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Throughout our short space race we have sent the most diverse things to space: from golf balls up to 2,000 small jellyfish (that returned being 60,000), going through latea piece of the Wright brothers, an electric car, a gorilla costume and a pizza. Today to this peculiar list we have to add about 150 cannabis seeds. The reasons? Strictly scientific.
Mayasat-1. That is the name they receive both the mission (Integrated within Mission Possible 2025) as the incubator on board which have traveled seeds, algae and human DNA, among other things. In total, 980 samples of 11 different customers. The incubator has been developed by the Genoplant Research Institute in Slovenia, but who has decided to send cannabis seeds to space has been Martian Grow.
Transport-14 | Image: Genoplant
Mayasat-1 | Image: Genoplant
Three laps. Before addressing the why of cannabis, it is convenient to understand what the mission has consisted, whose duration has been three hours. Mayasat-1 took off on Monday 23 at 23:50 aboard a Falcon 9 from Spacex from Vandenberg Space Force Base in California. It reached a height of 520 kilometers (120 kilometers more than the International Space Station) and completed three laps around our planet. Specifically, through polar areas. Because? Because at the North and South poles exposure to radiation is very, much higher than that of Ecuador due to the magnetic field.
The objectives. There are several, but they can be summarized as follows:
- Observe the survival of samples to radiation, microgravity and temperatures of space to have an idea of its ability to resist extreme conditions.
- Investigate possible adaptations, such as genetic or structural changes, which may have occurred in response to the environmental stress factors.
- Study the possible implications for the cultivation of plants in space or advances in medicine.
- Serve as proof of concept for the realization of biological experiments in space.
And now yes, cannabis. Božidar Radišič leads the initiative Martian Grow and works as a consultant at the Research Nature Institute in Slovenia. In statements collected by WiredRadišič believes that “sooner or later, we will have lunar bases and cannabis, with its versatility, it is the ideal plant to supply those projects.” In his own words, cannabis “can be a source of food, proteins, construction materials, textiles, hemp, plastic and medicines. I don’t think many other plants give us all these things.”
But cannabis … Yes, it is associated with a very different recreational use, but its potential as a plant is tremendous. The Cannabis sativa l produces THC (tetrahydrocannabinol, the main psychoactive compound) and CBD (Cannabidiol, has no psychoactive effects), but these are only two of the More than 550 chemical compounds found to date. And although we do not know what effects each and every one of them has, we do know that the plant is surprisingly resistant.
Image | Crystalweed Cannabis
Hold on what you throw. Cannabis sativa is a plant that resists ultraviolet rays and gamma radiation (in fact, it is used in its industrial production to decontaminate it). It is also extremely versatile, being able to grow both in Mexico and India, Nepal, Netherlands or Afghanistan despite the fact that its origin is in the Himalayas. Nor is it a plant that needs too much water and can be grown in different types of soils. Their ballots to be a successful space crop are, therefore, abundant on paper.
And why send seeds to space? We know that radiation and genetic mutation is able to generate new varieties of species with different properties. “So far more than 3,400 new varieties of more than 210 species of plants using genetic variation induced by radiation and improvement by mutations, “they explain from the International Atomic Energy Agency.
For Radišič, that is precisely the key: “It’s about finding out if cosmic conditions affect cannabis genetics, and how they do it, and we may only discover it after several generations.” Radiation exposure can cause mutations, not all negative, not all positive. The key is to detect those that can play in favor of humanity. The problem, of course, is that we need more information.
Image | Genoplant
Further. We have already cultivated lettuce at the International Space Station, Thalian Arabidopsis on lunar soil and Sent seeds to spacebut all radiation exposure has been in low orbit (up to 2,000 kilometers high). The responses to the radiation of a plant at the International Space Station may not be the same as those of a plant on the moon (at 38,400 kilometers away) or on Mars (54.6 million kilometers). One of the projects that seek to explore how plants cultivated on the moon respond is Leafa NASA mission that will travel to our satellite in the mission Artemis III In 2027.
Next steps. When the capsule returns, the Božidar Radišič team and the Faculty of Health Sciences of the University of Ljubljana will study the seeds, their possible mutations and adaptations to obtain results and see which compounds have altered and how. “Whether there are changes as if not, both results will be important for the future, so that we know how to grow cannabis in the space environment,” says Radišič to Wired.
An important job. Colonizing the moon or Mars is not only a technological challenge, but also logistics. It is not viable to transport food to keep the population of another planet, so it is capital to learn to cultivate in lunar and Martian soils, completely inhospitable and hostile. There have been advances and research with different proposals For many yearsbut there is still no solution that seems perfect.
Images | Genoplant
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