Team:UrbanTundra Edmonton/Description

Sustainable Living on Mars: Remediation of Martian Soil to Produce Oxygen

In 2008, the Phoenix Mars Lander detected perchlorate (ClO4⁻) in Martian regolith at a concentration of 0.5% - 1.0%, up to 10 000 times higher than that on Earth. Perchlorate is a chemical anion that has adverse health effects on humans, rendering Martian soil unfarmable and posing a challenge to any future pursuits at colonization. The main sources of exposure to perchlorate on Mars would be through the inhalation of dust and the ingestion of contaminated food/water. Once it enters the body, its primary target is the thyroid gland, which regulates the body’s metabolism. ClO4⁻ directly competes with the uptake of iodine ions by the thyroid, leading to decreased hormonal output, slowed metabolism, and the hindered function of many organ systems. If colonization on Mars is to be made possible, detoxifying the soil of perchlorate is a necessity.

When we dug deeper, we stumbled on the work of Davila et al [1]who proposed that the toxic concentration of ClO4⁻in Martian soil was actually a resource that could be exploited both as a source of rocket fuel and O2, while remediating the soil in the process. It can be broken down further into perchlorite (ClO2⁻), chlorine (Cl-), and oxygen (O2) using two already sequenced enzymes, perchlorate reductase and chlorite dismutase.

We want to design an efficient metabolic pathway for the breakdown of perchlorate to produce oxygen by inserting the genes for these enzymes into E. coli, one of the fastest growing bacteria on Earth.