production of greenhouse gases, geological st...
Microorganisms influence the chemical and physical properties of subsurface environments and thus re...
AbstractStudies of the potential environmental consequences of carbon capture and storage (CCS) have...
Citation: Jin Q and Kirk MF (2016) Thermodynamic and Kinetic Response of Microbial Reactions to High...