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Space Station research during 2021 by Melissa Gaskill for ISS News Houston TX (SPX) Jan 03, 2022
As the International Space Station enters its third decade of continuous human presence, the impact of microgravity research conducted there keeps growing. The months between Nov. 2020 and Nov. 2021 saw publication of more than 400 scientific papers based on studies aboard the orbiting lab. Here are some highlights of recent results from groundbreaking space station science:
More stem-ness in stem cells On Earth, cardiovascular stem cells, also known as cardiovascular progenitor cells or CPCs, can continually divide to produce more of the same type of cells or develop into other specialized cell types. In newborns, these cells develop into a greater variety of types of cardiovascular cells and produce greater numbers of cells than the same cells in the adult heart. That capability suggests that newborn or neonatal heart cells have the potential to be used to repair and replace worn out or damaged heart tissues. According to a research study published in the International Journal of Molecular Sciences, this investigation revealed that space flight gives both adult and neonatal cells more "stemness," which may improve their regeneration, survival, and proliferation. Understanding how to trigger this return to an earlier developmental state could have immense benefit in the field of regenerative medicine. This growing field uses stem cells and tissue engineering to regrow, repair, or replace damaged or diseased cells, organs, and tissues. Long-duration microgravity, a unique research variable offered by the space station, could provide a tool to activate stemness in adult CPCs.
Reducing radiation exposure Researchers discovered that adding the mineral colemanite (a type of borax that forms when alkaline waters evaporate) to a polymer reduced the amount of radiation the material absorbed. Samples exposed to space radiation showed no significant difference from those that were not subjected to these harsh conditions. The compound could provide better radiation protection for satellite technology, low-Earth orbit stations, and high-altitude planes. These materials have potential applications in harsh environments on Earth as well.
Mighty miniature miners Biorock demonstrated that microbes can extract rare Earth elements from basalt (a common rock on the Moon and Mars) in space. The team revealed in a recent paper that microbes may perform even better in microgravity, reporting an increase of as much as 283% in vanadium biomining on the space station. That means we could use biomining to extract elements needed to sustain humans independently of Earth. Mining with microbes reduces the need for chemicals that can be damaging to the environment, uses very little energy, and is compact, an important consideration for deep space exploration and its limits on the materials that can be brought from Earth.
A closer look at cement A paper in the journal Construction and Building Materials reports results from some of those tests. In mixtures of tricalcium aluminate and gypsum, microgravity caused unique microstructures, including striations or lines in the gypsum. These striated microstructures were highly porous and trapped air, which could affect the strength of the material. Samples mixed on Earth showed more developed microstructure with a higher degree of hydration. These findings could contribute to the development of new materials for the construction of extraterrestrial habitats and improved materials on Earth. Another investigation currently under way on station, Redwire Regolith Print, also works toward that goal. That experiment tests using a material that simulates regolith, or the loose rock and soil found on the Moon and Mars, to create objects via 3D printing with the station's Made In Space Additive Manufacturing Facility.
Getting a leg up on cardiovascular issues Published results show that participating in two missions did not worsen leg vein health so long as the crew members had substantial time between flights and good muscular health in their lower extremities, which supports vein structure and function. The findings suggest that physical exercise could provide an effective countermeasure for space-related cardiovascular issues.
Earth's atmosphere at night A paper published in The Astrophysical Journal reports that six months of operation indicate that Mini-EUSO operates as expected, measuring variations in airglow and ultraviolet emissions from Earth and tracking space debris and ultrahigh-energy cosmic rays.
Predicting and preventing bone loss Their findings, published in the British Journal of Sports Medicine, suggest that bone loss in some astronauts could be predicted by elevation of certain biomarkers preflight and that bone biomarkers and exercise history can help identify astronauts at greater risk for bone loss. Crew members who increased their resistance training during flight were more likely to preserve bone strength, but whether current in-flight exercise regimes are sufficient warrants further examination. These findings also have relevance for understanding how exercise affects bone loss on Earth such as that caused by reduced mechanical loading due to injury, disuse, or disease.
Characterizing sooty flames in space Researchers reported a number of observations in a paper published in Combustion and Flame Journal, including rate of growth in flames, coupling of burner heating and flame radius, oscillations as flames start to go out, relationship between fuel flow rates and flame temperature, and irradiance in flames with increasing or nearly constant peak gas temperature. These observations enhance the understanding of fire behavior and could help keep people safer in spacecraft and on Earth.
Blue jets, blue bangs, and better atmospheric models Recently published results add to our understanding of the physical properties of another atmospheric phenomenon - blue jets, or the electric discharges generated by disturbances of positively and negatively charged regions in the upper levels of the clouds. ASIM measurements show that blue jets may originate with a "blue bang" in a cloud top. The study also shows that the explosive onset and the jet itself both are made primarily of streamer ionization waves, with only faint signatures of leader activity that would be expected for normal lightning. By helping scientists better understand how thunderstorms affect Earth's atmosphere, ASIM contributes to better atmospheric models and meteorological and climatological predictions.
Biden administration extends ISS operations through 2030 Washington DC (UPI) Jan 01, 2022 The Biden administration has extended operations on theInternational Space Station through 2030 to "enable a seamless transition" to commercial space stations, NASA Administrator Bill Nelson announced Friday. Nelson said in a statement that NASA will continue working with the European Space Agency, Japan Aerospace Exploration Agency, Canadian Space Agency, and Russia's StateSpace Corporation Roscosmos "to enable continuation of the groundbreaking research being conducted." "The United States ... read more
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