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Tracking Seasonal Snows On Mars

Scientists made precise measurements from the orbiting laser over the course of the Martian year to create a portrait of the changing depth of the frozen carbon dioxide (CO2). The MOLA results show that a maximum of 1.5 to 2 meters of frozen material are deposited during the Martian winter. During the summer, the frozen CO2 evaporates and returns to the atmosphere. These two graphs show the maximum amount of 'snow' that accumulated over the northern and southern hemispheres. [Credit NASA/MOLA Project
Greenbelt - Dec 6, 2001
A global view of how Mars changes with the seasons has been provided by extremely precise observations from two investigations on NASA's Mars Global Surveyor (MGS) spacecraft.

Elevation and gravity measurements of Mars from MGS have been used to measure seasonal changes in the thickness of seasonal frost deposits and to provide the first direct measurement of their density. The observations were obtained from the Mars Orbiter Laser Altimeter (MOLA) and the spacecraft's radio tracking system.

Over the course of a Martian year, which consists of 687 Earth days, as much as a third of Mars' tenuous carbon dioxide (CO2) atmosphere "freezes out" during the winter in the northern and southern hemispheres.

A team consisting of Dr. David E. Smith of NASA's Goddard Space Flight Center (Greenbelt, Md.), and Drs. Maria T. Zuber and Gregory A. Neumann of the Massachusetts Institute of Technology, measured changes in the height of the Martian surface every two weeks. They showed that small changes in surface height correlate with the expected times of deposition and evaporation of CO2 from the surface.

The group also measured miniscule changes in the gravity field of Mars due to the movement of carbon dioxide, which allowed them to make the first measurement of the density of surface frost deposits.

"Snow on Mars is composed of dry ice and last year it reached a maximum depth of 1.5 to 2 meters near both the north and south poles," explained Smith, Principal Investigator of the laser altimeter investigation and lead author of the study published in the December 7 issue of Science.

"Snow on Mars is denser than it is on Earth, being more ice-like than powdery," noted Zuber, the Deputy Principal Investigator of the altimeter investigation. To isolate the signals, the group measured changes of 10 centimeters in the height of the surface of Mars, and changes of a couple parts per billion in the planet's global mass distribution.

The results will allow a better understanding of the Martian atmosphere, which will improve the ability to target future landers. In addition, carbon dioxide is the most abundant gas in the atmosphere of Mars and it is a greenhouse gas. "Characterizing the present-day behavior of CO2 is a necessary first step towards understanding past climates on Mars," noted Neumann.

Mars Global Surveyor is currently in its extended mapping mission, which runs until April 2002. The MOLA instrument was designed and built by the Laser Remote Sensing Branch of the Laboratory for Terrestrial Physics at Goddard.

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New Research Reveals Mars' Lumpy Magnetic Field
Boulder - Dec 3, 2001
New research from the University of Colorado at Boulder reveals that areas of the surface of Mars may be protected from the full force of solar radiation by areas of intensely magnetized crust.



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