https://www.airspacemag.com/daily-planet...180973468/
EXCERPT: . . . A sustainable, self-sufficient population of one million people can be achieved on Mars within 100 years, according to a new modeling study published by Kevin Cannon and Daniel Britt, both at the University of Central Florida. Their study drew on a plan sketched out by Elon Musk of SpaceX, which begins with about 12 people landing on Mars, followed by multiple ships carrying 100 to 200 passengers at every launch opportunity, roughly every 26 months. The population growth is envisioned to be sustained both by immigration and by births on Mars.
Based on Cannon’s and Britt’s analysis, four of the five major “consumables” necessary for a Martian settlement—energy, water, oxygen, and construction material—can be extracted from the Martian surface in economically practical concentrations. [...] how to solve the food problem? ... Plants have often been suggested in the past, but it would be critical to plant high-calorie crops in order to feed so many people. Insect farming would also be well suited, because it can provide large amounts of calories per unit of land. House crickets are especially suitable for this purpose, and are already used in some granola bars today. Protein-rich foods also could be obtained from cells grown in bioreactors...
[...] But living on Mars might not be as easy as it seems, even with further progress in technology. Growing plants in Martian soil may be quite a challenge, with perchlorates and other chemicals abundant in sediments found on the Red Planet. In fact, in another study involving the same authors, plants quickly died and earthworms suffocated in a simulated soil similar to the one found on Mars... (MORE - details)
EXCERPT: . . . A sustainable, self-sufficient population of one million people can be achieved on Mars within 100 years, according to a new modeling study published by Kevin Cannon and Daniel Britt, both at the University of Central Florida. Their study drew on a plan sketched out by Elon Musk of SpaceX, which begins with about 12 people landing on Mars, followed by multiple ships carrying 100 to 200 passengers at every launch opportunity, roughly every 26 months. The population growth is envisioned to be sustained both by immigration and by births on Mars.
Based on Cannon’s and Britt’s analysis, four of the five major “consumables” necessary for a Martian settlement—energy, water, oxygen, and construction material—can be extracted from the Martian surface in economically practical concentrations. [...] how to solve the food problem? ... Plants have often been suggested in the past, but it would be critical to plant high-calorie crops in order to feed so many people. Insect farming would also be well suited, because it can provide large amounts of calories per unit of land. House crickets are especially suitable for this purpose, and are already used in some granola bars today. Protein-rich foods also could be obtained from cells grown in bioreactors...
[...] But living on Mars might not be as easy as it seems, even with further progress in technology. Growing plants in Martian soil may be quite a challenge, with perchlorates and other chemicals abundant in sediments found on the Red Planet. In fact, in another study involving the same authors, plants quickly died and earthworms suffocated in a simulated soil similar to the one found on Mars... (MORE - details)