An international team of astronomers studying more than 200 000 galaxies has measured the energy generated within a large portion of space more precisely than ever before. This represents the most comprehensive assessment of the energy output of the nearby Universe. They confirm that the energy produced in a section of the Universe today is only about half what it was two billion years ago and find that this fading is occurring across all wavelengths from the ultraviolet to the far infrared. The Universe is slowly dying.
This composite picture shows how a typical galaxy appears at different wavelengths in the GAMA survey. This huge project has measured the energy output of more than 200 000 galaxies and represents the most comprehensive assessment of the energy output of the nearby Universe. The results confirm that the energy produced in a section of the Universe today is only about half what it was two billion years ago and find that this fading is occurring across all wavelengths from the ultraviolet to the far infrared.
The study involves many of the world’s most powerful telescopes, including ESO’s VISTA and VST survey telescopes at the Paranal Observatory in Chile. Supporting observations were made by two orbiting space telescopes operated by NASA (GALEX and WISE) and another belonging to the European Space Agency (Herschel) .
“We used as many space and ground-based telescopes as we could get our hands on to measure the energy output of over 200 000 galaxies across as broad a wavelength range as possible,” says Simon Driver (ICRAR, The University of Western Australia), who heads the large GAMA team.
The survey data, released to astronomers around the world today, includes measurements of the energy output of each galaxy at 21 wavelengths, from the ultraviolet to the far infrared. This dataset will help scientists to better understand how different types of galaxies form and evolve.
All the energy in the Universe was created in the Big Bang, with some portion locked up as mass. Stars shine by converting mass back into energy, as described by Einstein’s famous equation E=mc2[2]. The GAMA study sets out to map and model all of the energy generated within a large volume of space today and at different times in the past.
“While most of the energy sloshing around in the Universe arose in the aftermath of the Big Bang, additional energy is constantly being generated by stars as they fuse elements like hydrogen and helium together,” Simon Driver says. “This new energy is either absorbed by dust as it travels through the host galaxy, or escapes into intergalactic space and travels until it hits something, such as another star, a planet, or, very occasionally, a telescope mirror.”
The fact that the Universe is slowly fading has been known since the late 1990s, but this work shows that it is happening across all wavelengths from the ultraviolet to the infrared, representing the most comprehensive assessment of the energy output of the nearby Universe.
“The Universe will decline from here on in, sliding gently into old age. The Universe has basically sat down on the sofa, pulled up a blanket and is about to nod off for an eternal doze,” concludes Simon Driver.
The team of researchers hope to expand the work to map energy production over the entire history of the Universe, using a swathe of new facilities, including the world’s largest radio telescope, the Square Kilometre Array, which is due to be built in Australia and South Africa over the next decade.
[2] Much of the Universe’s energy output comes from nuclear fusion in stars, when mass is slowly converted into energy. Another major source is the very hot discs around black holes at the centres of galaxies, where gravitational energy is converted to electromagnetic radiation in quasars and other active galactic nuclei. Much longer wavelength radiation comes from huge dust clouds that are re-radiating the energy from stars within them.
Fresh food grown in the microgravity environment of space officially is on the menu for the first time for NASA astronauts on the International Space Station. Expedition 44 crew members, including NASA’s one-year astronaut Scott Kelly, are ready to sample the fruits of their labor after harvesting a crop of “Outredgeous” red romaine lettuce Monday, Aug. 10, from the Veggie plant growth system on the nation’s orbiting laboratory.
The astronauts will clean the leafy greens with citric acid-based, food safe sanitizing wipes before consuming them. They will eat half of the space bounty, setting aside the other half to be packaged and frozen on the station until it can be returned to Earth for scientific analysis.
Astronauts on the International Space Station are ready to sample their harvest of a crop of “Outredgeous” red romaine lettuce from the Veggie plant growth system that tests hardware for growing vegetables and other plants in space. Credits: NASA. Click for larger image.NASA’s plant experiment, called Veg-01, is being used to study the in-orbit function and performance of the plant growth facility and its rooting “pillows,” which contain the seeds.
NASA is maturing Veggie technology aboard the space station to provide future pioneers with a sustainable food supplement – a critical part of NASA’s Journey to Mars. As NASA moves toward long-duration exploration missions farther into the solar system, Veggie will be a resource for crew food growth and consumption. It also could be used by astronauts for recreational gardening activities during deep space missions.
The first pillows were activated, watered and cared for by Expedition 39 flight engineer Steve Swanson in May 2014. After 33 days of growth, the plants were harvested and returned to Earth in October 2014. At NASA’s Kennedy Space Center in Florida, the plants underwent food safety analysis. The second Veg-01 plant pillows were activated by Kelly on July 8 and grew again for 33 days before being harvested. The seeds had been on the station for 15 months before being activated.
The Veggie system was developed by Orbital Technologies Corp. (ORBITEC) in Madison, Wisconsin, and tested at Kennedy before flight. Veggie, along with two sets of pillows containing the romaine seeds and one set of zinnias, was delivered to the station on the third cargo resupply mission by SpaceX in April 2014.
The collapsible and expandable Veggie unit features a flat panel light bank that includes red, blue and green LEDs for plant growth and crew observation. Using LED lights to grow plants was an idea that originated with NASA as far back as the late 1990s, according to Dr. Ray Wheeler, lead for Advanced Life Support activities in the Exploration Research and Technology Programs Office at Kennedy.
Wheeler worked with engineers and collaborators to help develop the Veggie unit from a Small Business Innovative Research project with ORBITEC. Dr. Gioia Massa is the NASA payload scientist for Veggie at Kennedy. Massa and others worked to get the flight unit developed and certified for use on the space station. The purple/pinkish hue surrounding the plants in Veggie is the result of a combination of the red and blue lights, which by design emit more light than the green LEDs. Green LEDS were added so the plants look like edible food rather than weird purple plants.
“Blue and red wavelengths are the minimum needed to get good plant growth,” Wheeler said. “They are probably the most efficient in terms of electrical power conversion. The green LEDs help to enhance the human visual perception of the plants, but they don’t put out as much light as the reds and blues.”
NASA plans to grow food on future spacecraft and on other planets as a food supplement for astronauts. Fresh food, such as vegetables, provide essential vitamins and nutrients that will help enable sustainable deep space pioneering. Credits: NASA. Click for large image.Wheeler, Massa and Dr. Gary Stutte, all from Kennedy, previously investigated similar experiments to grow plants in the Habitat Demonstration Unit at NASA’s desert test site near Flagstaff, Arizona, in 2010 and 2011. Wheeler said Veggie will help NASA learn more about growing plants in controlled environment agriculture settings. Similar settings include vertical agriculture, which refers to stacking up shelves of plants that are grown hydroponically and then using electric light sources like red and blue LEDs. This kind of system is popular in some Asian countries and beginning to grow in the U.S.
“There is evidence that supports fresh foods, such as tomatoes, blueberries and red lettuce are a good source of antioxidants. Having fresh food like these available in space could have a positive impact on people’s moods and also could provide some protection against radiation in space,” Wheeler said.
After the first crop of lettuce was returned from the space station, Massa began working with a team of flight doctors and NASA safety representatives to get approval for the crew to eat the produce.
“Microbiological food safety analysis looks very good on the first Veg-01 crop of romaine lettuce,” Massa said.
Besides the nutritional benefits, could growing fresh produce in space also provide a psychological benefit? Alexandra Whitmire, a scientist at NASA’sJohnson Space Center in Houston is involved in research to answer that question.
Whitmire is the Behavioral Health and Performance Research scientist for NASA’s Human Research Program. Her team supports research related to reducing psychological risks on a Mars mission.
“The Veggie experiment is currently the only experiment we are supporting which involves evaluating the effects of plant life on humans in space,” Whitmire said.
Her team is focused on crew behavioral conditions, performance reduction, and team communication and psychosocial adaption.
“Future spaceflight missions could involve four to six crew members living in a confined space for an extended period of time, with limited communication,” Whitmire said. “We recognize it will be important to provide training that will be effective and equip the crew with adequate countermeasures during their mission.”
The countermeasures could include things like meaningful work. Habitat-related modifications also could include plant life. Whitmire said Earth studies have shown plants are associated with well-being and optimal performance. Plants potentially could serve as a countermeasure for long-duration exploration missions.
Massa agrees: “Besides having the ability to grow and eat fresh food in space, there also may be a psychological benefit. The crew does get some fresh fruits or vegetables, such as carrots or apples, when a supply ship arrives at the space station. But the quantity is limited and must be consumed quickly.”
Having something green and growing–a little piece of Earth–to take care of when living and working in an extreme and stressful environment could have tremendous value and impact.
“The farther and longer humans go away from Earth, the greater the need to be able to grow plants for food, atmosphere recycling and psychological benefits. I think that plant systems will become important components of any long-duration exploration scenario,” Massa said.
The system also may have implications for improving growth and biomass production on Earth, thus benefiting the average citizen. Massa said many of the lessons NASA is learning with Veggie could be applied in urban plant factories and other agriculture settings where light is provided by electrical light and water conservation is practiced.
“We hope to increase the amount and type of crop in the future, and this will allow us to learn more about growing plants in microgravity,” Massa said. “We have upcoming experiments that will look at the impacts of light quality on crop yield, nutrition and flavor, both on Earth and in space.”
The team at Kennedy and Johnson hope that Veggie and space gardening will become a valued feature of life aboard the space station and in the future on Mars.
1. Monday, August 10, 2015; : 2-3:30 PM PDT (5-6:30 PM EDT, 4-5:30 PM CDT): We welcome JEREMY STRAUB and several of his students to discuss their research on a wide range of space related topics including cybersecurity for spacecraft (an intrusion detection system and cryptography technique) to an attitude determination and control system component to image processing.
2. Tuesday, August 10, 2015, 7 PM PDT (10 PM EDT, 9 PM CDT): We welcome RUSSELL COX, CEO & Founder, The Lunar Initiatives. See www.LunarInitiatives.com.
3. Friday, August 14, 2015, 9:30-11 AM PDT (12:30-2 PM EDT, 11:30 AM – 1 PM CDT): We welcome back CHARLES MILLER to discuss the new Return to the Moon concept and architecture as described in the new report, “Economic Assessment and Systems Analysis of an Evolvable Lunar Architecture that Leverages Commercial Space Capabilities and Public-Private-Partnerships“. See www.nss.org/docs/EvolvableLunarArchitecture.pdf for further information.
4. Sunday, August 16:,12-1:30 PM PDT, (3-4:30 PM EDT, 2-3:30 PM CDT). Welcome to our OPEN LINES program. All space & STEM calls welcome. First time callers welcome.
To bring The Space Show into the modern age we first have to acknowledge its current limitations. Built in the early 2000s, the current Space Show website offers very limited search capabilities that involve a two step process of a key word search on a static page followed by manually looking up the show via a chronological search function. Furthermore, only about 1/3 of the shows have key words none which are not a searchable part of our database. The current platform is also ill suited for the modern internet age where users are accessing the site from many different kinds devices including smartphones and tablets.
Our plan is to move The Space Show onto Drupal, an advanced Content Management System used by major media, businesses and institutions from the Economist and SpaceX to NASA and many major universities. Leveraging the power of Drupal, The Space Show will become sustainable, scalable, and upgradable. Listeners will also benefit from a responsive layout that will display properly on smart phones, tablets, PCs, and laptops regardless of the operating system. Behind the scenes there will be search engine optimization and users will benefit from a constantly updated and fresh content display which will enable fully searchable access to The Space Show’s treasury of information.
Another major benefit of the modernization program is the enhanced search functionality. Whereas searches and key words on the old site were cumbersome, often involving several steps on different pages, the new site will include multifaceted searches including date, topic, guest, and keywords with sub-sorting availability. Thousands of key words that were not linked to the original database on the old site are now integrated and associated with their respective shows meaning listeners will have faster, more thorough, and easier access to the content they want.
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