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HiRISE 8K: Cerberus Fossae Fissures

This image shows several parallel segments of the Cerberus Fossae. This is a system of fissures formed by extension and stretching of the near-surface of Mars.

Full cutout on Flickr: flic.kr/p/2q6acXZ

NASA/JPL-Caltech/University of Arizona

HiRISE 3D: A Well-Preserved Impact Crater with Extensive Secondaries

This re-image was requested to confirm as to whether or not the crater here is responsible for all the secondaries observed on the steep slopes directly to the west of the impact site.

uahirise.org/anaglyph/ESP_0832

NASA/JPL-Caltech/University of Arizona

Muddy Ejecta Flow

The ejecta spraying out of the new crater landed back on the ground and then continued to flow away from the new crater, and the smaller crater was in the way of that muddy flow. You can see where much of the muddy material flowed around the crater’s uplifted rim and forms a squiggly ridge, but you can also see where the mud flow slid over the rim and ponded down in the bottom of the crater.

uahirise.org/hipod/ESP_046843_
NASA/JPL-Caltech/University of Arizona

HiRISE 4K: Valles Marineris Wall Rock

Since Valles Marineris cuts into the side of the Tharsis volcanic rise, it is likely that these layers are lava flows.

Full cutout on Flickr: flic.kr/p/2q692tc

NASA/JPL-Caltech/University of Arizona

HiRISE 3D: A Channel Enters a Crater

At least it wasn’t entering a bar. There is some faulting of icy crater fill as well in this image.

uahirise.org/anaglyph/ESP_0833

NASA/JPL-Caltech/University of Arizona

Colorful Bedrock Exposed in a Landslide Scarp

The steep walls of Valles Marineris sometimes fail, creating giant landslides. This provides a clean exposure of the underlying bedrock.

This image of the north wall of Ganges Chasma reveals bedrock with diverse colors and textures, representing different geologic units.

ID: ESP_047502_1730
date: 13 September 2016
altitude: 264 km

uahirise.org/hipod/ESP_047502_
NASA/JPL-Caltech/University of Arizona

HiRISE 3D: Possible Spatter Cones East of Arsia Mons

A “spatter cone” is a miniature volcanic cone on a crater floor or lava flow from which lava is ejected in drops or gobs.

uahirise.org/anaglyph/ESP_0828

NASA/JPL-Caltech/University of Arizona

The Coolest Landscape on Mars (or Earth)

Many Martian landscapes contain features that are familiar to ones we find on Earth, like river valleys, cliffs, glaciers and volcanos.

However, Mars has an exotic side too, with landscapes that are alien to Earthlings. This image shows one of these exotic locales at the South Pole.

More: uahirise.org/hipod/ESP_047304_
NASA/JPL-Caltech/University of Arizona

How Gas Carves Channels

The ground likely started as polygonal patterned ground (common in water-ice-rich surfaces), and then escaping gas widened the channels. Fans of dark material are bits of the surface carried onto the top of the seasonal ice layer and deposited in a direction determined by local winds.

ID: ESP_046845_0975
date: 24 July 2016
altitude: 247 km

uahirise.org/hipod/ESP_046845_
NASA/JPL-Caltech/University of Arizona

HiPOD: Bang and Whoosh!

This HiRISE image captures a new, dated (within about a decade) impact crater that triggered a slope streak. When the meteoroid hit the surface and exploded to make the crater, it also destabilized the slope and initiated this avalanche.

Slope streaks are created when dry dust avalanches leave behind dark swaths on dusty Martian hills.

uahirise.org/hipod/ESP_054066_
NASA/JPL-Caltech/University of Arizona

HiPOD: Martian Meanders and Scroll-Bars

Channels become inverted when the sediments filling them become more resistant to erosion than the surrounding material. Here, the most likely process leading to hardening of the channel material is chemical cementation by precipitation of minerals. Once the surrounding material erodes, the channel is left standing as a ridge.

uahirise.org/hipod/ESP_020673_

NASA/JPL-Caltech/University of Arizona

HiPOD: It Shrinks! It Cracks!

Here, we have a crater that lies close to Elysium, a major volcanic system on Mars. The whole region surrounding the crater was at some point covered by lava from the volcano creating vast lava plains, and in the process, flooding impact craters in their way.

More: uahirise.org/hipod/ESP_049723_

NASA/JPL-Caltech/University of Arizona

HiPOD: Dune Transition in the High Southern Latitudes

This image shows a moderate sized dune field (-72 degrees latitude) that displays most of these morphologic features and a noticeable absence of dune crests. This transition is likely related to polar processes, ground ice, and changes in regional climate relative to the rest of the planet.

More: uahirise.org/hipod/ESP_049502_

NASA/JPL-Caltech/UArizona

HiRISE 8K: The Floor of Kasei Valles

This HiRISE image shows a wonderfully complex surface on the floor of this ancient flood-carved canyon.

Full cutout: flic.kr/p/2q3Kpyf

NASA/JPL-Caltech/UArizona

HiRISE 3D: Gullied Slope Monitoring

These impressive gullies are worth not only having stereo images, but also tracking changes over time.

Full image: uahirise.org/anaglyph/ESP_0834

NASA/JPL-Caltech/UArizona

HiPOD: A South Polar Pit or an Impact Crater?

It is late summer in the Southern Hemisphere, so the Sun is low in the sky and subtle topography is accentuated in orbital images.

We see many shallow pits in the bright residual cap of carbon dioxide ice (also called “Swiss cheese terrain”). There is also a deeper, circular formation that penetrates through the ice and dust. This might be an impact crater or it could be a collapse pit.

uahirise.org/hipod/ESP_049972_
NASA/JPL-Caltech/UArizona

HiRISE 4K: Holden Crater Megabreccia

This HiRISE image covers the southwest portion of the terraces and floor of Holden Crater situated in southwest Margaritifer Terra.

Full cutout: flic.kr/p/2q3woMn

NASA/JPL-Caltech/UArizona

HiRISE 3D: Channels in Tyrrhena Terra

The objective of this observation is to examine channels that appear to end at the same level. Maybe they were emptying into a lake.

uahirise.org/anaglyph/ESP_0833

NASA/JPL-Caltech/UArizona

HiPOD: A Woodpecker on Mars?

This image reveals some bright materials on a crater floor, part of which forms an outline similar to a woodpecker. This bright material appears to have collected in relative topographic low areas, perhaps bright materials carried and deposited by water in Mars’ past. The concentric troughs (woodpecker's body) may be collapse features as seen elsewhere nearby.

uahirise.org/hipod/ESP_083512_
NASA/JPL-Caltech/UArizona

HiPOD: An Ancient Valley Network

How the climate of Mars could have supported a warmer and wetter environment has been the subject of scientific debates for 40 years. A full-resolution enhanced color closeup reveals details in the bedrock and dunes on the valley floor (upper left). The bedrock of ancient Mars has been hardened and cemented by groundwater.

uahirise.org/hipod/ESP_049977_
NASA/JPL-Caltech/UArizona

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HiRISE (NASA)

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