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45 news posts in Space sciences and astronomy

Space sciences and astronomy

03 Aug 2022

‘I got front row seats to the astronomy event of my lifetime, and it didn’t disappoint’

By Colm Gorey, Frontiers science communications manager/Dr Susan Mullally, STScI Image: Dr Susan Mullally, STScI The successful launch of the James Webb Space Telescope earlier this year captivated the world’s attention, promising a revolutionary view deep inside our mysterious universe. One of those involved in the hugely important project was Dr Susan Mullally of the Space Telescope Science Institute who now speaks to Frontiers about the once-in-a-lifetime opportunity. Last month, a new chapter in humanity’s understanding of the cosmos began when the first images taken by the James Webb Space Telescope (JWST) were released to the world. Surpassing the capabilities of the Hubble Space Telescope, JWST will directly observe a part of space and time never seen before and will gaze into the epoch when the very first stars and galaxies formed, more than 13.5bn years ago. Dr Susan Mullally of the Space Telescope Science Institute (STScI) was among those with backstage access to this latest piece of space history, and is currently the deputy project scientist for JWST working to ensure the scientific productivity of the mission. Previously, she worked in the Mikulski Archive for Space Telescopes (MAST) as the lead for archiving the data from NASA’s Transiting Exoplanet […]

Space sciences and astronomy

08 Jul 2022

Building blocks for RNA-based life abound at center of our galaxy

By Mischa Dijkstra, Frontiers science writer Scientists here study the spectra from G+0.693-0.027, a molecular cloud near the center of the Milky Way. They detect a range of nitriles, key building blocks for RNA, including cyanoallene, propargyl cyanide, cyanopropyne, and possibly cyanoformaldehyde and glycolonitrile, none of which had previously been found in G+0.693-0.027. They conclude that nitriles are among the most abundant chemical families in the universe, which lends support to the ‘RNA world’ theory of the origin of life on Earth, and possibly elsewhere in our galaxy. Nitriles, a class of organic molecules with a cyano group, that is, a carbon atom bound with an unsaturated triple bond to a nitrogen atom, are typically toxic. But paradoxically, they are also a key precursor for molecules essential for life, such as ribonucleotides, composed of the nucleobases or ‘letters’ A, U, C, and G, joined to a ribose and phosphate group, which together make up RNA. Now, a team of researchers from Spain, Japan, Chile, Italy, and the US show that a wide range of nitriles occurs in interstellar space within the molecular cloud G+0.693-0.027, near the center of the Milky Way. The results are published in Frontiers in Astronomy and […]

Space sciences and astronomy

18 May 2022

Method used to track ants underground could revolutionize how we measure snow depth from space

By Simona Pesce, Frontiers writer Photo of snow taken by crew of the International Space Station. Image: NASA With the help of some ants, NASA scientists have developed an innovative concept to measure exactly how deep the snow layer is covering sea ice and mountains using a lidar (Light Detection and Ranging) instrument in space. The findings, published in Frontiers in Remote Sensing, reveal this new method will have several applications and provide more accurate measurements on the evolution of snowpack as a result of the climate crisis and better monitoring of water resources globally. Ants may be the unlikely heroes when it comes to better understanding the health of our planet in the midst of a climate crisis. In a paper published to Frontiers in Remote Sensing, a team of scientists, including those from NASA, have found a way to estimate the depth of snow from orbit using ants deep underground. One member of the team is Yongxiang Hu from NASA’s Langley Research Center who drew inspiration from physics and biology to create a unique snow depth model. A previously developed model found that the average time an ant walks around inside the colony before coming back is roughly […]

Space sciences and astronomy

27 Apr 2022

Solar energy is superior to nuclear for powering crewed mission to Mars, show scientists

By Peter Rejcek, science writer A crewed mission to Mars will require transporting equipment for creating electricity to power life support systems. The choice for the type of device used will require a tradeoff between mass and energy efficiency. Researchers here show that a photovoltaic system using compressed hydrogen energy storage can compete with nuclear energy across about 50% of the Red Planet. No other planet in our solar system has sparked the human imagination more than Mars. While modern science has debunked the Red Planet as a likely source of an alien invasion, today’s technology is bringing us closer to a crewed mission. A research team out of the University of California, Berkeley published a paper in the journal Frontiers in Astronomy and Space Sciences that argues a human expedition on the surface could be powered by harvesting solar energy. The concept is not new. The main source of power for some NASA Mars rovers comes from a multipanel solar array. But, in the last decade or so, most people had assumed that nuclear power would be a better option than solar energy for human missions, according to co-lead author Aaron Berliner, a bioengineering graduate student in the Arkin […]

Space sciences and astronomy

22 Mar 2022

‘Science is a measure of our ignorance: the more we know, the more we realize how little we know’

By Dr Gianluca Calcagni, IEM-CSIC Image: Shutterstock.com Writing as part of our Frontier Scientists series, Dr Gianluca Calcagni of IEM-CSIC in Madrid gives us an insight into his research that aims to find answers to some of the most puzzling and complex mysteries that makes up almost everything in the universe. Dr Gianluca Calcagni obtained his degree in physics in Italy at Padua University and, in 2005, his PhD at Parma University. He has worked at a number of research institutes in Japan, the UK, the US, Germany and Spain and is now a faculty member of the Instituto de Estructura de la Materia, Consejo Superior de Investigaciones Científicas (IEM-CSIC) in Madrid. As a member of the LISA and Einstein Telescope consortia, his research areas are gravitational waves, nonlocal quantum gravity, multifractal spacetimes, cosmologies beyond the standard model, and string theory. He has published three books and more than 100 papers in physics since 2003. Since 2016, he has also been doing research in behaviural and clinical psychology, in which he has a degree, an MSc and three published papers. Last year, he was awarded with a Frontiers in Astronomy and Space Sciences Diversity Award for his community engagement as […]

Space sciences and astronomy

28 Jan 2022

Extremely harsh volcanic lake shows how life might have existed on Mars

By K.E.D. Coan, science writer Fieldwork at Laguna Caliente, Poás volcano, Costa Rica. Credit: Justin Wang Only a few microbes inhabit Earth’s most extreme environments, but they have varied adaptations to do so, reports a new study. Hydrothermal hot springs such as at the Poás volcano in Costa Rica provide an opportunity not only to explore life on Earth, but also to understand how life might have evolved on Mars. A few specialist microbes survive conditions analogous to those of Mars’ early history, reports a new publication in Frontiers in Astronomy and Space Sciences — and this may be thanks to a broad range of adaptations. One of the most hostile habitats on Earth The hydrothermal crater lake Laguna Caliente of the Poás volcano in Costa Rica is one of the most hostile habitats on the planet. The water is ultra-acidic, full of toxic metals and the temperatures range from comfortable to boiling. In addition, recurrent ‘phreatic eruptions’ cause sudden explosions of steam, ash and rock. Despite such deadly eruptions, hydrothermal environments may be where the earliest forms of life began on Earth — and potentially also on Mars, if there ever was life. Beyond discovering how life can survive […]

Space sciences and astronomy

29 Nov 2021

DNA of future deep-space explorers could become more ‘error prone’ in microgravity

By Mischa Dijkstra, Frontiers science writer During parabolic flight to simulate weightless conditions in space, researchers show for the first time that a DNA polymerase enzyme derived from bacteria makes 10-140% more errors while copying DNA in microgravity. Combined with the known greater rate of DNA damage from space radiation, this inaccuracy of DNA replication is likely to pose a threat to the health of future astronauts on long missions. On 22 May 2019, scientists from Queen’s University boarded a modified Falcon 20 aircraft at Ottawa airport. Scheduled was a ‘vomit comet’ flight, where the plane repeatedly climbs to 8km in a steep parabola, alternating with a descent in freefall. During freefall, at a rate of over 3.3km in 20 seconds, only gravity but no lift, thrust, or drag work on the plane, resulting in weightlessness. The scientists’ mission under these difficult conditions was to test whether the enzymes that copy DNA are as accurate under weightlessness as under earthbound conditions. This question is of paramount importance for future space exploration, as the health of astronauts will depend on accurate DNA replication during cell division. “So-called DNA polymerases are essential enzymes that copy and repair DNA. Inevitably, they aren’t perfect: […]

Space sciences and astronomy

09 Nov 2021

Off-world colony simulation reveals changes in human communication over time with Earth

By Colm Gorey, Frontiers science writer Image: SciePro/Shutterstock.com Future planetary colonists will experience isolation like no other group in human history, which is why scientists on Earth are attempting to see how we communicate in the most extreme situations. In a paper published with Frontiers, researchers in Russia observed volunteers in isolation attempting to replicate life in deep space to see how it would impact their mood and communication styles. Despite some initial differences, the eventual cohesion of the team offers hope for future moon and Mars colonists. Elton John famously sang that Mars “ain’t the kind of place to raise your kids”, but one day space agencies across the globe hope to prove him wrong by seeing the first human establishing the first colony on the Red Planet, and elsewhere in the solar system. However, those who make the journey will not only have to survive on a freezing planet with no breathable atmosphere, but live in isolation unlike any other explorers in human history. At its closest proximity, Mars is still almost 55m km away from Earth, making communication delays and supply issues between the two worlds unavoidable. This requires crew members to effectively cope with stressful conditions […]

Space sciences and astronomy

17 Mar 2021

Astronauts in crewed Mars missions could misread vital emotional cues

By Tania Fitzgeorge-Balfour, Frontiers science writer Long-exposure photo of the centrifuge used to simulate microgravity in the research subjects. Image: DLR Spending an extended period with reduced gravity, as would be experienced by astronauts on long space missions, may have a negative effect on cognitive performance, and in particular emotion recognition, reveals a new study. Hoping to counteract these changes, researchers found that short periods of artificial gravity did not have the desired effect. The findings of this study could have implications for effective teamwork in future space travel, especially for manned missions to Mars. Living for nearly 2 months in simulated weightlessness has a modest but widespread negative effect on cognitive performance that cannot be counteracted by short periods of artificial gravity, finds a new study published in Frontiers in Physiology. While cognitive speed on most tests initially declined but then remained unchanged over time in simulated microgravity, emotion recognition speed continued to worsen. In testing, research participants were more likely to identify facial expressions as angry and less likely as happy or neutral. ► Read original article► Download original article (pdf) “Astronauts on long space missions, very much like our research participants, will spend extended durations in microgravity, confined to […]

Space sciences and astronomy

15 Mar 2021

3 bacterial strains discovered on space station may help grow plants on Mars

By Colm Gorey, Frontiers science writer Interior view from the International Space Station cupola. Image: NASA Swab samples of 8 surfaces aboard the International Space Station have led to the identifying of 4 strains of bacteria, 3 of which belong to a newly discovered novel species within the genus Methylobacterium. According to researchers, these new strains might be useful in helping future space missions grow food in extreme environments. In order to withstand the rigors of space on deep-space missions, food grown outside of Earth needs a little extra help from bacteria. Now, a recent discovery aboard the International Space Station (ISS) has researchers may help create the ‘fuel’ to help plants withstand such stressful situations. Publishing their findings to Frontiers in Microbiology, researchers working with NASA described the discovery and isolation of 4 strains of bacteria belonging to the family Methylobacteriaceae from different locations aboard the ISS across two consecutive flights. While 1 strain was identified as Methylorubrum rhodesianum, the other 3 were previously undiscovered and belong to a novel species novel. The rod-shaped, motile bacteria were given the designations IF7SW-B2T, IIF1SW-B5, and IIF4SW-B5 with genetic analysis showing them to be closely related to  Methylobacterium indicum. Methylobacterium species are […]