 |
|
Martian Snow Source of Tropical Glaciers, Research Team Reports
January 20, 2006Snow is the source of glacial deposits found at the base of the majestic volcanoes and mountains dotting the mid-latitude and tropical regions of Mars. Based on an innovative blend of geological observations and climate modeling created by a team of American and French scientists, the finding appears in Science.
Discovery of the source of the tropical glaciers ends a 30-year Martian mystery. In 1976, cameras aboard NASA's Viking Mission to Mars captured unprecedented views of the canyons and craters of the Red Planet - including polar ice caps. Recent spacecraft data reveal curious rock-strewn deposits found at the foot of volcanoes and mountains close to the equator.
In the last two years, Brown University planetary geologist James Head and other Mars experts have offered up mounting evidence that these ice-rich landforms - which appear to ooze out of valleys in the Eastern Hellas region or puddle on the western flanks of the three giant volcanoes known as the Tharsis Montes - are the remnants of geologically recent glaciers.
But how could ice form so far from the planet's poles? Long-ago landslides? Upwelling from an underground reservoir?
"What we found," Head said, "was that the glaciers were formed from snow brought from the polar regions."
A few million years ago, Head and the team explain, the axis of Mars was tilted in such a way that the poles were pointing dramatically closer to the sun. Sun rays hit the polar ice caps nearly head on, releasing massive amounts of water vapor into the atmosphere. Monsoon-like winds carried the water vapor south, up and over the soaring slopes of the Tharsis Montes volcanoes and Olympus Mons, the solar system's largest volcano. The vapor cooled, condensed and fell in the form of snow. Over time, the snow turned to ice, the ice formed glaciers, and the glaciers created the deposits seen today.
The Martian precipitation cycle described in Science is similar to the one on Earth that routinely blankets mountainous regions such as the Rockies in snow. Another Earthly analog: the tropical mountain glaciers described in the article can be found in places such as Mount Kilimanjaro in Africa or the Andean peaks in South America.
The team arrived at their finding using a climate model that simulated the present-day Mars water cycle but assumed a 45-degree axial tilt found on the planet millions of years ago. The model created a near-perfect match of predicted ice accumulation and direct observational evidence from images taken by the Mars Express, Mars Global Surveyor and Mars Odyssey orbiters.
"The findings are important because they tell us that Mars has experienced big climate changes in the past, the kinds of climate change that led to the Great Ice Age here on Earth," said Head, the Louis and Elizabeth Scherck Distinguished Professor at Brown. "The findings are also interesting because this precipitation pattern may have left pockets of ice scattered across Mars. This is good information for NASA as officials plan future space missions, particularly with astronauts."
The team also includes scientists from the Institut Pierre Simon Laplace and the Institut de Mecanique in Paris as well as the NASA Ames Research Center. The Centre National de la Recherche Scientifique, the European Space Agency and NASA funded the work.
Brown University
But how could ice form so far from the planet's poles? Long-ago landslides? Upwelling from an underground reservoir?
"What we found," Head said, "was that the glaciers were formed from snow brought from the polar regions."
A few million years ago, Head and the team explain, the axis of Mars was tilted in such a way that the poles were pointing dramatically closer to the sun. Sun rays hit the polar ice caps nearly head on, releasing massive amounts of water vapor into the atmosphere. Monsoon-like winds carried the water vapor south, up and over the soaring slopes of the Tharsis Montes volcanoes and Olympus Mons, the solar system's largest volcano. The vapor cooled, condensed and fell in the form of snow. Over time, the snow turned to ice, the ice formed glaciers, and the glaciers created the deposits seen today.
The Martian precipitation cycle described in Science is similar to the one on Earth that routinely blankets mountainous regions such as the Rockies in snow. Another Earthly analog: the tropical mountain glaciers described in the article can be found in places such as Mount Kilimanjaro in Africa or the Andean peaks in South America.
The team arrived at their finding using a climate model that simulated the present-day Mars water cycle but assumed a 45-degree axial tilt found on the planet millions of years ago. The model created a near-perfect match of predicted ice accumulation and direct observational evidence from images taken by the Mars Express, Mars Global Surveyor and Mars Odyssey orbiters.
"The findings are important because they tell us that Mars has experienced big climate changes in the past, the kinds of climate change that led to the Great Ice Age here on Earth," said Head, the Louis and Elizabeth Scherck Distinguished Professor at Brown. "The findings are also interesting because this precipitation pattern may have left pockets of ice scattered across Mars. This is good information for NASA as officials plan future space missions, particularly with astronauts."
The team also includes scientists from the Institut Pierre Simon Laplace and the Institut de Mecanique in Paris as well as the NASA Ames Research Center. The Centre National de la Recherche Scientifique, the European Space Agency and NASA funded the work.
Brown University
Mars Current Events and Mars News RSSWhat to do with rotten, smelly garbage when the nearest dumpster is 100 million miles away
No one takes out the trash in space. In the cramped living quarters of a space station, garbage can pile up, spoil and become a health hazard for astronauts.
Very cold ice films in laboratory reveal mysteries of universe
The universe is full of water, mostly in the form of very cold ice films deposited on interstellar dust particles, but until recently little was known about the detailed small scale structure.
New spaceship force field makes Mars trip possible
According to the international space agencies, "Space Weather" is the single greatest obstacle to deep space travel. Radiation from the sun and cosmic rays pose a deadly threat to astronauts in space.
'Digital Dark Age' may doom some data
What stands a better chance of surviving 50 years from now, a framed photograph or a 10-megabyte digital photo file on your computer's hard drive?
Solar System's Young Twin Has Two Asteroid Belts
Astronomers have discovered that the nearby star Epsilon Eridani has two rocky asteroid belts and an outer icy ring, making it a triple-ring system. The inner asteroid belt is a virtual twin of the belt in our solar system, while the outer asteroid belt holds 20 times more material. Moreover, the presence of these three rings of material implies that unseen planets confine and shape them.
Sensitive laser instrument could aid search for life on Mars
Minuscule traces of cells can be detected in a mineral likely present on Mars, a new study shows. The results, obtained using a technique developed at the U.S. Department of Energy's Idaho National Laboratory, could help mission scientists choose Martian surface samples with the most promise for yielding signs of life.
MIT finds young planets stay hotter longer
Hot, young planets may be easier to spot because they stay that way longer than astronomers have thought, according to new work by MIT planetary scientist Linda Elkins-Tanton.
U.S.-Led, International AGAP Team Poised to Probe One of Antarctica's Last Unexplored Places
A U.S.-led, multinational team of scientists from six nations will pierce the mysteries of one of the globe's last major unexplored places this month. Using sophisticated airborne radar and other Information Age tools and techniques, the scientists will virtually "peel away" more than four kilometers (2.5 miles) of ice covering an Antarctic mountain range that rivals the Alps in elevation, and which current scientific knowledge suggests shouldn't be there at all.
NASA Supercomputer Shows How Dust Rings Point to Exo-Earths
Supercomputer simulations of dusty disks around sunlike stars show that planets nearly as small as Mars can create patterns that future telescopes may be able to detect. The research points to a new avenue in the search for habitable planets.
Looking for water on Mars
NASA's Phoenix Scout Lander reached Mars on May 25,, opened a soils lab, and started looking for water. Phoenix uses a robotic scoop arm to deliver regolith samples to the suite of instruments aboard the Lander--with one exception.
More Mars Current Events and Mars News Articles
 | Men Are from Mars, Women Are from Venus: The Classic Guide to Understanding the Opposite Sex by John Gray Once upon a time Martians and Venusians met, fell in love, and had happy relationships together because they respected and accepted their differences. Then they came to Earth and amnesia set in: they forgot they were from different planets. Based on years of successful counseling of couples and individuals, Men Are from Mars, Women Are from Venus has helped millions of couples transform their... |
 | Mars and Venus on a Date: A Guide for Navigating the 5 Stages of Dating to Create a Loving and Lasting Relationship by John Gray Will I Ever Find My Soul Mate? Whether you are recently separated, divorced, or you have been in the singles scene for longer than you want, this insightful guide will help you navigate the dating maze and find that special person you've been waiting for. By discussing the differences between men and women, Mars and Venus on a Date provides singles with: A thorough understanding of the five... |
 | Mars 3-D: A Rover's-Eye View of the Red Planet by Jim Bell What would it be like to visit Mars—to explore the distinctive, untouched terrain that inspired astronomers and stirred so many sci-fi writers’ imaginations? Two highly capable robotic geologists—Spirit and Opportunity—made that amazing voyage, and spent the last four years roaming the Red Planet’s unique landscape. Thanks to 120 stunning 3-D and color images shot by these rovers, we... |
 | Why Mars and Venus Collide: Improving Relationships by Understanding How Men and Women Cope Differently with Stress by John Gray Once upon a time, Martians and Venusians functioned in separate worlds. But in today's hectic and career-oriented environment, relationships have become a lot more complicated, and men and women are experiencing unprecedented levels of stress. To add to the increasing tension, most men and women are also completely unaware that they are actually hardwired to react differently to the stress. It's... |
 | Mars and Venus in the Bedroom: A Guide to Lasting Romance and Passion by John Gray The author of the phenomenal # 1 New York Times bestseller Men Are from Mars, Women Are from Venus, John Gray has helped millions of men and women achieve lasting love and happiness. Now he turns his wisdom and expertise to one of the most sensitive and essential issues in a relationship: sex. In Mars and Venus in the Bedroom, he explains how we can use advanced relationship skills to keep the... |
 | Mars and Venus Together Forever: Relationship Skills for Lasting Love by John Gray Is it really possible to be in love forever? New York Times bestselling author John Gray will show you how in Mars and Venus Together Forever. This resource guide contains relationship skills that will help you and your mate sustain a lasting relationship that only grows richer with time. Mars and Venus Together Forever educates the different sexes on: What your mother couldn't tell you and your... |
 | Men are From Mars, Women are From Venus Low Price CD Once upon a time, Martians and Venusians met, fell in love, and had happy relationships together because they respected and accepted their differences. Then they came to Earth and amnesia set in: they forgot they were from different planets. Using this metaphor to illustrate the commonly occurring conflicts between men and women, Dr. John Gray explains how these differences can come between the... |
 | Red Mars (Mars Trilogy) by Kim Stanley Robinson In his most ambitious project to date, award-winning author Kim Stanley Robinson utilizes years of research and cutting-edge science in the first of three novels that will chronicle the colonization of Mars.For eons, sandstorms have swept the barren desolate landscape of the red planet. For centuries, Mars has beckoned to mankind to come and conquer its hostile climate. Now, in the year 2026, a... |
 | Blue Mars (Mars Trilogy) by Kim Stanley Robinson The red planet is red no longer, as Mars has become a perfectly inhabitable world. But while Mars flourishes, Earth is threatened by overpopulation and ecological disaster. Soon people look to Mars as a refuge, initiating a possible interplanetary conflict, as well as political strife between the Reds, who wish to preserve the planet in its desert state, and the Green "terraformers". The... |
 | Mars Needs Moms! Milo doesn’t get it: What’s the big deal about moms? They’re just slavedriving broccoli bullies. Yet they are worshipped the world over! Perhaps even the galaxy over—because here come Martians and they’re after one thing only: moms. Milo’s mom in particular. Who better to drive them to soccer practice and to pizza parties? That’s quite a long way to come for a mom—could it be that... |
| © 2008 BrightSurf.com |