Solar eclipse a chance to study life's resilience
On August 21, as North America experiences its first total eclipse of the Sun in 38 years, astrobiologists are taking advantage of this rare celestial event to conduct experiments on life's ability to survive hostile conditions.
Flying at roughly 100,000 feet (30,000 meters), the balloons are expected to make it into the stratosphere, where scientists will gather data on Earth's atmospheric response to the eclipse shadow in an effort to inform atmospheric models. And with the Moon blocking the solar disk, cameras will be able to more clearly capture images of the Sun's normally obscured corona, or atmosphere.
Additionally, the balloons will face extreme conditions similar to the surface of Mars. As such, David J. Smith, a microbiologist at NASA Ames Research Center in Mountain View, California, and his colleagues at NASA's Jet Propulsion Laboratory and Cornell University are piggybacking astrobiology experiments onto the project to test life's ability to survive Mars-like conditions.
The balloons will carry sensors and a thin, lightweight aluminum strip called a "coupon." The rectangular coupons each weigh less than a gram and are about the size of three postage stamps. They are coated with a thin film containing sticky spores of the bacterium Paenibacillus xerothermodurans, originally recovered from the dirt outside NASA's Kennedy Space Center in the 1970s.
"This bacterial strain is harmless to the environment and to humans. Nothing hazardous is going to be hovering over our heads," Smith assured.
The scientists are experimenting with P. xerothermodurans because it is highly resistant to environmental extremes, including high temperatures and ultra-dry conditions. By attaching the microbial coupons onto the balloons, the researchers hope to see life's response to the kinds of extremes seen on the surface of Mars and other distant locales.
"Critics of this work might ask, 'Why not just do this research in an environmental simulation chamber?'" Smith said. "But there is no way to simulate all the complexity and wavelengths of sunlight. We can use our work in Earth's atmosphere to hopefully help verify the findings we get in simulation chambers."
Thirty-four teams from across the United States will fly these bacteria. "All they need to do is mount coupons on the outside of their balloons," Smith said. They can participate in this research without a lot of effort."
The sensors placed on the balloons will vary by teams, but include temperature and humidity we well as radiometers to measure the amount of radiation such as ultraviolet light that they are exposed to, Smith said.
After the balloons land, the researchers will see how many bacteria survived on the coupons. They can then compare survival rates with sensor data to see how the microbes responded to various conditions in the stratosphere.
"I think we'll have bacterial survivors in these experiments," Smith said. "I'm consistently surprised by the resilience of life—the ability of life to linger in conditions we consider extreme is humbling."
On August 21, as North America experiences its first total eclipse of the Sun in 38 years, astrobiologists are taking advantage of this rare celestial event to conduct experiments on life's ability to survive hostile conditions.
Flying at roughly 100,000 feet (30,000 meters), the balloons are expected to make it into the stratosphere, where scientists will gather data on Earth's atmospheric response to the eclipse shadow in an effort to inform atmospheric models. And with the Moon blocking the solar disk, cameras will be able to more clearly capture images of the Sun's normally obscured corona, or atmosphere.
Additionally, the balloons will face extreme conditions similar to the surface of Mars. As such, David J. Smith, a microbiologist at NASA Ames Research Center in Mountain View, California, and his colleagues at NASA's Jet Propulsion Laboratory and Cornell University are piggybacking astrobiology experiments onto the project to test life's ability to survive Mars-like conditions.
The balloons will carry sensors and a thin, lightweight aluminum strip called a "coupon." The rectangular coupons each weigh less than a gram and are about the size of three postage stamps. They are coated with a thin film containing sticky spores of the bacterium Paenibacillus xerothermodurans, originally recovered from the dirt outside NASA's Kennedy Space Center in the 1970s.
"This bacterial strain is harmless to the environment and to humans. Nothing hazardous is going to be hovering over our heads," Smith assured.
The scientists are experimenting with P. xerothermodurans because it is highly resistant to environmental extremes, including high temperatures and ultra-dry conditions. By attaching the microbial coupons onto the balloons, the researchers hope to see life's response to the kinds of extremes seen on the surface of Mars and other distant locales.
"Critics of this work might ask, 'Why not just do this research in an environmental simulation chamber?'" Smith said. "But there is no way to simulate all the complexity and wavelengths of sunlight. We can use our work in Earth's atmosphere to hopefully help verify the findings we get in simulation chambers."
Thirty-four teams from across the United States will fly these bacteria. "All they need to do is mount coupons on the outside of their balloons," Smith said. They can participate in this research without a lot of effort."
The sensors placed on the balloons will vary by teams, but include temperature and humidity we well as radiometers to measure the amount of radiation such as ultraviolet light that they are exposed to, Smith said.
After the balloons land, the researchers will see how many bacteria survived on the coupons. They can then compare survival rates with sensor data to see how the microbes responded to various conditions in the stratosphere.
"I think we'll have bacterial survivors in these experiments," Smith said. "I'm consistently surprised by the resilience of life—the ability of life to linger in conditions we consider extreme is humbling."
No comments:
Post a Comment