Add to ORKGCurrent U.S. planetary quarantine standards based on international agreements require consideration of the probability of contamination (Pc) of the outer planets, Venus, Jupiter, Saturn, etc. One of the key parameters in estimation of the Pc of these planets is the probability of growth (Pg) of terrestrial microorganisms on or near these planets. For example, Jupiter and Saturn appear to have an atmosphere in which some microbial species could metabolize and propagate. This study includes investigation of the likelihood of metabolism and propagation of microbes suspended in dynamic atmospheres. It is directed toward providing experimental information needed to aid in rational estimation of Pg for these outer plants
The results of studies to determine the effect of soil particle size on the survival time at 125 C o...
Understanding the extent to which non-fastidious pathogenic bacteria can survive in extraterrestrial...
Efforts to show growth activity of anaerobic bacteria in aerosolized particles suspended in anaerobi...
One of the key parameters in estimation of the probability of contamintion of the outer planets (Jup...
Maintained aerosols were studied to demonstrate the metabolism and propagation of microbes in clouds...
Aerosols of the bacterium Serratia marcescens, and of uniformly labelled C-14 glucose, were created ...
Space agencies, such as NASA, abide by Planetary Protection policies dedicated to preserving the sci...
Methodology is proposed to assess the probability that the planet Mars will be contaminated by terre...
Recent progress on the development of a basic warning system (BWS) proposed to assess the biohazard ...
Contamination from a human presence on Mars could significantly compromise the search for extraterre...
New methodology is proposed to assess the probability that the planet Mars will by biologically cont...
Microbiological analyses of soil particles allow for the following conclusions: (1) there is a cons...
Understanding the extent to which non-fastidious pathogenic bacteria can survive in extraterrestrial...
Environmental parameters affecting growth of bacteria are compared with current atmospheric models f...
With the upcoming events of returning humans to the Moon and then to Mars, the study and application...
The results of studies to determine the effect of soil particle size on the survival time at 125 C o...
Understanding the extent to which non-fastidious pathogenic bacteria can survive in extraterrestrial...
Efforts to show growth activity of anaerobic bacteria in aerosolized particles suspended in anaerobi...
One of the key parameters in estimation of the probability of contamintion of the outer planets (Jup...
Maintained aerosols were studied to demonstrate the metabolism and propagation of microbes in clouds...
Aerosols of the bacterium Serratia marcescens, and of uniformly labelled C-14 glucose, were created ...
Space agencies, such as NASA, abide by Planetary Protection policies dedicated to preserving the sci...
Methodology is proposed to assess the probability that the planet Mars will be contaminated by terre...
Recent progress on the development of a basic warning system (BWS) proposed to assess the biohazard ...
Contamination from a human presence on Mars could significantly compromise the search for extraterre...
New methodology is proposed to assess the probability that the planet Mars will by biologically cont...
Microbiological analyses of soil particles allow for the following conclusions: (1) there is a cons...
Understanding the extent to which non-fastidious pathogenic bacteria can survive in extraterrestrial...
Environmental parameters affecting growth of bacteria are compared with current atmospheric models f...
With the upcoming events of returning humans to the Moon and then to Mars, the study and application...
The results of studies to determine the effect of soil particle size on the survival time at 125 C o...
Understanding the extent to which non-fastidious pathogenic bacteria can survive in extraterrestrial...
Efforts to show growth activity of anaerobic bacteria in aerosolized particles suspended in anaerobi...