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When NASA’s Mars Pathfinder landed on the Red Planet in 1997, it released a rover that monitored the landscape, recorded weather conditions, and broadcast pictures of the surface to Earth. Presently, there is no official date or funding for a human mission to Mars, but the knowledge gained from the Pathfinder and other missions would contribute to plans for eventual human exploration of the planet. Before astronauts can take the first steps on Mars, however, much research needs to be done to guide mission planners and hardware designers. A new report from the National Academies’ National Research Council outlines the environmental, chemical, and biological hazards that NASA needs to assess before sending a human mission to Mars.

The agency’s robotic engineering and design program should be expanded to develop larger rovers specifically for human use in exploration and surface transport, the report says. To ensure a safe landing and to aid rover and human movement on the planet, NASA should develop an accurate high-resolution, three-dimensional map of the terrain that would be explored, and assess the land’s makeup to determine its strength and stability. In addition, when a spacecraft lands on Mars, soil and dust might be brought in through the air lock, which occurred during the Apollo missions to the moon. Potential contamination of the astronaut habitat while on the martian surface could pose a health hazard to the crew. For example, dust could contain high concentrations of sulfur and chlorine, compounds that could degrade human lung tissue if inhaled and corrode equipment.

There is also uncertainty as to the quantity of toxic metals, such as hexavalent chromium, in the soil. While small amounts of these metals may not affect the astronauts immediately, they could have long-term effects, such as cancer. Robotic sampling of soil and airborne dust could determine the presence and extent of any harmful organisms or compounds. If certain experiments, such as testing for chromium, cannot be conducted on the Mars surface, a sample must be returned to the Earth for evaluation.

Although chances are slim that life exists on the planet, NASA must identify zones of minimal biologic risk to humans through unmanned missions, using organic carbon detection techniques or by analyzing a sample returned to Earth. At the same time, NASA needs to implement a series of safeguards to protect the Earth from potential contamination when the missions return from space.

NASA and its international partners plan to send data-gathering robotic missions to Mars every two years until 2011 to study the environment, climate, and geology, and to determine if life ever arose on the planet.

This study was requested and funded by NASA. The National Research Council is the principal operating arm of the National Academy of Sciences and the National Academy of Engineering. It is a private, nonprofit institution that provides science and technology advice under a congressional charter. A committee roster follows.

The report Safe on Mars: Precursor Measurements Necessary to Support Human Operations on the Martian Surface is available on the Internet at Copies will be available for purchase later this summer from the National Academy Press; tel. (202) 334-3313 or 1-800-624-6242. Reporters may obtain a pre-publication copy from the Office of News and Public Information (contacts listed above).

Division on Engineering and Physical Sciences
Aeronautics and Space Engineering Board

Committee on Precursor Measurements Necessary to Support
Human Operations on the Surface of Mars

Frederick H. Hauck (chair)
President and Chief Executive Officer
AXA Space
Bethesda, Md.

Harry Y. McSween Jr. (vice chair)
Department of Geological Sciences, and
Distinguished Professor of Science
University of Tennessee

Cynthia Breazeal
Robotic Presence Group
Media Lab
Massachusetts Institute of Technology

Benton C. Clark
Chief Scientist for Flight Systems
Lockheed Martin Astronautics

Von R. Eshleman *
Professor Emeritus
Stanford University
Stanford, Calif.

John Haas
Group Leader
New Technologies Group
New England Division
Applied Research Associates
South Royalton, Vt.

Jon B. Reid
Department of Environmental Health
Medical College
University of Cincinnati, and
Consultant to the Environmental Protection

Jonathan Richmond
Office of Health and Safety
Centers for Disease Control and Prevention

Ronald E. Turner
Principal Scientist
Arlington, Va.

William L. Whittaker
Fredkin Professor of Robotics
Robotics Institute
Carnegie Mellon University


Douglas H. Bennett
Study Director

* Member, National Academy of Engineering