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Expeditions Diaries Blood and Treasure
Blood and Treasure
Source: NASA Blogs
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Missions
Posted:   10/01/12

Summary: Don Pettit, member of the Expedition 31 crew, discusses the treasures that spaceflight may hold for humanity. Research on the International Space Station is helping scientists understand how life as we know it functions, and how it adapts to the space environment.

A Flashing Success
Mar 05, 2012 11:20:36 AM


San Antonio from the International Space Station. Credit: Don Pettit / NASA
Flashing space station with beams of light as it passes overhead had never been successfully done—until yesterday.

It sounds deceptively easy. In an earlier post I wrote about the technical requirements. But like so many other tasks, it becomes much more involved in the execution than in the planning.

Early Sunday morning, at 01:27 our time, the San Antonio Astronomical Association, an amateur astronomy group, succeeded in flashing space station with a one-watt blue laser and a white spot light as we passed overhead. This took a number of engineering calculations. Projected beam diameters (assuming the propagation of a Gaussian wave for the laser) and intensity at the target had to be calculated. Tracking space station’s path as it streaked across the sky was another challenge. I used email to communicate with Robert Reeves, one of the association’s members. Considering that it takes a day, maybe more, for a simple exchange of messages (on space station we receive email drops two to three times a day), the whole event took weeks to plan.

I was ready with cameras for the early morning San Antonio pass and can report that it was a flashing success. Here’s one of the pictures to prove it.

Mar del Fuego
Mar 14, 2012 04:17:26 PM


Tierra del Fuego, the land of fire, was what Magellan named the tip of South America in 1520. He saw the fires set by local inhabitants who did not want the Portuguese explorer to set foot on their land.

The dim lights from Tierra del Fuego behind the glow of offshore oil platforms. Credit: Don Pettit / NASA


A new page in the history of this distant part of our globe is now being written. Oil has been discovered off the eastern shore of Tierra del Fuego, and Argentina is building offshore platforms to access it. Brightly lit, they appear from orbit as constellations—not in the starry sky, but on the surface of the sea. Collectively, they are one of the most brightly-lit areas I have seen anywhere on Earth (except for Las Vegas, which still holds the title). From my orbital perspective, this is no longer Tierra del Fuego but Mar del Fuego.

Bright lights from the offshore oil platforms near Tierra del Fuego. Credit: Don Pettit / NASA


In these pictures taken from Space Station, the dim lights from Tierra del Fuego, visible in the background, do not hold a candle to the bright lights of the offshore oil platforms.

Blood and Treasure
Mar 15, 2012 11:35:54 AM


Gold, silk, and spices were tangible treasures from past exploration. The Conquistadors were particularly good at extracting gold from the local inhabitants. Sir Francis Drake, before he acquired the title of “Sir,” brought back enough treasure from his circumnavigation of the globe to provide more than half the income for the British crown for an entire year.
Getting ready to insert biological samples in the Minus Eighty Laboratory Freezer for ISS (MELFI-1) in the Kibo lab. Credit: NASA / Don Pettit
The frontiers of space likewise offer treasures won from exploration, treasures that will enrich our lives and enhance our standard of living. These treasures are golden but not gold. They contain secrets about the biochemistry of life, and will allow us to increase our understanding of how life functions. No more silver and gold; from Space Station we have blood, spit, and urine, treasures that contain secrets more valuable than a chest filled with pillaged Aztec gold.

On Space Station, we are human guinea pigs for a wide variety of medical experiments. The weightlessness of space offers a biochemical challenge to our bodies, which develop a host of fascinating maladies such as bone decalcification, cataracts, retina swelling, eye focus shifts, smooth muscle atrophy, fluid imbalance, gross weight loss, cardiovascular degeneration, and more. In spite of these maladies, humans can thrive in space, proving that as a species, we are a hardy lot and can explore places where we were never meant to go.

The microgravity of Space Station allows for yet one more experimental variable, offering an amazing and unique environment in which to study human physiology. Mother Earth throughout time has tormented creatures with every possible variation of environmental parameters. She has tweaked temperatures from hot to cold, pressures from high to low, chemical compositions from reducing to oxidizing and acid to base, and more. She has thrown stones at us from space and spewed out molten rock and ash from within. The layers of rocks are littered with fossils of hapless creatures that could not make the grade, or, through no fault of their own, were simply caught in the wrong epoch of geologic time. The history of life on Earth is the story of species extinction, a fascinating thought for those of us that are still here and can contemplate such a construct.

With all this change, with all this process, throughout all the evolution, the one factor that has been constant for billions of years is the magnitude of Earth's gravity. Now we can venture off the planet and for the first time in the history of life, vary the influence of gravity by a factor of one million. The fact that we can survive in space is in itself an amazing discovery. We truly are off in a new frontier, one that life has never seen on Earth, and it is on this frontier that physiological secrets can be pried from the people who go there.

As the crew of Space Station, we routinely puncture veins, drool on cotton swabs, and urinate in bags. These samples are processed in centrifuges, sprinkled with preservatives, placed in tubes, and stored in MELFI, better known as “the freezer.” Kept at -98° C, these samples are stored for months before return passage to Earth can be arranged. To ensure safe passage of these treasures through the ride back to Earth, NASA has developed a special cold box that keeps them frozen for several days, ensuring unthawed recovery by ground crews, happy life science researchers, and crew members relieved to know that their bloodletting was not in vain.

The cold box. Credit: Don Pettit / NASA
The cold boxes themselves are an engineering marvel. They are nearly equal in thermal conductivity to a vacuum dewar (Thermos bottle) with only a fraction of the mass. They are made from truly space-aged materials; aerogel and Mylar. Aerogel is the most gossamer solid material known. Appearing more like solid smoke, aerogel has a density only 10 times greater than that of air (steel has a density 7,000 times greater than air) making it one of the best thermal insulators known, bested only by vacuum. Aerogel is brittle, readily crumbing into dust. To prevent this eventuality, it is placed inside a skin of Mylar (plastic) film. The air is then sucked out, making this structure as rigid as a vacuum-packed bag of coffee (which feels brick-hard until the package is opened). These Mylar-packed aerogel structures can be made into odd shapes, enabling cold boxes to fit in unused pie-shaped spacecraft volumes.

When new technology is developed, other unintended uses often surface. Such was the case for the cold box. Developed for space, it ended up in Antarctica, not for keeping things cold but for keeping them warm. In 2006-2007, I had the good fortune to live in a tent about 200 miles from the South Pole during a scientific expedition to Antarctica as part of a meteorite gathering team called ANSMET (Antarctic Search for Meteorites). The conditions found in Antarctica preserve and concentrate meteorites, a discovery not realized until the early 1970’s. They accumulate on the surface of the blue glacier ice, and because they appear as strongly contrasting black specks from a distance, they can be recognized from afar and gathered like cosmic Easter eggs. For the last 30 years, annual expeditions working during the short Antarctic summers have gathered over 20,000 meteorites. During our six-week stay, we advanced this number by 850.

The cold box was developed for space, but ended up keeping things warm in Antarctica. Credit: Don Pettit / NASA
Living in a tent under primitive conditions, the ambient temperature danced around -20° C throughout the continuous daylight of the Antarctic summer day. Including wind chill, the effective temperature was -40° C. At such temperature levels, it does not matter what scale is used. In our tents, the floor temperature stayed at -20° C and the chimney varied from -20° C to +20° C, depending on whether the stove was lit. Any water-based substance became a frozen lump. Most electronic devices refuse to operate under these conditions; from batteries that do not make sparks (lithium-ion batteries do not like to be charged if less than 0° C), LCD displays that give only blank stares, or hard drives that do not turn at the right speed.

The Antarctic hot box in its former life was an engineering test article used to make thermal measurements for the design of the spaceflight units. Having served that purpose, I found it in a dank NASA cabinet, itself in cold storage and seemingly of no further use. Brought out from retirement, this high-tech space cooler found itself strapped to a Nansen sledge, pounding through the Antarctic interior over snow structures known as sastrugi. In a sea of cold, it offered a small oasis of warmth. We also kept our Tabasco sauce and sourdough starter in the hot box, demonstrating the value of having small comforts when living on the frontier.

Thus we behold the new treasure garnered from the frontier of space. Not gold or spices, but knowledge. Knowledge always has value, even if we don’t immediately know or recognize it. The real treasure of new exploration is the larger knowledge base and the expanded imagination we develop from it. In time, all knowledge shows itself to be useful in some way. The fact that today it is difficult to pinpoint the value of space exploration shows that it is truly venturing into terra incognita, unknown territory.


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