NASA and India’s Space Agency, ISRO, is cooperating on a suit of science investigations on Mission 4, a private astronaut for the International Space Station that was not aboard the Space X -Dragon spacecraft before June 10. The mission will contain experiments investigating human organisms, plant growth, and technology use in micrograites. The investigation includes meozenisis icono (studying muscle stem cells and mitochenel function), analogo-oaso (growing gingerm and fenugreek seeds), space microlanges-iisroid (nutrient-filled green micro-test-examination). Electronic screens). The purpose of these studies is to maintain astronaut muscle and health, support food production in orbit, and improve life support system for long -term missions.
Space Biology: muscle, seeds and algae
According to NASA officials Site, Sprator In the investigation, their development, genetics, and micrography will grow and increase ISS seeds and fenugreek seeds to study nutritional value. myogenesis-isro To review human muscle stem cell cultures uses how space light affects muscle repair and mitocandery metabolism, and tests chemicals to strengthen muscle health during long missions. Space Micrulga-Isaro It has been studied how green microleum grows and adapts to microgravity, as rapidly growing, nutrients can work as a fresh meal source and can help recycle air and water on the spacecraft.
Together, these space biology experiments can advance new ways to grow fresh food in orbit, maintain muscle mass during long missions, and even support the treatment of muscle loss and nutrition.
Extreme and human factors in orbit
The Wigger Display-Aicaro experience examines how staff members interact with pills and other electronic display in microorganisms, which identifying measurements, sighting behaviors, and stress or well-being indicators. The Wigger Toddgrade Aso Microscopic Water Bear (Tardi Grade) takes into space, revives them in orbit, and compares their survival, reproduction and genes to ground control under cosmic radiation and extreme conditions.
Revealing the targets so flexible, scientists hope that long missions will expose astronaut ways. The display study will guide the better user interface designs for the spacecraft and can also benefit touch screen technology on the ground.