Subscribe free to our newsletters via your
. Mars Exploration News .

Calculated Risks: How Radiation Rules Mars Exploration
by Sheyna E. Gifford, MD for Astrobiology Magazine
Moffett Field CA (SPX) Feb 14, 2014

Radiation Assessment Detector.

Nearly everything we know about the radiation exposure on a trip to Mars we have learned in the past 200 days. For much longer, we have known that space is a risky place to be, radiation being one of many reasons. We believed that once our explorers safely landed on Mars' surface, the planet would provide shielding from the ravages of radiation.

We didn't how much, or how little, until very recently. Radiation and its variations impact not only the planning of human and robotic missions, but also the search for life taking place right now.

The first-ever radiation readings from the surface of another planet were published last month in Science Express. The take-home lesson, as well as the getting-there lesson and the staying-there lesson, is this: don't forget to pack your shielding.

"Radiation is the one environmental characteristics that we don't have a lot of experience with on Earth because we're protected by our magnetosphere and relatively thick atmosphere. But it's a daily fact of life on Mars," said Don Hassler, the principle investigator on the paper, "Mars' Surface Radiation Environment Measured with the Mars Science Laboratory's Curiosity Rover."

On Earth, we often associate radiation exposure with fallout from catastrophes such as Chernobyl and Fukushima. We sometimes worry over CAT scans, chest x-rays or transcontinental flights. However, according to the Health Physics Society, the biggest source of radiation for most of us, by far, is inhaled radon, which comes from the natural decay of material present since the Earth's formation.

In open space, human beings continuously contend with intense solar and cosmic background radiation. Solar Energy Particles (SEPs) and Galactic Cosmic Rays (GCRs) turn a trip to Mars into a six-month radiation shower.

The Mars rover Curiosity has allowed us to finally calculate an average dose over the 180-day journey. It is approximately 300 mSv, the equivalent of 24 CAT scans. In just getting to Mars, an explorer would be exposed to more than 15 times an annual radiation limit for a worker in a nuclear power plant.

Data from Curiosity also demonstrated that landing only partially solves the problem. Once on the Martian surface, cosmic radiation coming from the far side of the planet is blocked. This cuts down detected GCRs by half. The protection from strong solar particles, though, is shoddy and inconsistent. Substantial variations in SEPs occur as the meager Martian atmosphere is tussled by solar wind.

Radiation and its variations impact not only the planning of human and robotic missions, but also the search for extraterrestrial life. Without substantial atmospheric protection, powerful particles entering the air can penetrate straight into the Martian soil.

On impacting the surface, the GCRs and SEPs from space produce cascades of other energetic particles. Of these newly produced particles, gamma rays and neutrons are easily capable of breaking molecular bonds in the soil, destroying evidence of past life, as well as any life that may be presently trying to survive there.

The Mars' Surface Radiation paper estimates that finding intact organic molecules means digging deeper, down a meter or so. In addition to digging deeper, we need to dig for newer evidence, near impact sites where the rock has spent less time exposed to the elements.

"Radiation is probably the key parameter in determining how much alteration organics are experiencing in the rocks on the surface,"said Jennifer Eigenbrode from Goddard Institute of Space Studies, and an author of the paper. "If we find organics on mars, the circumstance in which we find them [the context of the rocks], the history of the rocks, and the chemistry that we find, will help guide our mission strategy."

Radiation detected by Curiosity has given us a better guide on how and where to look for former or current life. Future life, specifically the lives of our astronauts, also hinges upon these radiation measurements.

"Fundamentally "situational awareness is the strategy we have to use going forward," Hassler said. "We can design shelters on the surface to protect the astronauts."

Deep space, the place of greatest exposure, remains an issue.

"Perhaps one of the areas they would be most vulnerable would be during a spacewalk [on the way] to Mars."

In transit and on the planet, surviving space means predicting space weather. Space weather forecasting is a relatively new field, but one that's proving to be critical to all space missions.

Space weather involves forecasting solar flares, coronal mass ejections, and geo-magnetic storms. These highly energetic events emanate from the sun. When they cross the orbit of a planet, the same SEPs attacking organics can spell disaster for satellites, space stations, astronauts and the communication systems they all depend upon.

"To protect our satellites is becoming more and more important here on Earth," Hassler said.

Protecting satellites and people around Earth and Mars likely involves setting up two separate systems. Using Earth-based technologies to predict the radiation levels on Mars isn't the best choice. The distance and opposition of the planets compounds the problem. When Mars is on the far side of the sun, it isn't even an option.

"When we send astronauts to Mars, we will have to do our own space weather monitoring from [Mars]," said Hassler.

From beneath the shelter of Earth's ample atmosphere, we continue to receive daily updates from Curiosity. Its 3-pound Radiation Assessment Detector (RAD) informs us about surface radiation events, particle type and relative frequencies. For now, RAD is the only way that we can study Martian radiation and make plans for the future.

In the future, what we've learned from RAD will be used to better look for life on the surface, to design suits and habitats, to plan extravehicular activities. Because of what we have learned, we can begin to establish weather prediction systems. We can tell explorers that there is an increased risk of cancer associated with a trip to Mars (approximately 5 percent over a lifetime).

In these ways, radiation rules the past, present and future of effective planetary exploration. Thanks to RAD measurements and the resulting analysis, we can begin to write a survival guide for life on Mars.


Related Links
Astrobiology Magazine
Mars News and Information at
Lunar Dreams and more

Comment on this article via your Facebook, Yahoo, AOL, Hotmail login.

Share this article via these popular social media networks DiggDigg RedditReddit GoogleGoogle

Memory Foam Mattress Review
Newsletters :: SpaceDaily :: SpaceWar :: TerraDaily :: Energy Daily
XML Feeds :: Space News :: Earth News :: War News :: Solar Energy News

Amazing 45 kg medieval-armor-inspired spacesuit to help people walk on Mars
Moscow (Voice of Russia) Feb 04, 2014
Dr. Gernot Groomer from Austria has designed a spacesuit for walking on Mars. It takes him three hours to put it on. The suit is made from 10,000 parts and designed for the most treacherous environment to be encountered by human beings. Groomer is an astrobiologist responsible for making a spacesuit for the future explorers of Mars and he is taking inspiration from armour worn by medieval ... read more

Chang'e-2 lunar probe travels 70 mln km

LADEE Sends Its First Images of the Moon Back to Earth

Source of 'Moon Curse' Revealed by Eclipse

NASA bets on private companies to exploit moon's resources

What's up, Yutu

China's Jade Rabbit rover comes 'back to life'

Yutu Awakes

Moon plays trick on Jade Rabbit

NASA, International Space Station Partners Announce Future Crew Members

Andrews Space Cargo Module Power Unit Provides Power For Payloads Bound For ISS

Russian Progress M-22M docks with ISS following fast rendezvous

Russian Resupply Spacecraft Begins Expedited Flight to Station

Thanks America, New Horizons Ahead

Countdown to Pluto

A Busy Year Begins for New Horizons

NASA Spacecraft Get a 360-Degree View of Saturn's Auroras

Cassini's View of Weird and Wonderful Saturn

Clay-Like Minerals Found on Icy Crust of Europa

Cassini Spacecraft Obtains Best Views of Saturn Hexagon

Surveying storm damage from space: UK satellite provides images of Somerset floods

Glowing plants a sign of health

Poll: 26 percent in U.S. do not know Earth goes around sun

NASA-USGS Landsat 8 Satellite Celebrates First Year of Success

Inside astronaut Alexander's head

Boeing Commercial Crew Program Passes NASA Hardware, Software Reviews

Is truth stranger than fiction? Yes, especially for science fiction

ORBITEC Supports NASA Kennedys Advanced Plant Habitat for ISS

Kepler Finds a Very Wobbly Planet

One planet, two stars: new research shows how circumbinary planets form

First Weather Map of Brown Dwarf

NASA-Sponsored 'Disk Detective' Lets Public Search for New Planetary Nurseries

The content herein, unless otherwise known to be public domain, are Copyright 1995-2014 - Space Media Network. All websites are published in Australia and are solely subject to Australian law and governed by Fair Use principals for news reporting and research purposes. AFP, UPI and IANS news wire stories are copyright Agence France-Presse, United Press International and Indo-Asia News Service. ESA news reports are copyright European Space Agency. All NASA sourced material is public domain. Additional copyrights may apply in whole or part to other bona fide parties. Advertising does not imply endorsement, agreement or approval of any opinions, statements or information provided by Space Media Network on any Web page published or hosted by Space Media Network. Privacy Statement All images and articles appearing on Space Media Network have been edited or digitally altered in some way. Any requests to remove copyright material will be acted upon in a timely and appropriate manner. Any attempt to extort money from Space Media Network will be ignored and reported to Australian Law Enforcement Agencies as a potential case of financial fraud involving the use of a telephonic carriage device or postal service.