> If aerobic organisms or mechanisms are
required (grown in space and then desiccated by exposure to vacuum when growth is complete), the methods and support equipment required to preserve key aerobic variables (e.g., atmosphere, pressure, temperature) must be part of the biomechanical assembly system design. Anaerobic organisms or mechanisms may allow for less support hardware but may require other controls to support continued growth in the space environment (e.g. pressure, temperature, humidity)
> If aerobic organisms or mechanisms are required (grown in space and then desiccated by exposure to vacuum when growth is complete), the methods and support equipment required to preserve key aerobic variables (e.g., atmosphere, pressure, temperature) must be part of the biomechanical assembly system design. Anaerobic organisms or mechanisms may allow for less support hardware but may require other controls to support continued growth in the space environment (e.g. pressure, temperature, humidity)