Space experiments have tested everything fromto , so why not send human swimmers to the ISS to see what happens when they float around up in the great beyond?
On Monday, NASA sent frozen human and bull sperm to the ISS to test what happens when it's exposed to anti-gravity. It's just Micro-11.-- ranging from biological tests related to astronaut health to studies involving grass and probiotics -- headed to the space station aboard a SpaceX rocket as part of a mission called
Crew members will thaw and chemically activate the sperm samples to fertilize an egg. They will then video tape the sperm movements, and send data back home to Earth for more scientific analysis.
"Based on previous experiments, it seems the lack of gravity facilitates sperm mobility," Fathi Karouia, a research scientist at the exobiology branch at NASA's Ames Research Center, told Inverse magazine. "This is in line with other investigations on different model organisms which have shown that microgravity conditions trigger faster cell regeneration."
The exobiology branch at Ames Research Center aims to "understand pre-biotic chemistry, and the origin, evolution, distribution, and future of life in the universe." The main goal of such research is to better understand what's involved in creating habitable environments in emerging planetary systems.
Studying sperm and how it acts in space makes sense, of course, for future generations that not only plan to visit other planets, but to raise families on them as well. Though as my colleague Michelle Starr reported, sex in space comes with a , including motion sickness and a lack of ventilation for heavy breathing.
"We still don't know how long-duration space missions affect human reproductive health, and whether infertility may be a risk for future astronauts," NASA said in a statement. "In addition, a successful base on the Moon or Mars may require self-perpetuating colonies of animals and plants."
This isn't the first experiment involving sperm in space. In 2002, NASA published an article called "Floating Fertility" that mentioned German researcher U. Engelmann, who sent samples of bull sperm into orbit aboard a European Space Agency rocket in 1998. His team discovered that the tiny cells in the sperm appeared to move better in a low-gravity environment.
While scientists have been able to successfully breed frogs, salamanders, sea urchins, jellyfish, snails and even worms in space, it will still be awhile before humans start reproducing in space, let alone another planet.
However, while space babies won't happen anytime soon, this latest Micro-11 mission is "the first mission to apply proven analytical methods to assess the fertility of human and bovine sperm in spaceflight," Karouia says.
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