Genesis 1:11™ - The Martian Rocket Capsule
What is Terraformation?
Terraformation or “Earth-shaping” signifies the process to deliberately modify the atmosphere, temperature, surface topography, or ecology of a planet to become like the environment of Earth. Its goal is to create acceptable living conditions and living space for humans and terrestrial organisms on remote planets and/or moons.
PROBLEMS WITH FARMING on mars
What is our mission reason?
Our Solution: Genesis 1:11™
Genesis1:11™ Rocket Capsule is a high-technology penetrator designed for plantations in distant places, which also makes possible forestation.
Our technology and know-how include but are not limited to semi-capsuled ecosystems, various physical and precision software tools that inject Earthly soil microorganisms and grow plant roots into extraterrestrial soils, contributing to the sustainable future for humankind in remote places.
Our terraforming strategy offers a means to the atmosphere thickening of Mars, allowing CO2 that fills the Red Planet’s soil pores to move from the bottom upward, triggered by ongoing microbial activity and root respiration.
The Martian Rocket Capsule
Genesis 1:11™ Investments
Would you like to support terraformation?
We have designed the Genesis 1:11™ plant transporting Rocket Capsules, Rooting pots, and other precision toolkits to support Mars terraformation.
These indicators are needed for us to finalize the integrated mini-laboratory of the Rocket Capsule. We have found statistical correlation between nutrient (nitrogen) deficiency symptoms of plants and changes in 8-aminopyrene-1,3,6-trisulfonic acid (APTS)-labeled complex type free oligosaccharides. We are predicting deficiency symptoms by multispectral images and Kjeldahl digestion, APTS-labeled complex type free oligosaccharides are identified by their glucose unit (GU) values, using microchip electrophoresis and capillary electrophoresis with laser induced fluorescence detection (CE-LIF).
Our main research line is separation of organic molecules in extraterrestrial soils and in earthly crops with the purpose of developing terraforming strategies and sustainable space technologies. We select, test, and train plants and other lower eukaryotes for space missions. In addition, we develop hardware and software solutions for solving analytical challenges in space discovery.