Session
2024 Poster Session
Location
Salt Lake Community College Westpointe Campus, Salt Lake City, UT
Start Date
5-6-2024 9:55 AM
Description
Cyanobacteria have been referred to as the architects of Earth's atmosphere and are widely credited with being the planet's first oxygenators. While it is speculated that cyanobacteria could similarly be utilized to oxygenate the atmosphere of Mars, one constraint is resource scarcity on the planet. Studies have shown that certain cyanobacteria can survive at least short term in media comprised of Martian regolith; however, their ability to thrive long term in such nutrient-deprived conditions is questionable. This study aims to investigate whether a cyanobacterial culture grown in a nutrient-deprived, Mars regolith simulant media can be supplemented with urine to facilitate its long-term survival.
Urine Supplementation of Nostoc Muscorum in MGS-1 Media
Salt Lake Community College Westpointe Campus, Salt Lake City, UT
Cyanobacteria have been referred to as the architects of Earth's atmosphere and are widely credited with being the planet's first oxygenators. While it is speculated that cyanobacteria could similarly be utilized to oxygenate the atmosphere of Mars, one constraint is resource scarcity on the planet. Studies have shown that certain cyanobacteria can survive at least short term in media comprised of Martian regolith; however, their ability to thrive long term in such nutrient-deprived conditions is questionable. This study aims to investigate whether a cyanobacterial culture grown in a nutrient-deprived, Mars regolith simulant media can be supplemented with urine to facilitate its long-term survival.