JPL
Careers
Education
Science & Technology
JPL Logo
JPL Logo
Image

Slab Ice and Snow Flurries in the Mars Northern Polar Night

Jet Propulsion Laboratory https://www.jpl.nasa.gov/ Sept. 18, 1999
NASA's Mars Global Surveyor shows slab ice and snow flurries in the Mars northern polar night.

In the 1970s, spacecraft observations of the polar regions of Mars revealed polar brightness temperatures that were significantly below the expected kinetic temperatures for CO_2 sublimation. For the past few decades, we have speculated as to the nature of these Martian polar cold spots. Are the cold spots surface or atmospheric effects? Do the cold spots behave as blackbodies, or do they have emissivities less than unity? Two developments have allowed us to answer these questions: (1) the measurement of the optical constants of CO_2 by Gary Hansen (1997) and (2) direct thermal spectroscopy of the north polar cap by MGS TES (Kieffer et al., 1998).

With a few possible excepts, cold spots are surface effects. The CO_2 frost in cold regions of the polar cap show a strong absorption feature at 25 microns that is indicative of fine-grained CO_2, thus explaining the low brightness temperatures observed by the Viking IRTM. Brightness temperatures at 18 microns are usually consistent with expected kinetic surface temperatures. In many cases, the brightness temperatures at 15 microns reveals an atmosphere that is too warm for CO_2 condensation to occur.

Cold spot formation is strongly dependent on topography, forming preferentially near craters and on slopes of the perennial cap. While cold spots are surface effects, the formation of the fine-grained CO_2 deposits is not entirely restricted to surface formation. TES data, combined with MOLA cloud data (Ivanov and Muhleman, 1999), suggest that at least a few of these cold spots were formed from atmospheric condensates.

Another major component to the north polar cap composition is slab CO_2 ice. Slab ice has near unity spectral emissivity (Kieffer et al.,1999; Hansen, 1998) and appears to have a low albedo. Two explanations for the low albedo are that the slab ice is intrinsically dark or the slab ice is transparent and we are seeing through to the underlying substrate. Regions of the cap where T_18-T_25 < 5degrees have slab ice. Slab ice is the dominant end member of the polar cap at latitudes south of the polar night.

Download JPG
Download TIFF
Mission
Target
  • Mars
Spacecraft
  • Mars Global Surveyor Orbiter
Instrument
  • Thermal Emission Spectrometer
Credit
NASA/JPL/USGS Flagstaff

Keep Exploring

A Water Ice Map for Mars

Jezero Crater's Ancient Lakeshore

Growth and Retreat of the CO2 Ice at the Martian Poles

Landscape of Former Lakes and Streams on Northern Mars

Hydrologic Modeling of Relatively Recent Martian Streams and Lake

Newly Detailed Map of Mars' Crustal Thickness

Using Gravity and Topography to Map Mars' Crustal Thickness

Maps of Recurrent Slope Linea Markings on Mars

Locations of Ice-Exposing Fresh Craters on Mars

NASA's Mars Landing Sites, including InSight

About JPL
Who We Are
Directors
Careers
Internships
The JPL Story
JPL Achievements
Documentary Series
JPL Annual Report
Executive Council
Missions
Current
Past
Future
All
News
All
Earth
Solar System
Stars and Galaxies
Eyes on the News
Subscribe to JPL News
Galleries
Images
Videos
Audio
Podcasts
Apps
Visions of the Future
Slice of History
Robotics at JPL
Events
Lecture Series
Speakers Bureau
Calendar
Visit
Public Tours
Virtual Tour
Directions and Maps
Topics
JPL Life
Solar System
Mars
Earth
Climate Change
Exoplanets
Stars and Galaxies
Robotics
More
Asteroid Watch
NASA's Eyes Visualizations
Universe - Internal Newsletter
Social Media
Accessibility at NASA
Contact Us
Get the Latest from JPL
Follow Us

JPL is a federally funded research and development center managed for NASA by Caltech.

More from JPL
Careers
Education
Science & Technology
Acquisition
JPL Store
Careers
Education
Science & Technology
Acquisition
JPL Store
Related NASA Sites
Basics of Spaceflight
NASA Kids Science - Earth
Earth / Global Climate Change
Exoplanet Exploration
Mars Exploration
Solar System Exploration
Space Place
NASA's Eyes Visualization Project
Voyager Interstellar Mission
NASA
Caltech
Privacy
Image Policy
FAQ
Feedback
Version: v3.1.3 - 5e83a9a
Site Managers:Emilee Richardson, Alicia Cermak
Site Editors:Steve Carney
CL#:21-0018