New technologies will be needed as mankind moves towards exploration of cislunar space, the Moon and Mars. Although many advances in our understanding of the effects of spaceflight on plant growth have been achieved in the last 40 years, spaceflight plant growth systems have been primarily designed to support space biology studies. Recently, the need for a sustainable and robust food system for future missions beyond Low Earth Orbit (LEO) has identified gaps in current technologies for food production. The goal is to develop safe and sustainable food production systems with reduced resupply mass and crew time compared to current systems
Successful human space exploration requires more products than can be taken as payload. There is a n...
As long-term spaceflight missions become ever more imminent, astronaut nutrition and diet require fu...
The possibility of prolonging space missions—and consequently the permanence of humans in space—depe...
NASA has identified the need for robust and sustainable Pick-and-Eat systems for supplementing crew ...
Bioregenerative life-support systems for space have been investigated for 60 years, and plants and o...
Space exploration will require life support systems, in which plants can provide nutrients, oxygen, ...
Growing plants to provide food or psychological benefits to crewmembers is a common vision for the f...
The sustainability of long duration manned missions in space relies on plant-based Bioregenerative L...
Plant growth research for food production at Kennedy Space Center looks at how future residents of M...
Humanity is currently on the precipice of a new era: one where human civilization is no longer bound...
Long duration space exploration will require the capability for crews to grow their own food. Growin...
Space travel to Mars, even for early fly-by missions, will require meeting all the life support need...
Long term human missions to the Moon and Mars, rely on life support systems for food production and ...
Human space exploration cannot occur without reliable provision of nutritious and palatable food to ...
Human space exploration cannot occur without reliable provision of nutritious and palatable food to ...
Successful human space exploration requires more products than can be taken as payload. There is a n...
As long-term spaceflight missions become ever more imminent, astronaut nutrition and diet require fu...
The possibility of prolonging space missions—and consequently the permanence of humans in space—depe...
NASA has identified the need for robust and sustainable Pick-and-Eat systems for supplementing crew ...
Bioregenerative life-support systems for space have been investigated for 60 years, and plants and o...
Space exploration will require life support systems, in which plants can provide nutrients, oxygen, ...
Growing plants to provide food or psychological benefits to crewmembers is a common vision for the f...
The sustainability of long duration manned missions in space relies on plant-based Bioregenerative L...
Plant growth research for food production at Kennedy Space Center looks at how future residents of M...
Humanity is currently on the precipice of a new era: one where human civilization is no longer bound...
Long duration space exploration will require the capability for crews to grow their own food. Growin...
Space travel to Mars, even for early fly-by missions, will require meeting all the life support need...
Long term human missions to the Moon and Mars, rely on life support systems for food production and ...
Human space exploration cannot occur without reliable provision of nutritious and palatable food to ...
Human space exploration cannot occur without reliable provision of nutritious and palatable food to ...
Successful human space exploration requires more products than can be taken as payload. There is a n...
As long-term spaceflight missions become ever more imminent, astronaut nutrition and diet require fu...
The possibility of prolonging space missions—and consequently the permanence of humans in space—depe...