Moss has shown extraordinary resilience in extreme environments, but new research has taken this to a whole new level. Recent studies revealed that moss survival in space is not only possible but surprisingly successful. This discovery could play a vital role in developing future ecosystems for human settlements beyond Earth.
Moss Proves It Can Withstand Space Conditions
A group of Japanese scientists conducted an experiment using moss spores from the species Physcomitrium patens. These spores were sent to the International Space Station (ISS), where they stayed outside the station for 283 days. The goal was to test how well moss could survive actual space conditions, including radiation, microgravity, and extreme temperature fluctuations.
When the spores returned to Earth aboard a SpaceX resupply mission, the results were astonishing. More than 80% of the spores survived and were able to germinate successfully. The study, published in the journal iScience, highlighted that ultraviolet radiation had the strongest impact on the moss, reducing its chlorophyll production. However, cold, vacuum, and microgravity barely affected its ability to regenerate.
Why Moss Survival in Space Matters
Moss and Future Space Habitats
The researchers explained that understanding how organisms behave in unfamiliar environments is essential for expanding human presence in space. Plants like moss can contribute to life support systems by producing oxygen, managing humidity, and supporting closed ecological cycles.
Moss belongs to a plant group known as bryophytes, which are already known for thriving in extreme environments such as the Arctic and deserts. Previous studies have even shown moss surviving Mars-like simulations. This new experiment confirms its ability to withstand real outer-space conditions.
Potential Uses of Moss in Extraterrestrial Ecosystems
The resilience of moss makes it a strong candidate for planetary greening, biological research, and ecosystem support on the Moon, Mars, and future space stations. Its natural toughness, ability to reproduce via spores, and resistance to temperature extremes make it an ideal first plant to test in extraterrestrial environments.
Conclusion: A New Frontier for Space Biology
The experiment demonstrates that moss survival in space is not only possible but highly promising. These findings open the door to using hardy Earth organisms to help support humans beyond our planet. As space exploration continues to grow, such discoveries will play a vital role in building sustainable extraterrestrial habitats.
READ MORE : https://pukaarpakistan.com/category/science-tech/