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Happy Valentine's Day! Here's a space rose

This article was published in Scientific American’s former blog network and reflects the views of the author, not necessarily those of Scientific American


Still looking for an extra special Valentine's gift for tomorrow? Here's something truly out-of-this-world... Ladies and gentlemen, I give you the Overnight Scentsation.

This miniature rose was grown in space, on NASA’s Space Shuttle Discovery Flight STS-95, in an ASTROCULTURETM commercial plant growth chamber. Scientists wanted to see whether a rose grown in space really would smell as sweet as its terrestrial counterpart.

Turns out, its scent was different to what it would have been on Earth. Volatile compounds are what make a flower smell the way it does, and they act differently in microgravity. From NASA:


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In low gravity [...] the rose actually produced fewer volatiles than it did on Earth. But the fragrance that it did generate was critically altered. The flower in space had a more "floral rose aroma," which is aesthetically pleasing.

And in case you were wondering exactly how the astronauts and scientists measured the flowers scent:

To collect the scent, they reached into the ASTROCULTURETM chamber and touched the rose using a tiny silicon fiber. Less than one centimeter long, and only 1 to 2 millimeters in diameter, the fiber was coated with a special liquid to which molecules around the flower petal adhere. After the shuttle returned to Earth, researchers took the fiber and analyzed the molecules they found on it.

The rose's scent was so different from anything earthly that International Flavours & Fragrances (who conducted the research with NASA) commercialised the new fragrance, meaning you can now buy perfume with the 'space rose' note. But you'll have to be quick if you want it in time for tomorrow...

Kelly Oakes has a master's degree in science communication and a degree in physics, both from Imperial College London. She started this blog so she could share some amazing stories about space, astrophysics, particle physics and more with other people, and partly so she could explore those stories herself.

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