OrbHab Paper
Observations On Gas Exchange And Element Recycle Within A Gas-Closed Algal-Mouse System (1986)
ID: 48 Flag Paper
Title: Observations On Gas Exchange And Element Recycle Within A Gas-Closed Algal-Mouse System
Authors: Smernoff, D. T., Wharton, R. A., Averner, M. M.
Journal Name: Conference Paper
Year of Publication: 1986
Page Number: 0
Category: biosphere
Availability: pdf
Detail Page: /papers/48
Web Link: https://ntrs.nasa.gov/citations/19860010453
BoK Link: [[paper:48]]
Abstract
Life support systems based on bioregeneration rely on the control and manipulation of organisms. Algae are potentially useful for a variety of Closed Ecological Life Support System (CELSS) functions including the revitalization of atmospheres, production of food and for nitrogen fixation. The results of experiments conducted with a gas-closed algal-mouse system designed to investigate gas exchange phenomena under varying algal environmental conditions, and the ability of algae to utilize oxidized mouse solid waste are reported. Inherent instabilities exist between the uptake and release of carbon dioxide (CO2) and oxygen (O2) by the mouse and algae in a gas-closed system. Variations in light intensity and cell density alter the photosynthetic rate of the algae and enable short-term steady-state concentrations of atmospheric CO2 and O2. Different nitrogen sources (urea and nitrate) result in different algal assimilatory quotients (AQ). Combinations of photosynthetic rate and AQ ratio manipulations were examined for their potential in stabilizing atmospheric gas concentrations in the gas-closed algal-mouse system.
Title: Observations On Gas Exchange And Element Recycle Within A Gas-Closed Algal-Mouse System
Authors: Smernoff, D. T., Wharton, R. A., Averner, M. M.
Journal Name: Conference Paper
Year of Publication: 1986
Page Number: 0
Category: biosphere
Availability: pdf
Detail Page: /papers/48
Web Link: https://ntrs.nasa.gov/citations/19860010453
BoK Link: [[paper:48]]
Abstract
Life support systems based on bioregeneration rely on the control and manipulation of organisms. Algae are potentially useful for a variety of Closed Ecological Life Support System (CELSS) functions including the revitalization of atmospheres, production of food and for nitrogen fixation. The results of experiments conducted with a gas-closed algal-mouse system designed to investigate gas exchange phenomena under varying algal environmental conditions, and the ability of algae to utilize oxidized mouse solid waste are reported. Inherent instabilities exist between the uptake and release of carbon dioxide (CO2) and oxygen (O2) by the mouse and algae in a gas-closed system. Variations in light intensity and cell density alter the photosynthetic rate of the algae and enable short-term steady-state concentrations of atmospheric CO2 and O2. Different nitrogen sources (urea and nitrate) result in different algal assimilatory quotients (AQ). Combinations of photosynthetic rate and AQ ratio manipulations were examined for their potential in stabilizing atmospheric gas concentrations in the gas-closed algal-mouse system.