The irregularly shaped rim of this bowl shaped impact crater is most likely due to erosion and the subsequent infilling of sediment.

NASA's Jet Propulsion Laboratory manages the 2001 Mars Odyssey mission for NASA's Office of Space Science, Washington, D.C. The Thermal Emission Imaging System (THEMIS) was developed by Arizona State University, Tempe, in collaboration with Raytheon Santa Barbara Remote Sensing. The THEMIS investigation is led by Dr. Philip Christensen at Arizona State University. Lockheed Martin Astronautics, Denver, is the prime contractor for the Odyssey project, and developed and built the orbiter. Mission operations are conducted jointly from Lockheed Martin and from JPL, a division of the California Institute of Technology in Pasadena.

Voir l'image PIA04006: Impact Crater sur le site de la NASA.

PIA04544: Crater in the Mangala Valles Region

Released 26 May 2003

Just south of the 2 km high main mass of the Medusae Fossae Formation, in a region dissected by channels, lies an unnamed crater that may have been filled by mud. A channel spills into this crater on its eastern side and may have delivered the material that now covers the floor of the crater. The subdued ridges may be wrinkle ridges in a preexisting lava flow that are now covered by a layer of sediment. The cracked surface is evidence for the subsequent deposition of mud.

Image information: VIS instrument. Latitude -6, Longitude 206.7 East (153.3 West). 19 meter/pixel resolution.

Voir l'image PIA04544: Crater in the Mangala Valles Region sur le site de la NASA.

PIA04538: Isidis Planitia

Released 23 May 2003

Small mounds with depressions at their summits follow curvilinear trends in this portion of Isidis Planitia. While their origin is still unknown, some scientists believe that these were formed by the interaction of lava and ice. The pitted terrain in the lower portion of this image may be secondary craters.

Image information: VIS instrument. Latitude 11.8, Longitude 94.7 East (265.3) meter/pixel resolution.

Voir l'image PIA04538: Isidis Planitia sur le site de la NASA.

PIA04001: Elysium Fossae

The grabens (fractures) that dominate this scene are located northwest of a large shield volcano called Elysium Mons. Layered rock is evident along the lips of the graben as are ripples on the floors of these features. Some shallow grabens are also seen in this region.

PIA03933: Elysium Windstreaks

Windstreaks are features caused by the interaction of wind and topographic landforms. The raised rims and bowls of impact craters causes a complex interaction such that the wind vortex in the lee of the crater can both scour away the surface dust and deposit it back in the center of the lee. If you look closely, you will see evidence of this in a darker "rim" enclosing a brighter interior.

These windstreaks are located on the lava flows of the Elysium volcanic complex.

Image information: VIS instrument. Latitude 22.7, Longitude 136.6 East (223.4 West). 36 meter/pixel resolution.

Voir l'image PIA03933: Elysium Windstreaks sur le site de la NASA.

PIA04412: Freedom Crater

Freedom crater, located in Acidalia Planitia, exhibits a concentric ring pattern in its interior, suggesting that there has been some movement of these materials towards the center of the crater. Slumping towards the center may have been caused by the presence of ground ice mixed in with the sediments. The origin for the scarps on the western edge of the interior deposit is unknown.

Image information: VIS instrument. Latitude 43.3, Longitude 351.3 East (8.7 West). 19 meter/pixel resolution.

Voir l'image PIA04412: Freedom Crater sur le site de la NASA.

PIA04073: Impact crater

Dark streaks emanating from within impact crater walls show evidence for mass movement of materials.

Voir l'image PIA04073: Impact crater sur le site de la NASA.

PIA04705: Outflow Channel

Released 8 August 2003

A large outflow channel was split and diverted around an obstacle just north of Memnonia Fossae. Images released on 11/06/02) and 05/28/03) may be a continuation of this channel and offer additional insight to the ancient flow of water and geologic history of this region.

Image information: VIS instrument. Latitude -13.6, Longitude 210.4 East (149.6 West). 19 meter/pixel resolution.

PIA04536: Kasei Valles

Released 21 May 2003

Just a small part of the huge Kasei Valles outflow channel is shown in this THEMIS visible image. Still, the awesome erosive power of the water that once flowed through this channel is evident. The different erosional levels of the channel indicate that it is likely that water flowed at several levels for some time. Today the area is covered by a layer of fine martian dust. The dark streaks seen on the cliff faces are the result of dust avalanches which have exposed the underlying rock.

Image information: VIS instrument. Latitude 24.9, Longitude 287.4 East (72.6) meter/pixel resolution.

Voir l'image PIA04536: Kasei Valles sur le site de la NASA.

PIA03948: Arsia Mons Mosaic

Arsia Mons is the southernmost of the Tharsis volcanoes. It is 270 miles in diameter, almost 12 miles high, and the summit caldera is 72 miles wide. For comparison, the largest volcano on Earth is Mauna Loa. From its base on the sea floor, Mauna Loa measures only 6.3 miles high and 75 miles in diameter. The image here is a mosaic of several daytime IR images. The indentations on the SW and NE sides align with the Pavonis Mons and Ascreaus Mons to the NE. This may indicate a large fracture/vent system was responsible for the eruptions that formed all three volcanoes.

Voir l'image PIA03948: Arsia Mons Mosaic sur le site de la NASA.

PIA04469: Northeastern Meridiani

The remarkable terrain at the "center" of the planet (0 degrees latitude and longitude) is called Meridiani Planum. It hosts a rare occurrence of gray crystalline hematite that will be visited by one of the two Mars Exploration Rovers leaving Earth this June. Just to the ENE of the hematite deposit is the eroded, layered terrain seen in this image, which lacks spectral evidence for hematite.

Image information: VIS instrument. Latitude 2.3, Longitude 3.6 East (365.4 West). 19 meter/pixel resolution.

Voir l'image PIA04469: Northeastern Meridiani sur le site de la NASA.

PIA04008: Libya Montes

This image shows the rugged cratered highland region of Libya Montes. Libya Montes forms part of the rim of an ancient impact basin called Isidis. This region of the highlands is fairly dissected with valley networks. There is still debate within the scientific community as to how valley networks themselves form: surface runoff (rainfall/snowmelt) or headward erosion via groundwater sapping. The degree of dissection here in this region suggests surface runoff rather than groundwater sapping. Small dunes are also visible on the floors of some of these channels.

Note: this THEMIS visual image has not been radiometrically nor geometrically calibrated for this preliminary release. An empirical correction has been performed to remove instrumental effects. A linear shift has been applied in the cross-track and down-track direction to approximate spacecraft and planetary motion. Fully calibrated and geometrically projected images will be released through the Planetary Data System in accordance with Project policies at a later time. NASA's Jet Propulsion Laboratory manages the 2001 Mars Odyssey mission for NASA's Office of Space Science, Washington, D.C. The Thermal Emission Imaging System (THEMIS) was developed by Arizona State University, Tempe, in collaboration with Raytheon Santa Barbara Remote Sensing. The THEMIS investigation is led by Dr. Philip Christensen at Arizona State University. Lockheed Martin Astronautics, Denver, is the prime contractor for the Odyssey project, and developed and built the orbiter. Mission operations are conducted jointly from Lockheed Martin and from JPL, a division of the California Institute of Technology in Pasadena.

Voir l'image PIA04008: Libya Montes sur le site de la NASA.

PIA03934: Alba Patera Windstreaks

These windstreaks are located northeast of Olympus Mons and southwest of Alba Patera. The lava flows the windstreaks occur on most likely originated from Alba Patera.

Image information: VIS instrument. Latitude 31.3, Longitude 235.1 East (124.9 West). 36 meter/pixel resolution.

Voir l'image PIA03934: Alba Patera Windstreaks sur le site de la NASA.

PIA04074: Pit-chain in Noctis Labyrinthus

These pit-chain features in south Noctis Labryinthus are oriented parallel to grabens in the area, suggesting that tensional stresses may have been responsible for their formation.

Voir l'image PIA04074: Pit-chain in Noctis Labyrinthus sur le site de la NASA.

PIA04702: Wind-sculpted Rocks

Released 5 August 2003

Because it does not rain on Mars, the wind is free to shape the surface to the extent that it becomes clear even in spacecraft images. This image shows parallel grooves oriented north to south, slowly eroded by winds of the same alignment. At the bottom of the image, a round mesa is most likely an inverted crater--that is, a crater that has withstood the wind erosion to such a degree that it remains on the surrounding plains as a protruding structure, rather than a hole in the ground.

Image information: VIS instrument. Latitude -12, Longitude 177.3 East (182.7 West). 19 meter/pixel resolution.

PIA04504: Craters, Pit Chains, and Graben, Oh My!

Released 6 May 2003

Craters, pit chains, graben, and lava flows south of Alba Patera, a volcano located within the Tharsis volcanic complex.

Image information: VIS instrument. Latitude 27.1, Longitude 245 East (115 West). 19 meter/pixel resolution.

Voir l'image PIA04504: Craters, Pit Chains, and Graben, Oh My! sur le site de la NASA.

PIA04119: Infilled Crater

As with yesterday's crater, this crater has been infilled by a material that likely contains volatiles. The linear to swirled surface marking indicate the the fill flowed as it was filling the crater interior. The volatile could be ice, in which case the flow features are related to glacial action. Or the volatile could have been water, and the infilling material was mud.

Image information: VIS instrument. Latitude 36, Longitude 46.1 East (313.9 West). 18 meter/pixel resolution.

Voir l'image PIA04119: Infilled Crater sur le site de la NASA.

PIA04578: Volcanic Surface Textures

Released 16 June 2003

The platy surface texture observed in this THEMIS image of the vast plains southeast of the volcano Elysium Mons likely formed by very fluid cooling lava. Variations in the surface texture may reflect different cooling or flow rates of the lava. The lack of any large impact craters also points to a relatively young age for these volcanic materials. The two largest impact craters occur in the higher plateau unit indicating that these materials are older.

Image information: VIS instrument. Latitude 11.6, Longitude 182.4 East (177.6 West). 19 meter/pixel resolution.

Voir l'image PIA04578: Volcanic Surface Textures sur le site de la NASA.

PIA04090: Layered Deposits in Western Candor Chasma

The layered deposits in this Valles Marineris canyon are heavily eroded by the wind into an impressive array of yardangs and swirling patterns of layers. The origin of the deposits remains a mystery.

Image information: VIS instrument. Latitude -5.2, Longitude 282.7 East (77.3 West). 19 meter/pixel resolution.

Voir l'image PIA04090: Layered Deposits in Western Candor Chasma sur le site de la NASA.

PIA04041: Acidalia Planitia

Much of the northern lowlands of Mars are thought to be relatively young volcanic flows with varying amounts of windblown dust cover. The lack of impact craters in this image indicate the young age of the surface. The lighter spots in the top portion of the image are likely small volcanic features, either small cones or perhaps small collapse pits. The appearance of the darker material abutting or flowing against the higher knobs and ridges is common in volcanic flow fields.

Voir l'image PIA04041: Acidalia Planitia sur le site de la NASA.

PIA04097: Nilosyrtis Mensae

The floors of these craters contain very interesting and enigmatic materials which may contain shallow subsurface ground ice with varying amounts of a sediment covering (mantle). When ice is covered with a critical thickness of sediment it is actually insulated and can survive longer than cleaner exposed ice. The ablation and sublimation of the ice causes a chaotic topography to develop with high and low regions. This may explain the relief seen on the crater floors. The terrain outside of the craters appears muted because it is most likely mantled with a dusty icy covering. This region of Mars is located along the highland/lowland boundary dichotomy.

Image information: VIS instrument. Latitude 35.1, Longitude 71 East (289 West). 19 meter/pixel resolution.

Voir l'image PIA04097: Nilosyrtis Mensae sur le site de la NASA.

PIA04046: Tempe Terra

This image is from a region of Mars called Tempe Terra, which is located between the topographically high Tharsis Region and Acidalia Planitia, a large low albedo region of in the Martian northern hemisphere. This image displays a number of interesting features. There are several channels that run through the image. It is unclear if there was once lava or water running through these channels. Much of the terrain in the image appears dissected and eroded. There are a number of circular features that resemble the remnants of older craters that were mostly eroded away. The variety of the conditions of the craters indicates that this surface has been modified over a long time period. There is also a fine texture to many surfaces. This texture could also be possibly volcanic or related to ground ice.

Voir l'image PIA04046: Tempe Terra sur le site de la NASA.

PIA04503: Volcano Vents

Released 5 May 2003

This low-relief shield volcano imaged with the THEMIS visible camera has two large vents which have erupted several individual lava flows. The positions of the origins of many of the flows indicate that it is probable that the vents are secondary structures that formed only after the shield was built up by eruptions from a central caldera.

Image information: VIS instrument. Latitude 17.6, Longitude 243.6 East (116.4 West). 19 meter/pixel resolution.

Voir l'image PIA04503: Volcano Vents sur le site de la NASA.

PIA04666: Remnants of MFF

Through the haze of a dissipating dust storm in the southern hemisphere, the strange landscape of the eroding Medusa Fossae Formation is still evident. In the southern portion of this image, small mounds of sedimentary material are all that remains of a once more continuous layer. This former layer was deposited on a pre-existing landscape that was itself already heavily eroded and disrupted.

Image information: VIS instrument. Latitude -4, Longitude 155 East (205 West). 19 meter/pixel resolution.

PIA04099: Chasma Boreal Dunes

The large sand sheets and dunes observed in this THEMIS image are located near the north pole of Mars. Changes in surface albedo across the image are likely due to variable thicknesses of dark sand that cover lighter surfaces. Layering of units is observed near the top of the image and is evidence to changing conditions throughout the geologic history of Mars.

Image information: VIS instrument. Latitude 37.1, Longitude 15.3 East (19.1 West). 19 meter/pixel resolution.

Voir l'image PIA04099: Chasma Boreal Dunes sur le site de la NASA.

PIA04048: Terra Cimmeria Highlands

This image shows the cratered highlands of Terra Cimmeria. The image contains several long troughs of Sirenum Fossae running primarily from left to right. These features are parallel to semi-parallel fractures called graben. In places the fractures postdate crater formation. This is best seen where fractures cut across the ejecta blanket of the large crater near the right center of the image.

Voir l'image PIA04048: Terra Cimmeria Highlands sur le site de la NASA.

PIA04429: Arsinoes Chaos

At the easternmost end of Valles Marineris, a rugged, jumbled terrain known as chaos displays a stratigraphy that could be described as precarious. Perched on top of the jumbled blocks is another layer of sedimentary material that is in the process of being eroded off the top. This material is etched by the wind into yardangs before it ultimately is stripped off to reveal the existing chaos.

Image information: VIS instrument. Latitude -7.8, Longitude 19.1 East (340.9 West). 19 meter/pixel resolution.

Voir l'image PIA04429: Arsinoes Chaos sur le site de la NASA.

PIA04034: Western Portion of Acheron Fossae

Located north of Olympus Mons and west of Alba Patera, Acheron Fossae provides a record of early tectonic activity in the Tharsis region. Acheron Fossae is a relatively high standing region characterized by multiple subparallel graben. As seen in the image, the graben trend generally to the northwest. The entire area predates the Alba Patera flows (which embay the eastern most Acheron grabens) and the Olympus Mons volcano (one of the youngest Tharsis features). The subdued nature of the highstanding hills, the erosion the graben walls, the eroded rims of all the visible craters, and the wind etching of the flat surfaces all help indicate the great age of Acheron Fossae.

Voir l'image PIA04034: Western Portion of Acheron Fossae sur le site de la NASA.

PIA04455: Daedalia Planum

Interesting textures on lava flows in Daedalia Planum, southwest of the Tharsis volcanoes.

Image information: VIS instrument. Latitude -20.3, Longitude 226.1 East (133.9 West). 19 meter/pixel resolution.

Voir l'image PIA04455: Daedalia Planum sur le site de la NASA.

PIA03973: Arsia Mons Lava Flows

This VIS image of lava flows to the west of Arsia Mons looks very similar to the lava flows south of Arsia Mons. It is very likely that the flows were occurring at the same time(s) in both areas.

Image information: VIS instrument. Latitude -2.9, Longitude 228.5 East (131.5 West). 17 meter/pixel resolution.

PIA04033: Geological Time on Display in Arabia Terra

This scene from the dust covered plains of eastern Arabia Terra portrays a range of geological time. Three craters at the center of the image capture some of this range. Two have the classic bowl-shape of small, relatively recent craters while the one just to the north has seen much more history. Its rim has been scoured away by erosion and its floor has been filled in by material likely of a sedimentary nature. The channels that wind through the scene may be the oldest features present while the relatively dark streaks scattered about could have been produced in the past few years or even months as winds remove a layer of dust to reveal darker material below.

Voir l'image PIA04033: Geological Time on Display in Arabia Terra sur le site de la NASA.

PIA04452: Dunes

This image shows relatively dark coarse grained material forming individual dunes coalescing into a relatively uniform sand sheet. The origin of the dark sand that formed these dunes have been suggested to be the northern polar layered deposits.

Image information: VIS instrument. Latitude 77.7, Longitude 309.4 East (50.6 West). 19 meter/pixel resolution.

Voir l'image PIA04452: Dunes sur le site de la NASA.

PIA04576: Lava-Filled Craters

Released 12 June 2003

Craters and hills form high standing streamlined plateaus or islands in a channeled area. The plateaus are rounded in the upstream direction and taper to a point in the downstream direction, indicating that the direction of flow in this area was roughly south to north, or bottom to top. The channels appear to be filled with lava flow deposits that are raised above the channel in some areas. A lava flow diverges around a small streamlined hill near the bottom of the image and then merges again around the northern end of it. Near the top of the image is a crater with a breach on the east (right) side that allowed the lava to flow in, leaving a lobate, high standing deposit. The channels may have been formed by the lava flows that currently fill them or there may have been flow of liquid water that created them before the lava was emplaced.

Image information: VIS instrument. Latitude 16, Longitude 183 East (177 West). 19 meter/pixel resolution.

Voir l'image PIA04576: Lava-Filled Craters sur le site de la NASA.

PIA04661: Gusev Crater

Released 25 July 2003

Wrinkle ridges deform the plains in the bottom of Gusev crater, destination of the MER "Spirit" rover. The plains were likely created from a flood basalt with ridges forming where there were compressional forces. Dark wind streaks come together to form a dark spot at the bottom of the image where the wind has removed a thin layer of bright dust off a dark surface. On the left side of the image a portion of a lobe of material is visible, which may have resulted from a mud or debris flow. This feature was recently identified by the THEMIS team and may represent the most recent deposit in the crater involving water.

Image information: VIS instrument. Latitude -13.9, Longitude 175.4 East (184.6 West). 19 meter/pixel resolution.

PIA04022: Kasei Vallis Streamlined Island

Except for the loss of its ring of ejecta, the crater at the leading edge of a streamlined island in Kasei Vallis shows no hint of the catastrophic floods that passed by it. Kasei Vallis is one of several major outflow channel systems that were active over 3 billion years ago. The intense floods scoured the landscape, eroding craters and producing streamlined islands. But in a close-up view, the evidence for these floods is not apparent. This true of the most similar terrestrial example, the channeled scablands of eastern Washington which also were formed by a catastrophic flood.

Voir l'image PIA04022: Kasei Vallis Streamlined Island sur le site de la NASA.

PIA04443: Polar Dunes

Dunes in the Vastitas Borealis region of Mars. These sand seas migrate around the north polar cap following the strong polar vortex winds.

Image information: VIS instrument. Latitude 77.3, Longitude 87.3 East (272.7 West). 19 meter/pixel resolution.

Voir l'image PIA04443: Polar Dunes sur le site de la NASA.

PIA04106: THEMIS Images as Art #59

Welcome to another brief interval of THEMIS Images as Art. For two weeks, we will be showcasing images for their aesthetic value rather than their science content. Portions of these images resemble things in our everyday lives, from animals to letters of the alphabet. We hope you enjoy our fanciful look at Mars!

Perhaps a louse, or maybe some sort of unicellular organism?

Voir l'image PIA04106: THEMIS Images as Art #59 sur le site de la NASA.

PIA04059: Arcadia Planitia

This THEMIS image of rounded hills and ridges in Arcadia Planitia shows a very intriguing geomorphic feature that may be attributed to the presence of an icy-rock mixture of material. Smooth aprons of material are observed to be preferentially located on the cold, north facing slopes of hills and extend further and beyond the deposits located on other sides. These smooth deposits are in stark contrast to the more rough surfaces that dominate the scene and it has been suggested that they represent a preserved mixture of ice and rock. How exactly this deposit forms still remains a mystery. They may have been ?pasted? onto the slopes and preserved on the cold facing sides or they may represent the result of downslope motion of material that is enhanced by the presence of ground ice. In either case, this interesting observation suggests that ground ice may still play an important role in the formation and preservation of martian surface features.

Voir l'image PIA04059: Arcadia Planitia sur le site de la NASA.

PIA04438: Textures in Arcadia Planitia

An unusual mix of textures is featured in this image of a surface east of the Phlegra Montes. Scabby mounds, commonly occurring around degraded craters, mix with a more muted, knobby terrain. Cutting through the scene are troughs associated with the quasi-polygonal features that are most evident in the MOLA context image. Given the mid-latitude location, it is likely that ground ice has had a role in shaping this landscape.

Image information: VIS instrument. Latitude 44.9, Longitude 175.9 East (184.1 West). 19 meter/pixel resolution.

Voir l'image PIA04438: Textures in Arcadia Planitia sur le site de la NASA.

PIA04088: Ridges swimming in a sea of dust

The muted terrain of northern Acidalia Planitia testifies to the fact that the region is heavily mantled with dust. The most interesting features in this image are the small terraces located along the flanks of the ridges and the patterned ground seen at the base of the largest ridge (upper right). These features appear to be classic examples of periglacial landforms and may indicate the presence of shallow subsurface ice.

Image information: VIS instrument. Latitude 54.9, Longitude 351 East (9 West). 19 meter/pixel resolution.

Voir l'image PIA04088: Ridges swimming in a sea of dust sur le site de la NASA.

PIA04560: Dalmatian Terrain

Released 10 June 2003

The polar regions of Mars have surfaces than can show dark spots on a brighter background. These surfaces are informally called "dalmatian terrain" because of their appearance. This image shows this type of terrain in a valley within the southern polar layered deposits, not too far from the south polar cap. Elsewhere, defrosting dunes have shown a similar spotted pattern. Perhaps this "dalmatian terrain" is a distinctive pattern that forms over all defrosting patches of sand.

Image information: VIS instrument. Latitude -70.7, Longitude 354.2 East (5.8 West). 19 meter/pixel resolution.

Voir l'image PIA04560: Dalmatian Terrain sur le site de la NASA.

PIA04025: Fluidized crater ejecta

The ejecta blanket of this crater does not resemble the blocky, discontinuous ejecta associated with most fresh craters on Mars. Rather, the continuous lobes of material seen around this crater are evidence that the crater ejecta were fluidized upon impact of the meteor that formed this crater. Impact ejecta become fluidized when a meteor strikes a surface that has a considerable volatile content. The volatiles mixed with the ejecta form a flow of material that moves outward from the crater and produces the morphology seen in this THEMIS visible image.

Voir l'image PIA04025: Fluidized crater ejecta sur le site de la NASA.

PIA04444: Martian Braille

Just north of the hematite deposit in Meridiani Planum, the remnants of a formerly extensive layer of material remain as isolated knobs and buttes. Note the transition from north to south in the size and frequency of these features, a reflection of the decreasing elevation along this trend.

Image information: VIS instrument. Latitude -0, Longitude 353 East (7 West). 19 meter/pixel resolution.

Voir l'image PIA04444: Martian Braille sur le site de la NASA.

PIA03965: Arsia Mons Overlapping Flows

This VIS image shows overlapping flows with different suface textures. In the middle of the image there is a round, darker feature -- a small volcano. To the left of the volcano a graben cuts across the lava flows.

Image information: VIS instrument. Latitude -18.5, Longitude 244.5 East (115.5 West). 17 meter/pixel resolution.

Voir l'image PIA03965: Arsia Mons Overlapping Flows sur le site de la NASA.

PIA04057: Cydonia Landscape

The Cydonia region on Mars straddles the boundary between the bright, dusty, cratered highlands to the southeast and the dark, relatively dust-free, lowland plains to the west. The countless mesas and buttes that cover the region are testament to the former presence of vast layers of material that have been stripped back over the eons leaving the isolated remnants seen in this THEMIS image. Evidence of larger masses of these remnants is visible to the south in the MOLA context image. Note the lobes of ejecta emanating from the large crater in the upper right of the THEMIS image. This style of ejecta is thought to arise when an impact occurs into water or ice-rich material, indicating that at least at the time of the impact such material was present.

Voir l'image PIA04057: Cydonia Landscape sur le site de la NASA.

PIA04436: Crater Chains

The large crater at the top of this THEMIS visible image has several other craters inside of it. Most noticeable are the craters that form a "chain" on the southern wall of the large crater. These craters are a wonderful example of secondary impacts. They were formed when large blocks of ejecta from an impact crashed back down onto the surface of Mars. Secondaries often form radial patterns around the impact crater that generated them, allowing researchers to trace them back to their origin.

Image information: VIS instrument. Latitude 19.3, Longitude 347.5 East (12.5 West). 19 meter/pixel resolution.

Voir l'image PIA04436: Crater Chains sur le site de la NASA.

PIA04086: Impact Crater

The relatively flat floor and terrace walls of this impact crater suggest the crater was partly infilled with sediment and subsequently eroded to its present day form. This type of observation is evidence for environmental change throughout the geologic history of Mars.

Image information: VIS instrument. Latitude 18.1, Longitude 136.3 East (223.7 West). 19 meter/pixel resolution.

Voir l'image PIA04086: Impact Crater sur le site de la NASA.

PIA04512: Ground Patterns

Released 13 May 2003

Goofy ground patterns near the striking split between the Martian southern highlands and northern lowlands.

Image information: VIS instrument. Latitude -4.7, Longitude 211.7East (148.3). 19 meter/pixel resolution.

Voir l'image PIA04512: Ground Patterns sur le site de la NASA.

PIA04263: Western Arcadia Planitia

This is a Mars Odyssey visible color image of an unnamed crater in western Arcadia Planitia (near 39 degrees N, 179 degrees E). The crater shows a number of interesting internal and external features that suggest that it has undergone substantial modification since it formed. These features include concentric layers and radial streaks of brighter, redder materials inside the crater, and a heavily degraded rim and ejecta blanket. The patterns inside the crater suggest that material has flowed or slumped towards the center. Other craters with features like this have been seen at both northern and southern mid latitudes The distribution of these kinds of craters suggests the possible influence of surface or subsurface ice in the formation of these enigmatic features. The image was taken on September 29, 2002 during late northern spring. This is an approximate true color image, generated from a long strip of visible red (654 nm), green (540 nm), and blue (425 nm) filter images that were calibrated using a combination of pre-flight measurements and Hubble images of Mars. The colors appear perhaps a bit darker than one might expect; this is most likely because the images were acquired in late afternoon (roughly 4:40 p.m. local solar time) and the low Sun angle results in an overall darker surface.

NASA's Jet Propulsion Laboratory manages the 2001 Mars Odyssey mission for NASA's Office of Space Science, Washington, D.C. The thermal emission imaging system was provided by Arizona State University, Tempe. Lockheed Martin Astronautics, Denver, Colo., is the prime contractor for the project, and developed and built the orbiter. Mission operations are conducted jointly from Lockheed Martin and from JPL, a division of the California Institute of Technology in Pasadena.

Voir l'image PIA04263: Western Arcadia Planitia sur le site de la NASA.

PIA04431: Lycus Sulci

The long sharp-crested features observed in this THEMIS image are named yardangs. Yardangs form by wind erosion and typically lie in the direction of the dominant wind. The impact crater and ejecta blanket appear to be overlying the yardangs and provide an interesting cross-cutting relationship. However, some yardangs appear to be actively forming on the ejecta material which indicates their formation as an ongoing process.

Image information: VIS instrument. Latitude 35.2, Longitude 223.6 East (136.4 West). 19 meter/pixel resolution.

Voir l'image PIA04431: Lycus Sulci sur le site de la NASA.

PIA04081: Complex and Perplexing Mars

A variegated mottled texture is readily apparent in this terrain located NW of the volcano, Elysium Mons. The Hrad Vallis (the Armenian word for Mars) channel system can be seen sauntering across the bumpy landscape of Utopia Planitia. The upper branch of Hrad Vallis has a large chunk of material on its floor; this chunk appears to have been rafted away from the material on the far left of the image (moved from left to right). This unusual because the channel flows toward the left. This material may be lava flows. Many craters in this region of the planet have their interiors filled with material. Pedestal craters (craters with ejecta blankets perched higher than the surrounding plains) are also found in these regions. These observations seem to imply that this region was once buried and has now been uncovered (exhumed). The exact causes and timing of these events are unknown.

Image information: VIS instrument. Latitude 40.6, Longitude 134.2 East (225.8 West). 19 meter/pixel resolution.

Voir l'image PIA04081: Complex and Perplexing Mars sur le site de la NASA.

PIA04108: Crater Comparison

These two craters show the two types of crater interiors found on Mars -- original and modified. The crater on the right has its original bowl shape. The crater of the left has had its interior modified by an infilling of lava.

Image information: VIS instrument. Latitude 27.6, Longitude 194.5 East (165.5 West). 37 meter/pixel resolution.

Voir l'image PIA04108: Crater Comparison sur le site de la NASA.

PIA04478: Erosion and Wind Deposition

Released 22 April 2003

Streamlined buttes and mesas are left as remnants of an erosive wind that has carried away sediments and even the rim of a small crater. Two wind directions are apparent in the buttes and mesas that cross each other at 90 degrees. Small dark dunes wind their way between the remnant towers, indicating that the work of the wind is an ongoing process.

Image information: VIS instrument. Latitude 5.3, Longitude 350.1 East (9.9 West). 19 meter/pixel resolution.

Voir l'image PIA04478: Erosion and Wind Deposition sur le site de la NASA.

PIA04019: Ares Vallis Polygons

This jumble of eroded ridges and mesas occurs within Ares Vallis, one of the largest catastrophic outflow channels on the planet. Floods raged through this channel, portions of which are up to 25 km wide, pouring out into the Chryse Basin to the north. Close inspection of the THEMIS image reveals polygonal shapes on the floor of the channel system. Polygonal terrain on Mars is fairly common although the variety of forms and scales of the polygons suggests multiple modes of origin. Those in Ares Vallis resemble giant desiccation polygons that form in soils on Earth when a moist layer at depth drys out. While polygons can form in icy soils (permafrost) and even lava flows, their presence in a channel thought to have been carved by flowing water is at least consistent with a mode of origin that involved liquid water.

Voir l'image PIA04019: Ares Vallis Polygons sur le site de la NASA.

PIA03959: Arsia Mons Southern Flank

The final VIS image of Arsia Mons is located on the southern flank of the volcano adjacent to the NE trending feature. There has been a significant amount of collapse features formed in this region.

Image information: VIS instrument. Latitude -11.1, Longitude 238.6 East (121.4 West). 17 meter/pixel resolution.

Voir l'image PIA03959: Arsia Mons Southern Flank sur le site de la NASA.

PIA03988: THEMIS Images as Art #53

Martian Unicorns?

Voir l'image PIA03988: THEMIS Images as Art #53 sur le site de la NASA.

PIA04713: Cross-Cutting Relationships

Released 25 August 2003

The several linear cross-cutting grabens and collapse features observed in this THEMIS image illustrate the relative timing of a series of complex geologic processes as more recent events produce features that overlap and intersect older ones. Some impact craters are observed to be cut grabens, suggesting an older impact event compared to impact craters that appear fresh and unmodified.

Image information: VIS instrument. Latitude 14.1, Longitude 236.3 East (123.7 West). 19 meter/pixel resolution.

PIA04404: Arabia Terra Streaks

Accumulations of thick dust give way down slopes, crater walls, and other steep terrain, leaving the dark streaks that are common in the dusty region of Arabia Terra.

Image information: VIS instrument. Latitude 14.7, Longitude 20.3 East (339.7 West). 19 meter/pixel resolution.

Voir l'image PIA04404: Arabia Terra Streaks sur le site de la NASA.

PIA04065: Lava Flows of Daedalia Planum

This THEMIS image captures a portion of several lava flows in Daedalia Planum southwest of the Arsia Mons shield volcano. Textures characteristic of the variable surface roughness associated with different lava flows in this region are easily seen. The lobate edges of the flows are distinctive, and permit the discrimination of many overlapping individual flows. The surfaces of some flows look wrinkly and ropy, probably indicating a relatively fluid type of lava flow referred to as pahoehoe. The surface textures of lava flows can thus sometimes be used for comparative purposes to infer lava viscosity and effusion rates. Numerous parallel curved ridges are visible on the upper surfaces of some of the lava flows. These ridges make the flow surface look somewhat ropy, and at smaller scales this flow might be referred to as pahoehoe, however, these features are probably better referred to as pressure ridges. Pressure ridges form on the surface of a lava flow when the upper part of the flow is exposed to air, cooling it, but the insulated much warmer interior of the flow continues to move down slope (and more material is pushed forward from behind), causing the surface to compress and pile up like a rug.

Voir l'image PIA04065: Lava Flows of Daedalia Planum sur le site de la NASA.

PIA04714: Sirenum Fossae

Released 26 August 2003

Sirenum Fossae: this image of a graben is curious and interesting because of the braided appearance of its floor. The braided pattern suggests that water has flowed through this fracture in the past.

Image information: VIS instrument. Latitude -36.9, Longitude 193 East (167 West). 19 meter/pixel resolution.

PIA04403: Arabia Terra

Impact crater with rampart ejecta blanket in Arabia Terra.

Image information: VIS instrument. Latitude 5.8, Longitude 5.5 East (354.2 West). 19 meter/pixel resolution.

Voir l'image PIA04403: Arabia Terra sur le site de la NASA.

PIA04062: Arabia Terra

This image shows deposits in a crater located in Arabia Terra. Arabia is generally dust covered and dark streaks or dust avalanches are present in the crater walls. The dominant geologic process acting in this crater interior is wind erosion. The central crater deposits are eroded to form yardangs, or linear wind-sculpted hills that resemble an inverted boat hull. Deflation and abrasion are capable of eroding rock structures that are aligned parallel to wind direction. In the lower right hand side of the crater, a dark deposit has formed barchan dunes. These crescent shaped dunes have "horns" that point downwind indicating general northwest to southeast wind direction. These dark sands probably played a role in the erosion and formation of the yardangs.

Voir l'image PIA04062: Arabia Terra sur le site de la NASA.

PIA04555: Eroded Crater Ejecta

Released 3 June 2003

Two craters in Arabia Terra, in the old cratered highlands, are surrounded by many small mesas. The two craters are partially shown in the central-left and extreme upper-right of the image. These mesas are remnants of ejecta blankets of debris that were cast out when the impact craters originally formed. These former ejecta blankets formed a material resistant to weathering, and so they remain on the surface as mesas, while the surrounding terrain has been stripped away.

Image information: VIS instrument. Latitude 17.1, Longitude 8 East (352 West). 19 meter/pixel resolution.

Voir l'image PIA04555: Eroded Crater Ejecta sur le site de la NASA.

PIA04642: Gigas Meets Ulysses

Released 9 July 2003

Roughly halfway between the great volcanoes of Olympus Mons and Pavonis Mons, the graben (troughs) of Ulysses Fossae intersect with the furrows of Gigas (gigantic) Sulci. A clear time sequence is evident: first came the formation of the sulci terrain (to the left), which then was fractured by graben radial to Olympus Mons, followed by flooding of lava. All but the deepest graben are filled by lava in the topographic low between the two volcanic rises.

Image information: VIS instrument. Latitude 11.8, Longitude 234.3 East (125.7 West). 19 meter/pixel resolution.

Voir l'image PIA04642: Gigas Meets Ulysses sur le site de la NASA.

PIA04471: Crosscutting Grabens

Released 21 April 2003

The crosscutting relationships observed in this THEMIS image can be used to determine the relative timing of graben and channel formations. Several north-west/south-east trending fractures are observed to crosscut north-east/south-west formations.

Image information: VIS instrument. Latitude 43.2, Longitude 269.4 East (90.6 West). 19 meter/pixel resolution.

Voir l'image PIA04471: Crosscutting Grabens sur le site de la NASA.

PIA04010: Amazonis Planitia yardangs

This wind-swept region of Amazonis Planitia, northwest of the Olympus Mons Aureole deposit, has been so uniformly dissected into yardangs that only two craters provide any indication that other processes have ever been active on the surface.

PIA03950: Arsia Mons Caldera Rim

This VIS image shows part of the caldera rim and floor of Arsia Mons. The arcuate fractures along the rim indicate multiple periods of activity -- both eruptions and collapse after eruptions. The floor of the caldera is very flat, having been filled by lava.

Image information: VIS instrument. Latitude -9, Longitude 238.8 East (121.2 West). 17 meter/pixel resolution.

Voir l'image PIA03950: Arsia Mons Caldera Rim sur le site de la NASA.

PIA03981: Windstreak on Lava Flow

Today's image of the flows west of Arsia Mons also contains a large windstreak. Note the the surface texture in the "white" part of the windstreak is more subdued than the rest of the flow. This is because the wind has deposited fine materials in this area. The wind can both erode the surface and cover it with deposits.

Image information: VIS instrument. Latitude -7.7, Longitude 227.5 East (132.5 West). 17 meter/pixel resolution.

Voir l'image PIA03981: Windstreak on Lava Flow sur le site de la NASA.

PIA04017: Trouvelot Crater Deposit

Like many of the craters in the Oxia Palus region of Mars, Trouvelot Crater hosts an eroded, light-toned, sedimentary deposit on its floor. Compared with the much larger example in Becquerel Crater to the NE, the Trouvelot deposit has been so eroded by the scouring action of dark, wind-blown sand that very little of it remains. Tiny outliers of bright material separated from the main mass attest to the once, more really extensive coverage by the deposit. A similar observation can be made for White Rock, the best known example of a bright, crater interior deposit. The origin of the sediments in these deposits remains enigmatic but they are likely the result of fallout from ash or dust carried by the thin martian atmosphere.

Voir l'image PIA04017: Trouvelot Crater Deposit sur le site de la NASA.

PIA04645: Fractures and Collapse

Released 14 July 2003

This graben (fracture) in Memnonia Fossae is noteworthy because one can still see large blocks on the floor. These blocks most likely dropped down from above when the fracture opened up.

Image information: VIS instrument. Latitude -18.2, Longitude 211.4 East (148.6 West). 19 meter/pixel resolution.

Voir l'image PIA04645: Fractures and Collapse sur le site de la NASA.

PIA04482: Lycus Sulci

Released 28 April 2003

Lots of lava flows in Lycus Sulci. Notice the streamlined features near the bottom of the images indicating the flow direction. This image is located near Olympus Mons, a gargantuan volcano that is roughly the size of the state of Arizona.

Image information: VIS instrument. Latitude 26.2, Longitude 232.8 East (127.2 West). 19 meter/pixel resolution.

Voir l'image PIA04482: Lycus Sulci sur le site de la NASA.

PIA04032: Palos Crater

Palos Crater has been suggested as a future landing site for Mars Missions. This crater has a channel called Tinto Vallis, which enters from the south. This site was suggested as a landing site because it may contain lake deposits. Palos Crater is named in honor of the port city in Spain from which Christopher Columbus sailed on his way to the New World in August of 1492. The floor of Palos Crater appears to be layered in places providing further evidence that this site may in fact have been the location of an ancient lake.

Voir l'image PIA04032: Palos Crater sur le site de la NASA.

PIA04453: Landslides

The slumping of materials in the walls of this impact crater illustrate the continued erosion of the martian surface. Small fans of debris as well as larger landslides are observed throughout the THEMIS image.

Image information: VIS instrument. Latitude 40.9, Longitude 120.5 East (239.5 West). 19 meter/pixel resolution.

Voir l'image PIA04453: Landslides sur le site de la NASA.

PIA04577: Canyon Walls

3D Projection onto MOLA data

Released 13 June 2003
The high canyon walls of Valles Marineris make for a striking 3-D THEMIS image. Geologic materials that are more resistant to erosion produce cliff forming units while landslides and streaks are observed on slope units. Several dust avalanches are observed in the top of the image.

Image information: VIS instrument. Latitude -4.6, Longitude 268.4 East (91.6 West). 19 meter/pixel resolution.

Voir l'image PIA04577: Canyon Walls sur le site de la NASA.

PIA04111: Crater Interior with Internal Craters

Today's crater interior contains smaller craters, sand dunes, and erosional features caused the wind. Additionally, the crater rim appears subdued, likely due to dust cover. Note how the ejecta surrounding the small craters has be eroded by the wind.

Image information: VIS instrument. Latitude 9, Longitude 358 East (2 West). 18 meter/pixel resolution.

Voir l'image PIA04111: Crater Interior with Internal Craters sur le site de la NASA.

PIA04667: Valley Networks

Released 30 July 2003

Valley networks are a relatively common feature in the southern highlands of Mars. This THEMIS visible image contains several of these small channels. Some appear clustered near the smaller crater at the top of the image. There is still some debate over the origin of these enigmatic martian landforms. Were they caused by overland flow after precipitation, underground sapping, or a combination of both?

Image information: VIS instrument. Latitude -40.6, Longitude 165.2 East (194.8 West). 19 meter/pixel resolution.

PIA04098: Mamers Valles

A broad channel in the Deuteronilus Mensae region displays the strange landforms common to the northern mid-latitudes where ground ice likely plays a role in their formation. A tongue-shaped feature at the bottom of this image looks surprisingly glacier-like in its morphology.

Image information: VIS instrument. Latitude 37.1, Longitude 15.3 East (344.7 West). 19 meter/pixel resolution.

Voir l'image PIA04098: Mamers Valles sur le site de la NASA.

PIA04049: Impact Crater

Today marks the 45th anniversary of the dawn of the Space Age (October 4, 1957). On this date the former Soviet Union launched the world's first satellite, Sputnik 1. Sputnik means fellow traveler. For comparison Sputnik 1 weighed only 83.6 kg (184 pounds) while Mars Odyssey weighs in at 758 kg (1,671 pounds).

This scene shows several interesting geologic features associated with impact craters on Mars. The continuous lobes of material that make up the ejecta blanket of the large impact crater are evidence that the crater ejecta were fluidized upon impact of the meteor that formed the crater. Volatiles within the surface mixed with the ejecta upon impact thus creating the fluidized form. Several smaller impact craters are also observed within the ejecta blanket of the larger impact crater giving a relative timing of events. Layering of geologic units is also observed within the large impact crater walls and floor and may represent different compositional units that erode at variable rates. Cliff faces, dissected gullies, and heavily eroded impact craters are observed in the bottom half of the image at the terminus of a flat-topped plateau.

Voir l'image PIA04049: Impact Crater sur le site de la NASA.

PIA04428: Mamers Vallis

This sinuous channel begins at the edge of Cerulli Crater in northern Arabia and snakes its way across 1000 km of cratered highlands before reaching Deuteronilus Mensae at the boundary of the northern lowlands. The fluid that carved the channel, either lava or water, flowed from the bottom of this scene to the top. The quasi-streamlined features on the channel floor may have nothing to do with flow and instead may be due to a permafrost creep process.

Image information: VIS instrument. Latitude 31.3, Longitude 19.1 East (340.9 West). 19 meter/pixel resolution.

Voir l'image PIA04428: Mamers Vallis sur le site de la NASA.

PIA03975: Broad Western Flows from Arsia Mons

As we move futher away from the volcano, the western flows change in appearance. The flows are typically broad, and the surface texture is more subdued than the southern flows. At the bottom of the image a windstreak "tail" has formed behind a crater. Other dark streaks indicate that strong westward blowing winds occur in this region.

Image information: VIS instrument. Latitude -9.6, Longitude 227.6 East (132.4 West). 17 meter/pixel resolution.

Voir l'image PIA03975: Broad Western Flows from Arsia Mons sur le site de la NASA.

PIA04454: Flooded Crater

Flooded crater in Amazonis Planitia. This crater has been either flooded with mud and or lava. The fluid then ponded up, dried and formed the surface textures we see today.

Image information: VIS instrument. Latitude 27, Longitude 190.9 East (169.1 West). 19 meter/pixel resolution.

Voir l'image PIA04454: Flooded Crater sur le site de la NASA.

PIA04096: Crater Rim

The late afternoon sun casts a shadow over a 700 meter-high rim of Huygens Crater.

Image information: VIS instrument. Latitude -15.2, Longitude 51.6 East (308.4 West). 19 meter/pixel resolution.

Voir l'image PIA04096: Crater Rim sur le site de la NASA.

PIA04047: Terra Sirenum

This image is from a region called Terra Sirenum in Mars' southern hemisphere. This region was named in 1958 for the Sea of the Sirens from Greek Mythology. This is not a sea, however, but a relatively dusty, high albedo region of Mars. There are numerous dust devil tracks that are apparent in the center- left of the image. The dust devils act like vacuum cleaners and lift dust off of the surface leaving a less dusty and relatively lower albedo surface behind. Dust devils are very common on Mars and are thought to be the primary mechanism for constantly lifting the dust into the atmosphere. Dust is constantly present in the Martian atmosphere in greater abundances than typically seen on Earth. The Martian dust is one of the main factors that affect the present Martian climate and clearly displays the relationship between Mars' geology and atmosphere.

Voir l'image PIA04047: Terra Sirenum sur le site de la NASA.

PIA04505: Deposition + Erosion = Textures

Released 7 May 2003

Toward the westernmost extent of the Medusae Fossae Formation, a 5000+ km long belt of eroding sediments, the interleaving of erosional surfaces produces dramatic textural variations. In the lower third of this image, the cross-hatched MFF layer is being stripped back from a surface that was already heavily eroded before the MFF layer was deposited. Also, note the sinuous and, in places, dendritic ridges that are either linear dunes or inverted channels.

Image information: VIS instrument. Latitude -3.9, Longitude 154.1East (205.9). 19 meter/pixel resolution.

Voir l'image PIA04505: Deposition + Erosion = Textures sur le site de la NASA.

PIA04118: Infilled Crater

This crater interior was filled by a thick accumulation of material. The fill is now undergoing removal, exposing the floor beneath the material. The way the surface layer is breaking up and eroding indicates that volatiles, such as ice, may be present in the upper layer.

Image information: VIS instrument. Latitude 36, Longitude 351.9 East (8.1 West). 18 meter/pixel resolution.

Voir l'image PIA04118: Infilled Crater sur le site de la NASA.

PIA04579: Etched Terrain

Released 17 June 2003

This stunning THEMIS visible image was acquired in "etched terrain" near the south pole of Mars. In several places in this image there are large areas with many dark spots. These spots have been noticed to appear and disappear as the seasons progress on Mars. As the southern hemisphere of Mars gets warmer, carbon dioxide frost present in this terrain sublimates, leaving behind the dark spots.

Image information: VIS instrument. Latitude -73.5, Longitude 351.3 East (8.7 West). 19 meter/pixel resolution.

Voir l'image PIA04579: Etched Terrain sur le site de la NASA.

PIA04091: Erosion Effects

The impact crater in this THEMIS image is a model illustration to the effects of erosion on Mars. The degraded crater rim and several landslides observed in crater walls is evidence to the mass wasting of materials. Layering in crater walls also suggests the presence of materials that erode at varying rates.

Image information: VIS instrument. Latitude 31.6, Longitude 44.3 East (315.7 West). 19 meter/pixel resolution.

Voir l'image PIA04091: Erosion Effects sur le site de la NASA.

PIA04040: Semeykin Crater

This is an image within Semeykin Crater, which is located in the Martian northern hemisphere. This location is at the edge of the planetary dichotomy, a boundary between the heavily cratered and older southern highlands and the lightly cratered northern lowlands. This boundary is marked by remnants, or "islands," of highland terrain standing out within the northern lowlands. It is uncertain how this dichotomy formed, but the interior of this crater has been resurfaced with the smoother, younger terrain. Much of the older remnants appear softened. This may be due to past or present subsurface ice that can deform the terrain. Dark sand is also visible in the right hand side of the image.

Voir l'image PIA04040: Semeykin Crater sur le site de la NASA.

PIA03949: Arsia Mons Caldera

This VIS image shows part of the summit calera of Arsia Mons. There are numerous small volcanic constructs with lava flows in the image. The vents of these small volcanoes fall along the NE alignment of the large volcanoes.

Image information: VIS instrument. Latitude -9, Longitude 239.8 East (120.2 West). 17 meter/pixel resolution.

Voir l'image PIA03949: Arsia Mons Caldera sur le site de la NASA.

PIA04009: Dao Vallis

This THEMIS visible image shows Dao Vallis, a large outflow channel that starts on the southeast flank of a large volcano called Hadriaca Patera and runs for 1000 kilometers southwest into the Hellas impact basin. The channel is up to 20 kilometers wide near its source, but narrows downstream. As can be seen in the context image, the part of Dao Vallis imaged by THEMIS is actually one of the most narrow.

It is believed that Dao Vallis was carved by a combination of surface and subsurface flow. Evidence for both of these processes can be seen in this image. The size of the channel, its steep walls, and the lineations at the bottom of the channel indicate that it was carved by surface flow of water. The erosional morphology near the center of the image, on the northern edge of the channel indicates that groundwater sapping was also a minor process. Subsidence of the surface into the quasi-circular depressions seen in this image is indicative of this process.

Because the source region of Dao Vallis is the flank of a volcano, it is most likely that the water that carved the channel erupted from the subsurface as geothermal heating by nearby magma melted large amounts of ground ice. Some of this water made it to the surface and carved the channel, while some water flowed below ground and caused the sapping features evident in this THEMIS image.

PIA03935: Olympus Mons Windstreaks

These windstreaks are located close to yesterday's location, only these flows are from Olympus Mons. Note the bright and dark streaks.

Image information: VIS instrument. Latitude 23.2, Longitude 237.1 East (122.9 West). 36 meter/pixel resolution.

Voir l'image PIA03935: Olympus Mons Windstreaks sur le site de la NASA.

PIA04075: Textures in Utopia Planitia

Bizarre textures cover the surface of eastern Utopia Planitia where there is a high probability that ground ice has played a role in the formation of this unusual landscape.

Voir l'image PIA04075: Textures in Utopia Planitia sur le site de la NASA.

PIA04703: Dunes in a Crater Floor

Released 6 August 2003

This image shows the floor of a crater just north of the Argyre basin in the southern hemisphere. Dark dunes have been pushed up against the northeastern interior rim of the crater, indicating that the prevailing winds blow from the southwest.

Image information: VIS instrument. Latitude -35.7, Longitude 324.1 East (35.9 West). 19 meter/pixel resolution.

PIA03932: Wind Streaks in Syrtis Major

These windstreaks are located on the lava flows of Meroe Patera in Syrtis Major.

Image information: VIS instrument. Latitude 5.7, Longitude 73.2 East (286.8 West). 36 meter/pixel resolution.

Voir l'image PIA03932: Wind Streaks in Syrtis Major sur le site de la NASA.

PIA04072: Holden Crater

Ripple bedforms fill large fractures near the southern rim of Holden Crater.

Voir l'image PIA04072: Holden Crater sur le site de la NASA.

PIA04704: Craters and Grabens: Circles and Lines

Released 7 August 2003

Large grooves indicating tectonic faulting cross this image from the upper right to the lower left. This image is located not too far south of the Tharsis Montes, which probably produced the faulting seen here as they erupted and uplifted the terrain. Many craters are apparent on the surface here, some of which have impacted on the grabens (grooves), indicating that they are younger than the faults. The crater in the center of the image appears to have been breached, allowing material (perhaps a mudslide) to spill to the west. Could this flow be caused by an earthquake that occurred when the faults moved, or did it happen much later?

Image information: VIS instrument. Latitude -35.7, Longitude 324.1 East (35.9 West). 19 meter/pixel resolution.

PIA04537: Channel to Nowhere

Released 22 May 2003

A channel-like feature roughly halfway between the Isidis Basin and Elysium Mons shows no connection to either a source region or terminal basin. It may be that this feature is not a channel at all and has instead arisen from the erosion of a once continuous layer of material into remnants that mimic a channel.

Image information: VIS instrument. Latitude 20.9, Longitude 105 East (255) meter/pixel resolution.

Voir l'image PIA04537: Channel to Nowhere sur le site de la NASA.

PIA04545: Old Geology and New Geology

Released 28 May 2003

Mangala Vallis one of the large outflow channels that channeled large quantities of water into the northern lowlands, long ago on geological timescales. This valley is one of the few in the southern hemisphere, as well as one of the few west of the Tharsis bulge. A closer look at the channel shows more recent weathering of the old water channel: the walls of the channel show small, dark slope streaks that form in dusty areas; and much of the surrounding terrain has subtle linear markings trending from the upper left to the lower right, which are probably features sculpted and streamlined by the wind. Geology still shapes the surface of Mars today, but its methods over the eons have changed.

Image information: VIS instrument. Latitude -6, Longitude 209.6 East (150.4 West). 19 meter/pixel resolution.

Voir l'image PIA04545: Old Geology and New Geology sur le site de la NASA.

PIA03991: THEMIS Images as Art #55

Previous research has shown that there may, indeed, be snow on Mars for yesterday's snowman. It is, however, extremely unlikely that real flowers will be found on Mars.

Voir l'image PIA03991: THEMIS Images as Art #55 sur le site de la NASA.

PIA04461: Ismenia Fossae: Craters or Pits?

Released 10 April 2003

The circular depressions prevalent throughout this scene at first glance appear to be craters, but are they? Could they be pits formed by devolatilization? It is not clear. We are studying these features in search of answers. Once again, another example of a Martian mystery.

Image information: VIS instrument. Latitude 39.4, Longitude 40.9 East (319.1 West). 19 meter/pixel resolution.

Voir l'image PIA04461: Ismenia Fossae: Craters or Pits? sur le site de la NASA.

PIA04000: Hydaspis Chaos

Collapsed terrain in Hydapsis Chaos.

This is the source terrain for several outflow channels. Note: this THEMIS visual image has not been radiometrically nor geometrically calibrated for this preliminary release. An empirical correction has been performed to remove instrumental effects. A linear shift has been applied in the cross-track and down-track direction to approximate spacecraft and planetary motion. Fully calibrated and geometrically projected images will be released through the Planetary Data System in accordance with Project policies at a later time.

VIS Instrument. Latitude 3.2, Longitude 333.2 East. 19 meter/pixel resolution.

Voir l'image PIA04000: Hydaspis Chaos sur le site de la NASA.

PIA04466: Ascraeus Mons

Released 16 April 2003

The surface textures observed in this THEMIS image of Ascraeus Mons are due to different volcanic flow types. Textural variations can be produced under a variety of different conditions such as varying cooling and flow rates. Also observed in the image are linear chains of craters that could be windows into lava tubes or secondary impact craters.

Image information: VIS instrument. Latitude 11.1, Longitude 256.3 East (103.7 West). 19 meter/pixel resolution.

Voir l'image PIA04466: Ascraeus Mons sur le site de la NASA.

PIA04007: Degraded Craters in Phlegra Montes

The larger craters in this region north of Elysium Mons are buried and distorted almost beyond recognition.

PIA04123: Eroded Ejecta

This crater still retains some of the radial "spoke" features on top of the main ejecta, but some erosion has occurred and will continue to modify the surface until no surface features formed during emplacement are left.

Image information: VIS instrument. Latitude 30.4, Longitude 108.1 East (251.9 West). 37 meter/pixel resolution.

Voir l'image PIA04123: Eroded Ejecta sur le site de la NASA.

PIA04016: Rest In Peace Mars Polar Lander

Three years ago (December 3, 1999) Mars Polar Lander (MPL) was set to touchdown on the enigmatic layered terrain located near the South Pole. Unfortunately, communications with the spacecraft were lost and never regained. The Mars Program Independent Assessment Team concluded that this loss was most likely due to premature retrorocket shutdown resulting in the crash of the lander. The image primarily shows what appears to be a ridged surface with some small isolated hills.

Historically, exploration has and will continue to be a very hard and risky endeavor and sometimes you lose. But the spirit of exploration and discovery has served mankind well throughout the ages and it has now driven us to the far reaches of space. Therefore, with this in mind the THEMIS Team today is releasing an image of the region where MPL was set to land in memory of this mission and the unquenchable spirit of exploration. It is hoped that in the near future we will once again attempt another landing in the Martian polar regions.

Voir l'image PIA04016: Rest In Peace Mars Polar Lander sur le site de la NASA.

PIA04553: Lava Flows

Released 30 May 2003

Lava flows and channels are visible here on the eastern flanks of Ascraeus Mons. One of the channels is bordered by levees, which form as lava overflows the channel banks, cools and solidifies. The other prominent channel to the north lacks levees, suggesting it may be a collapsed lava tube, or may have an aqueous origin.

Image information: VIS instrument. Latitude 13.9, Longitude 262.2 East (97.8 West). 19 meter/pixel resolution.

Voir l'image PIA04553: Lava Flows sur le site de la NASA.

PIA04644: Lava Flows

Released 11 July 2003

Lava has flooded this crater in Daedalia Planum.

Image information: VIS instrument. Latitude -21.5, Longitude 229.7 East (130.3 West). 19 meter/pixel resolution.

Voir l'image PIA04644: Lava Flows sur le site de la NASA.

PIA04554: Hebes ILD

Released 2 June 2003

Hebes Chasma is the northernmost canyon of the vast Valles Marineris system. It contains a 7-km thick pile of sediments known as an interior layered deposit (ILD), which is common to many of the VM canyons. This ILD shows fine layers, deep spur-and-gulley erosion, and an unusual texture on the plateau surface that may be due to dunes.

Image information: VIS instrument. Latitude -1.1, Longitude 283 East (77 West). 19 meter/pixel resolution.

Voir l'image PIA04554: Hebes ILD sur le site de la NASA.

PIA04643: Crater Interior

Released 10 July 2003

The large peak observed in this THEMIS image is the central uplift of an impact crater that formed by inward and upward movement of material below the crater floor during the crater-forming event and is not due to long-term slow adjustment of crater materials. Evidence of modification to the post-impact surface is observed throughout the image as materials are being eroded and stripped from the crater floor.

Image information: VIS instrument. Latitude -3.1, Longitude 115.9 East (244.1 West). 19 meter/pixel resolution.

Voir l'image PIA04643: Crater Interior sur le site de la NASA.

PIA04585: Smooth and Scrambled

Released 19 June 2003

A flat-floored crater in central Arabia hosts an interior crater with interesting ejecta. The scrambled patterns in the ejecta suggest fluidized flow during emplacement. This contrasts with the much smoother terrain on the left side of the image. Although there is some ambiguity, it appears that the smooth material has lapped up onto the ejecta, which raises the question of where the source is for this more recent flow of material.

Image information: VIS instrument. Latitude 2.8, Longitude 37 East (323 West). 19 meter/pixel resolution.

Voir l'image PIA04585: Smooth and Scrambled sur le site de la NASA.

PIA04470: Lucus Planum

A crazy cacophony of bizarre surface features in Lucus Planum.

Image information: VIS instrument. Latitude 1.3, Longitude 175.5 East (184.5 West). 19 meter/pixel resolution.

Voir l'image PIA04470: Lucus Planum sur le site de la NASA.

PIA04011: Proctor Crater Dunes

This image, located near 30E and 47.5S, displays sand dunes within Proctor Crater. These dunes are composed of basaltic sand that has collected in the bottom of the crater. The topographic depression of the crater forms a sand trap that prevents the sand from escaping. Dune fields are common in the bottoms of craters on Mars and appear as dark splotches that lean up against the downwind walls of the craters. Dunes are useful for studying both the geology and meteorology of Mars. The sand forms by erosion of larger rocks, but it is unclear when and where this erosion took place on Mars or how such large volumes of sand could be formed. The dunes also indicate the local wind directions by their morphology. In this case, there are few clear slipfaces that would indicate the downwind direction. The crests of the dunes also typically run north-south in the image. This dune form indicates that there are probably two prevailing wind directions that run east and west (left to right and right to left).

PIA04715: Alpine Glaciers

Released 27 August 2003

This image shows part of the western flank of Arsia Mons, the southernmost of the three great Tharsis Montes. The surface shows parallel ridges more reminiscent of a Zen garden than any typical geological feature. These ridges are not typical of lava flow fronts, so a different explanation has been proposed by Mars scientists. These ridges may instead be ancient signs of previously existing glaciers that formed high on the volcano's flank. As glaciers retreat with the seasons and shifting climate, they leave behind a mound of debris along their receding edge. Successive retreats can produce a series of parallel ridges similar to those seen here.

Image information: VIS instrument. Latitude -6.9, Longitude 230.5 East (129.5 West). 19 meter/pixel resolution.

Voir l'image PIA04715: Alpine Glaciers sur le site de la NASA.

PIA04402: Etched Terrain in Terra Meridiani

Eroded, or "etched" terrain dominates the field of view of this THEMIS visible image acquired over eastern Terra Meridiani. At the bottom of many craters and in other areas, dunes are present. On the left hand side of the image, a darker layer embays the etched terrain. Several knobs from the etched terrain can still be seen, though, indicating that this layer is rather thin.

Image information: VIS instrument. Latitude 1.6, Longitude 5.5 East (354.5 West). 19 meter/pixel resolution.

Voir l'image PIA04402: Etched Terrain in Terra Meridiani sur le site de la NASA.

PIA04063: Olympus Mons Flows

Like drippings from a candle, these lava flows on the flank of Olympus Mons volcano demonstrate how it became the largest volcano in the solar system. Multiple flows from an unknowable number of eruptions have piled one on top of another until the mountain of lava reached a height of 27 km above the average Martian elevation. The change in texture seen in the bottom 1/3 of the image marks a break in slope from the flank of the volcano to the north (top) and the flat plain surrounding it. The direction of flows changes from roughly N-S to E-W, suggesting another source for the flows on the plain.

Voir l'image PIA04063: Olympus Mons Flows sur le site de la NASA.

PIA04479: Embayment

Released 23 April 2003

Embayment relationship displayed where mottled plains material laps up against higher standing plains material. The embaying material could be lava or possibly mud.

Image information: VIS instrument. Latitude 44.8, Longitude 10 East (350 West). 19 meter/pixel resolution.

Voir l'image PIA04479: Embayment sur le site de la NASA.

PIA04018: Buried Crater

With a location roughly equidistant between two of the largest volcanic constructs on the planet, the fate of the ~50 km impact crater in this image was sealed. It has been buried to the rim by lava flows. The MOLA context image shows pronounced flow lobes surrounding the crater, a clear indication of the most recent episode of volcanism that could have contributed to its infilling. Breaches in the rim are clearly evident in the image and suggest locations through which lavas could have flowed. These openings appear to be limited to the west side of the crater. Other craters in the area are nearly obliterated by the voluminous lava flows, further demonstrating one of the means by which Mars renews its surface.

Voir l'image PIA04018: Buried Crater sur le site de la NASA.

PIA03958: Collapse Features on Arsia Mons

This VIS image is located on the SE flank of Arsia Mons where it meets the plains. As with yesterday's image, collapse features are present at the margin of the volcano. These collapse features likely occur over lava tubes that served as conduits for flows from within the volcano.

Image information: VIS instrument. Latitude -11.3, Longitude 240.4 East (119.6 West). 17 meter/pixel resolution.

Voir l'image PIA03958: Collapse Features on Arsia Mons sur le site de la NASA.

PIA03989: THEMIS Images as Art #54

I know it's cold on Mars. But...a snowman?

Voir l'image PIA03989: THEMIS Images as Art #54 sur le site de la NASA.

PIA04712: A Suite of Features

Released 21 August 2003

The southern flank of the massive Pavonis Mons volcano hosts a remarkable concentration of channels, pit chains, and graben. The deep channels likely began as subsurface lava tubes whose roofs collapsed as pits developed over them. Examples of this process are clearly evident throughout the scene. Also present are relatively straight troughs (graben) that crosscut the channels and pit chains. These arise from the tectonic forces associated with construction of the massive volcano. Lava channels and flow textures are evident on the uppermost surfaces.

Image information: VIS instrument. Latitude -0.9, Longitude 246.2 East (113.8 West). 19 meter/pixel resolution.

PIA04405: A Tale of Two Craters

In western Acidalia, two craters of similar size (a few km's) dramatically display the effects of geologic activity. The younger one on the left has been left relatively well preserved, retaining a sharp rim crest, a classic bowl shape, and a clearly defined ejecta blanket. The older one on the right likely has experienced a flood of lava that covered over the ejecta and filled in the bowl (note the breach in the rim). Its rim crest has been worn down by a multitude of subsequent impacts.

Image information: VIS instrument. Latitude 35.9, Longitude 311.1 East (48.9 West). 19 meter/pixel resolution.

Voir l'image PIA04405: A Tale of Two Craters sur le site de la NASA.

PIA04064: Terra Meridiani

This image is located near the equator and the prime meridian of Mars in a region called Terra Meridiani. This is a unique area of Mars that displays layers of material that appear to be in the process of being stripped away. This exposing another layer of material directly underneath that is visible in the central portion of the image. Measurements from another instrument in orbit around Mars, the Thermal Emission Spectrometer on the Mars Global Surveyor, indicate that this region has a high concentration of a mineral called hematite. Grey hematite can form in both volcanic and water rich environments. It is not certain exactly how this mineral formed on Mars, but its presence along with the layering seen in this region makes this region of Mars particularly interesting. Among other possibilities, these layers could be volcanic ash deposits or plausibly sediments deposited in water. This region of Mars is very old and whatever process took place here, it happened long ago. This is one of the principal candidate sites for the next rover mission that will be sent to Mars in 2003.

Voir l'image PIA04064: Terra Meridiani sur le site de la NASA.

PIA04430: Valles Marineris - with 3D

The top half of this THEMIS visible image shows interior layered deposits that have long been recognized in Valles Marineris. Upon close examination, the layers appear to be eroding differently, indicating different levels of competency. This, in turn, may be interpreted to indicate different materials, and/or depositional processes. At the bottom of the image, materials eroded from the walls of the canyon form dunes and other aeolian bedforms.

Image information: VIS instrument. Latitude -6.5, Longitude 287.3 East (72.7 West). 19 meter/pixel resolution.

Voir l'image PIA04430: Valles Marineris - with 3D sur le site de la NASA.

PIA04080: Resurfaced Mars

This area of Mars shows a wonderful example of relative geologic dating. Ancient lava flows and escarpments are mantled by younger impact ejecta, which was subsequently cut by a younger graben and resurfaced by smaller impact craters.

Image information: VIS instrument. Latitude 10.6, Longitude 233.4 East (126.6 West). 19 meter/pixel resolution.

Voir l'image PIA04080: Resurfaced Mars sur le site de la NASA.

PIA04056: Western Arabia Terra

Today's THEMIS image covers a region in western Arabia Terra, which contains two interesting craters. The eastern floor of the largest crater seen in most of this image is bumpy and ridged in places and relatively smooth in regions. Careful examination shows that this crater floor contains layered material. This is best seen in the lower portion of this crater. The larger of the two craters located to the lower right also contains layered materials.

Voir l'image PIA04056: Western Arabia Terra sur le site de la NASA.

PIA04437: Stop Sign Crater

With its rim eroded off by catastrophic floods in Tiu Vallis and its strangely angular shape, this 12 km diameter crater looks vaguely like a stop sign.

Image information: VIS instrument. Latitude 8.6, Longitude 329.2 East (30.8 West). 19 meter/pixel resolution.

Voir l'image PIA04437: Stop Sign Crater sur le site de la NASA.

PIA04087: Southern Sand Dunes

At first glance, this THEMIS image showing impact craters and linear ridges and troughs is typical of the southern highlands. However, upon closer examination migrating sand dunes are observed within the troughs. Sandy material can often accumulate in these narrow depressions and become mobilized by wind.

Image information: VIS instrument. Latitude -34.7, Longitude 281,5 East (68.5 West). 19 meter/pixel resolution.

Voir l'image PIA04087: Southern Sand Dunes sur le site de la NASA.

PIA04513: Nili Patera

Released 14 May 2003

At the summit of the low-relief shield volcano Syrtis Major, the caldera known as Nili Patera hosts a remarkable field of barchan-like dunes. The rugged knob to the north of the dunes is probably a breached volcanic cone representing one of the last eruptive events from this caldera.

Image information: VIS instrument. Latitude 9, Longitude 67.4East (292.6). 19 meter/pixel resolution.

Voir l'image PIA04513: Nili Patera sur le site de la NASA.

PIA04058: Henry Crater

Located in Arabia Terra, the crater shown here is known as Henry Crater. Like many other craters on Mars, the interior of Henry Crater is filled with a layered deposit. These materials were brought into the crater sometime after the impact formed the crater. The fine scale of layering can be seen in the right- center portion of the image.

Voir l'image PIA04058: Henry Crater sur le site de la NASA.

PIA04439: Hrad Vallis

Hrad Vallis, seen in this THEMIS visible image, appears to be affecting the local wind patterns. The texture of the terrain just around the valleys is markedly different from that its surroundings.

Image information: VIS instrument. Latitude 33.4, Longitude 142.9 East (217.1 West). 19 meter/pixel resolution.

Voir l'image PIA04439: Hrad Vallis sur le site de la NASA.

PIA04089: Evidence of flow?

The striations on the floor of this sinuous channel adjacent to Protonilus Mensae look like they result from the flow of lava or perhaps even glacial ice. However, it is also possible that they result from some process acting on permafrost confined within the channel having nothing to do with flow.

Image information: VIS instrument. Latitude 33.7, Longitude 56.8 East (303.2 West). 19 meter/pixel resolution.

Voir l'image PIA04089: Evidence of flow? sur le site de la NASA.

PIA04100: The So-called "Face on Mars" at Night

This pair of THEMIS infrared images shows the so-called "face on Mars" landform viewed during both the day and night. The nighttime THEMIS IR image was acquired on Oct. 24, 2002; the daytime image was originally released on July 24, 2002. Both images are of THEMIS's 9th IR band (12.57 microns), and they have been geometrically projected for image registration. The "face on Mars" is located in the northern plains of Mars near 40� N, 10� W (350 � E). This knob can be seen in the daytime image because of the temperature differences between the sunlit (warm and bright) and shadowed (cold and dark) slopes. The temperature in the daytime scene ranges from -50 �C (darkest) to -15 �C (brightest). At night many of the hills and knobs in this region are difficult to detect because the effects of heating and shadowing on the slopes are no longer present. The temperatures at night vary from approximately -90 �C (darkest) to -75 �C (warmest). The nighttime temperature differences are due primarily to differences in the abundance of rocky materials that retain their heat at night and stay warm. Fine grained dust and sand cools of more rapidly at night. The circular rims and eject of many of the craters in this region are warm at night, showing that rocks are still present on the steep walls inside the craters and in the ejecta material that was blasted out when the craters formed. Some craters have cold (dark) material on their floors in the night IR image, indicating that fine-grained material is accumulating within the craters. Many knobs and hills, including the "face" have rocky (warm at night) material on their slopes and ridges.

The THEMIS infrared camera provides an excellent regional view of Mars - these images cover an area 32 kilometers (~20 miles) by approximately 50 kilometers (~30 miles) at a resolution of 100 meters per picture element ("pixel"). The scenes are tilted differently because the Odyssey orbit is inclined by 3� from the true north-south direction, and the spacecraft is flying from north-to-south on the day side and from south-to-north on the night side of the planet. These images provide a broad perspective of the landscape and geology of the Cydonia region, showing numerous knobs and hills that have been eroded into a remarkable array of different shapes. In these views the Cydonia region is seen to numerous interesting knobs and mesas that are similar in many ways to the knob named the "face." The 3-km long "face" knob was first imaged by the Viking spacecraft in the 1970's and was seen by some to resemble a face carved into the rocks of Mars. Since that time the Mars Orbiter Camera on the Mars Global Surveyor spacecraft and the THEMIS visible and infrared cameras on Mars Odyssey have provided detailed views of this hill that clearly show that it is a normal geologic feature with slopes and ridges carved by eons of wind and downslope motion due to gravity. Many of the knobs in Cydonia, including the "face," have several flat ledges partway up the hill slopes. These ledges are made of more resistant layers of rock and are the last remnants of layers that once were continuous across this entire region. Erosion has completely removed these layers in most places, leaving behind only the small isolated hills and knobs seen today.

Note: this THEMIS infrared image has not been radiometrically nor geometrically calibrated for this preliminary release. An empirical correction has been performed to remove instrumental effects. A linear shift has been applied in the cross-track and down-track direction to approximate spacecraft and planetary motion. Fully calibrated and geometrically projected images will be released through the Planetary Data System in accordance with Project policies at a later time.

PIA04561: Destination: Gusev

Released 11 June 2003

Yesterday, a Delta II rocket successfully lifted off from Cape Canaveral, Florida carrying the Mars Exploration Rover named Spirit. Its destination is a crater called Gusev in the southern hemisphere of Mars. This crater may have been the site of an ancient lake whose sediments could be sampled by Spirit. The THEMIS image covers a portion of the center of the elliptical region in which the rover is expected to land nearly seven months from now. The scene contains wispy dark streaks that probably arise from the removal by wind of a layer of bright dust. Just to the south of the dark streaks is a boundary that may represent the edge of a layer of material that has flowed in from the south. With luck, Spirit will have access to a variety of interesting rock types and terrains that will settle the question of whether Gusev crater hosted a lake.

Image information: VIS instrument. Latitude -14.7, Longitude 175.5 East (184.5 West). 19 meter/pixel resolution.

Voir l'image PIA04561: Destination: Gusev sur le site de la NASA.

PIA04024: Terby Crater

Perched on the northern rim of the enormous Hellas Basin, Terby Crater is host to an impressive range of landforms. As is common for many Martian craters, Terby has been filled with layered material, presumably sediments. The process of erosion has exposed some of these layers along with strange, rectilinear ridges. Sinuous channels, collapse pits, and a scoured-looking cap rock are some of the other interesting landforms in Terby. Such a variety of landforms attests to a diversity of rock types and geologic processes in the relatively small area of this THEMIS image.

Voir l'image PIA04024: Terby Crater sur le site de la NASA.

PIA04445: Pavonis Mons Caldera

Pavonis Mons is the middle of the three large volcanoes on the Tharsis bulge. This visible THEMIS image covers the edge of the volcano's caldera. Outside of the caldera, numerous lava flows and impact craters can be seen. In addition, there are a few small features which may be cinder cones. The best example is on the left hand side of the image, about two thirds of the way down from the top. There is an elevation difference of about 4.2 kilometers from the top of the volcano to the caldera floor. This image shows evidence for repeated episodes of mass wasting of the caldera wall, likely due to subsidence of the caldera over time.

Image information: VIS instrument. Latitude 0.8, Longitude 246.9 East (113.1 West). 19 meter/pixel resolution.

Voir l'image PIA04445: Pavonis Mons Caldera sur le site de la NASA.

PIA03964: Arsia Mons Surface Flow

Today's VIS image of lava flows south of Arsia Mons shows a broad, rough surfaced flow (brighter in image). The brighter flow splits at the bottom and then rejoins again, leaving a window of older flow visible. Note how the flows overlap at the bottom of the image.

Image information: VIS instrument. Latitude -22.6, Longitude 239.7 East (120.3 West). 17 meter/pixel resolution.

Voir l'image PIA03964: Arsia Mons Surface Flow sur le site de la NASA.

PIA04023: Viking Lander 2 Anniversary

This portion of a daytime IR image covers the Viking 2 landing site (shown with the X). The second landing on Mars took place September 3, 1976 in Utopia Planitia. The exact location of Lander 2 is not as well established as Lander 1 because there were no clearly identifiable features in the lander images as there were for the site of Lander 1. The Utopia landing site region contains pedestal craters, shallow swales and gentle ridges. The crater Goldstone was named in honor of the Tracking Station in the desert of California. The two Viking Landers operated for over 6 years (nearly four martian years) after landing. This one band IR (band 9 at 12.6 microns) image shows bright and dark textures, which are primarily due to differences in the abundance of rocks on the surface. The relatively cool (dark) regions during the day are rocky or indurated materials, fine sand and dust are warmer (bright). Many of the temperature variations are due to slope effects, with sun-facing slopes warmer than shaded slopes. The dark rings around several of the craters are due to the presence of rocky (cool) material ejected from the crater. These rocks are well below the resolution of any existing Mars camera, but THEMIS can detect the temperature variations they produce. Daytime temperature variations are produced by a combination of topographic (solar heating) and thermophysical (thermal inertia and albedo) effects. Due to topographic heating the surface morphologies seen in THEMIS daytime IR images are similar to those seen in previous imagery and MOLA topography.

Voir l'image PIA04023: Viking Lander 2 Anniversary sur le site de la NASA.

PIA04442: Lycus Sulci

"Lycus Sulci" is the name of a region of ridges and hills located north-northwest of the volcano Olympus Mons. Several dust avalanches can be observed on the flanks of the roughly textured surfaces suggesting a thick coating of fine-grained materials.

Image information: VIS instrument. Latitude 27.1, Longitude 214.6 East (145.4 West). 19 meter/pixel resolution.

Voir l'image PIA04442: Lycus Sulci sur le site de la NASA.

PIA03963: Arsia Mons Lava Flows

The lava flows from Arsia Mons are some of the youngest flows in the region. The region of flows south of the volcano have had little modification and appear very similar in appearance to Hawaiian lava flows. This VIS image shows typical flows for the region. The flows are long, fairly narrow, overlapping, and with various surface features and textures.

Image information: VIS instrument. Latitude -19.5, Longitude 240.1 East (119.9 West). 17 meter/pixel resolution.

Voir l'image PIA03963: Arsia Mons Lava Flows sur le site de la NASA.

PIA04671: Lava Flows

Released 31 July 2003

Remarkable differences in brightness and texture are apparent between these lava flows found on the southern flanks of Arsia Mons. These differences could be due to variations in composition, age, vessicularity, or degrees of weathering

Image information: VIS instrument. Latitude -19.5, Longitude 238.4 East (121.6 West). 19 meter/pixel resolution.

PIA04107: THEMIS Images as Art #60

Looks kind of like something George Jetson would drive, I think...

Voir l'image PIA04107: THEMIS Images as Art #60 sur le site de la NASA.

PIA04557: Bizarre Crater Mound

Released 5 June 2003

The height of the interior mound of sediment inside this crater exceeds the crater rim heights by 900 meters (3,000 ft). This is a confounding problem. How does all this material get inside this crater and actually rise higher than its holding chamber? What is this material? Where did it come from? Why is it still here? It is exactly these kinds of enigmas that makes Mars so very interesting.

Image information: VIS instrument. Latitude 12.2, Longitude 26.3 East (333.7 West). 19 meter/pixel resolution.

Voir l'image PIA04557: Bizarre Crater Mound sur le site de la NASA.

PIA04586: Channels and Erosion

Released 20 June 2003

The dissected and eroded channel observed in this THEMIS image taken of plains materials southwest of the volcano Elysium Mons shows typical erosional islands and depositional features. The interesting thing about this channel is that it appears to start out of nowhere. The MOLA context image shows that the channel originates from a fissure within the ground, whose origin is likely volcanic, but may also be related to volatile processes.

Image information: VIS instrument. Latitude 19.5, Longitude 126.8 East (233.2 West). 19 meter/pixel resolution.

Voir l'image PIA04586: Channels and Erosion sur le site de la NASA.

PIA04012: Meroe Patera

This image is located in Meroe Patera (longitude: 292W/68E, latitude: 7.01), which is a small region within Syrtis Major Planitia. Syrtis Major is a low-relief shield volcano whose lava flows make up a plateau more than 1000 km across. These flows are of Hesperian age (Martian activity of intermediate age) and are believed to have originated from a series of volcanic depressions, called calderas. The caldera complex lies on extensions of the ring faults associated with the Isidis impact basin toward the northeast - thus Syrtis Major volcanism may be associated with post-impact adjustments of the Martian crust.

The most striking feature in this image is the light streaks across the image that lead to dunes in the lower left region. Wind streaks are albedo markings interpreted to be formed by aeolian action on surface materials. Most are elongate and allow an interpretation of effective wind directions. Many streaks are time variable and thus provide information on seasonal or long-term changes in surface wind directions and strengths. The wind streaks in this image are lighter than their surroundings and are the most common type of wind streak found on Mars. These streaks are formed downwind from crater rims (as in this example), mesas, knobs, and other positive topographic features.

The dune field in this image is a mixture of barchan dunes and transverse dunes. Dunes are among the most distinctive aeolian feature on Mars, and are similar in form to barchan and transverse dunes on Earth. This similarity is the best evidence to indicate that martian dunes are composed of sand-sized material, although the source and composition of the sand remain controversial. Both the observations of dunes and wind streaks indicate that this location has a windy environment - and these winds are persistent enough to product dunes, as sand-sized material accumulates in this region. These features also indicate that the winds in this region are originating from the right side of the image, and moving towards the left.

PIA03952: Arsia Mons Flank

This VIS image shows the part of the NE flank of Arsia Mons where it meets the plains. The flank of the volcano is comprised of long flows. Collapse features are present at the flank margin.

Image information: VIS instrument. Latitude -7.9, Longitude 241.9 East (118.1 West). 17 meter/pixel resolution.

Voir l'image PIA03952: Arsia Mons Flank sur le site de la NASA.

PIA03983: THEMIS Images As Art #51

Many science-fiction writers have postulated many life forms on Mars. Perhaps some guessed they might see bears there?

Voir l'image PIA03983: THEMIS Images As Art #51 sur le site de la NASA.

PIA04015: Kasei Vallis

The scoured grooves in these catastrophic outflow channels, formed hundreds of million of years ago, have the appearance of wood grain. They now host dune-like ripples of windblown material.

Voir l'image PIA04015: Kasei Vallis sur le site de la NASA.

PIA03984: THEMIS Images As Art #52

While Martian Bears may not be unique, I don't recall anyone ever postulating a Martian rhinoceros.

Voir l'image PIA03984: THEMIS Images As Art #52 sur le site de la NASA.

PIA04069: Pavonis Mons Summit Caldera

This image shows part of the summit caldera of Pavonis Mons. Pavonis the middle of three Tharsis volcanos that form a line southeast of Olympus Mons and northwest of Vallis Marineris. On Earth volcanic calderas usually form when a massive eruption has emptied out the magma chamber and the "roof" of the chamber collapses into the resultant space. It is likely that summit calderas on Martian volcanoes form in a similar manner.

Voir l'image PIA04069: Pavonis Mons Summit Caldera sur le site de la NASA.

PIA04408: Gullies on Martian Crater (THEMIS)

This visible-light image, taken by the thermal emission imaging system on NASA's 2001 Mars Odyssey spacecraft, indicates that gullies on martian crater walls may be carved by liquid water melting from remnant snow packs. The gullies in the top right-center appear to emerge from beneath and within a gradually disappearing blanket of snow. The current snow pack in this crater (located at 43 degrees south, 214 degrees east) appears to remain only on the cold, pole facing crater wall (top). On the less-shaded, warmer sides of the crater (left), the snow cover has completely disappeared, leaving the gullies exposed. The image shows an area 14.8 kilometers (9.2 miles) by 21.6 kilometers (13.4 miles). North is toward the top, and illumination is from the left.

NASA's Jet Propulsion Laboratory manages the 2001 Mars Odyssey mission for NASA's Office of Space Science, Washington, D.C. The thermal emission imaging system was provided by Arizona State University, Tempe. Lockheed Martin Astronautics, Denver, is the prime contractor for the project, and developed and built the orbiter. Mission operations are conducted jointly from Lockheed Martin and from JPL, a division of the California Institute of Technology in Pasadena.

Voir l'image PIA04408: Gullies on Martian Crater (THEMIS) sur le site de la NASA.

PIA04647: Processes of Geology

Released 16 July 2003

This THEMIS visible image captures a complex process of deposition, burial and exhumation. The crater ejecta in the top of the image is in the form of flow lobes, indicating that the crater was formed in volatile-rich terrain. While a radial pattern can be seen in the ejecta, the pattern is sharper in the lower half of the ejecta. This is because the top half of the ejecta is still buried by a thin layer of sediment. It is most likely that at one time the entire area was covered. Wind, and perhaps water erosion have started to remove this layer, once again exposing the what was present underneath.

Image information: VIS instrument. Latitude -34.3, Longitude 181.2 East (178.8 West). 19 meter/pixel resolution.

Voir l'image PIA04647: Processes of Geology sur le site de la NASA.

PIA04522: Unusual Crater

Released 15 May 2003

This unusual crater northeast of Ascraeus Mons displays an ejecta blanket that appears turned up around its edges. This may be a type of rampart crater, or may instead be a crater with its ejecta blanket buried by lava flows. These flows were later eroded away in places leaving behind the scarp. Numerous lava flows are seen in this image as well as sinuous channels. These features appear to be both volcanic (rilles) and fluvial channels.

Image information: VIS instrument. Latitude 16.8, Longitude 257.4East (102.6). 19 meter/pixel resolution.

Voir l'image PIA04522: Unusual Crater sur le site de la NASA.

PIA04711: Valles Marineris Landforms

Released 20 August 2003

The steep canyon walls and ridge forming layers of Valles Marineris are on display in this THEMIS picture. Landslides and gullies observed throughout the image are evidence to the continued mass wasting of the martian surface. Upon close examination of the canyon floor, small ripples that are likely migrating sand dunes are seen on the surface. Some slopes also display an interesting raked-like appearance that may be due to a combination of aeolian and gully forming processes.

Image information: VIS instrument. Latitude -7.4, Longitude 274.2 East (85.8 West). 19 meter/pixel resolution.

PIA04406: Ice Clouds

Heavy water ice clouds almost completely obscure the surface in Vastitas Borealis.

Image information: VIS instrument. Latitude 69.5, Longitude 283.6 East (76.4 West). 19 meter/pixel resolution.

Voir l'image PIA04406: Ice Clouds sur le site de la NASA.

PIA04649: Tader Valles

Released 18 July 2003

Tader Valles, an ancient name for the present Segura River in Spain, is a set of small channels at mid-southern latitudes that is filled by smooth material with rounded margins. It is possible that this material is snow covered by a mantle of dust or dirt.

Image information: VIS instrument. Latitude -49.4, Longitude 208.6 East (151.4 West). 19 meter/pixel resolution.

Voir l'image PIA04649: Tader Valles sur le site de la NASA.

PIA04716: Upside Down Craters

Released 28 August 2003

This image shows an area not too far south of Meridiani, the area where the mineral hematite was found on the Martian surface. In the center of the image the terrain becomes quite rugged, where a great amount of material has eroded away, leaving behind buttes and mesas. Note how some of the mesas are quite circular. This is an example of "inverted terrain," in which a topographically low feature, like a crater or a trench, becomes filled in with material. Later, the surrounding terrain erodes away while the feature protects the material filling it. These circular mesas are most likely inverted craters that were once holes in the ground.

Image information: VIS instrument. Latitude -28.2, Longitude 8.7 East (351.3 West). 19 meter/pixel resolution.

PIA04060: Hesperia Planum

This image is located in the eastern portion of a region on Mars called Hesperia Planum, which is in the cratered southern highlands of Mars. Immediately visible in the image is the dark barchan type dunes that are being blown against the southeast wall of the crater. The position of the dunes in the crater as well as the southeast facing slipfaces on the dunes indicate that the local winds blow primarily towards the southeast. An interesting aspect of this image is the relatively brighter ripple like features that are visible just to the southeast of the dune field. These features are smaller than the dark dunes, but can be clearly seen in the full resolution image. Wind processes also probably formed these features and their orientation also indicates a northwest-southeast wind direction. It is not clear if these features are actively being formed by the wind or if they were only active at some point in the Martian past. Mars is a very dry, desert-like environment and the wind plays a very important role in shaping the present landscape.

Voir l'image PIA04060: Hesperia Planum sur le site de la NASA.

PIA04401: Dust Devil Streaks

At first glance, the dust devil streaks observed in this THEMIS image of the martian northern plains may look similar to many other images. However, what makes this THEMIS image so interesting are the many streaks that trend over hills, mounds, and valleys. Many of the dust devil streaks previously observed occur in very flat and dusty regions. This unique image gives hints to the dynamic nature of the dust devil streak formational process.

Image information: VIS instrument. Latitude 53.8, Longitude 200.9 East (159.1 West). 19 meter/pixel resolution.

Voir l'image PIA04401: Dust Devil Streaks sur le site de la NASA.

PIA04559: Masursky Crater

Released 9 June 2003

The large, tilted blocks in this THEMIS visible image are chaotic terrain in Masursky Crater. Chaotic terrain is thought to occur when subsurface water is suddenly released to the surface, and the resulting loss of ground support causes the surface material to slump and break into blocks. Most of the chaotic terrain on Mars is seen in the vicinity of the large catastrophic outflow channels. Many of the outflow channels actually have chaotic terrain as their source. This chaotic terrain is the source of a small channel that connects to the much larger Tiu Valles.

Image information: VIS instrument. Latitude 12, Longitude 327.6 East (32.4 West). 19 meter/pixel resolution.

Voir l'image PIA04559: Masursky Crater sur le site de la NASA.

PIA04434: Kasei Vallis

3D Projection onto MOLA data

The MOLA context image of Kasei Valles suggests the observed channels may be partly structurally controlled due to their rectilinear pattern. However, the high-resolution THEMIS image shows grooves within the channels that can be interpreted as evidence for fluvial activity. This relationship suggests that the initial channel formation was structurally controlled, and that once formed, the channels provided a conduit for movement of material.

Image information: VIS instrument. Latitude 15.2, Longitude 288.3 East (71.7 West). 19 meter/pixel resolution.

Voir l'image PIA04434: Kasei Vallis sur le site de la NASA.

PIA04055: Winter in Hellas Basin

Right now on Mars it is winter in the southern hemisphere. This means that the usually cloudy Hellas Basin is relatively free from clouds. Even though there is little cloud cover, the atmosphere is still much thicker due to the deeper basin compared to elsewhere on Mars, making image details not as crisp as when viewed through thinner atmosphere. In the center of the image are several dark streaks which originate from the side of a higher standing butte. The dark material is likely being eroded from a single layer within the cliff face. Wind has moved some of the eroded dark material to form the streaks.

Voir l'image PIA04055: Winter in Hellas Basin sur le site de la NASA.

PIA04084: Shalbatana/Simud Vallis Junction

The sinuous channels and streamlined islands at the junction of Shalbatana and Simud Vallis present an erosional history of the catastrophic floods that scoured the Martian surface hundreds of millions of years ago.

Image information: VIS instrument. Latitude 16, Longitude 317.4 East (42.6 West). 19 meter/pixel resolution.

Voir l'image PIA04084: Shalbatana/Simud Vallis Junction sur le site de la NASA.

PIA04448: Cydonia Craters

Eroded mesas and secondary craters dot the landscape in this area of the Cydonia Mensae region. The single oval-shaped crater displays a "butterfly" ejecta pattern, indicating that the crater formed from a low-angle impact.

Image information: VIS instrument. Latitude 32.9, Longitude 343.8 East (16.2 West). 19 meter/pixel resolution.

Voir l'image PIA04448: Cydonia Craters sur le site de la NASA.

PIA04029: Rampart Crater

Rampart crater in Utopia Planitia west of the Viking 2 landing site.

Voir l'image PIA04029: Rampart Crater sur le site de la NASA.

PIA04607: Dalmatian Terrain

Released 1 July 2003

An example of dalmatian terrain near the south pole. The bright material is polar ice and the dark spots dark sands that are appearing in depressions where the ice has defrosted to reveal underlying material. Interestingly, there is an almost continuous dark band around the edges of many of the depressions. This could be a clue to the nature of the sand deposits in polar regions. The sand forms dunes in a range of sizes and shapes. Near the top of the image the dunes shrink until they are smaller than the 18 m pixels of the THEMIS camera and seem to disappear into the surrounding ice.

Image information: VIS instrument. Latitude -66.6, Longitude 36 East (324 West). 19 meter/pixel resolution.

Voir l'image PIA04607: Dalmatian Terrain sur le site de la NASA.

PIA04510: Flow Along Valley Floors

Released 9 May 2003

Lines indicative of flow in a valley floor (east to west) cut across similar lines in a slightly smaller valley (southeast to northwest), indicating both that material flowed along the valley floor (as opposed to across it) and that relative flow ages may be determined from crosscutting relationships.

Image information: VIS instrument. Latitude 39.6, Longitude 31.1East (328.9). 19 meter/pixel resolution.

Voir l'image PIA04510: Flow Along Valley Floors sur le site de la NASA.

PIA04261: Gusev Crater

This mosaic of nighttime infrared images of Gusev Crater, taken by the camera system on the Mars Odyssey spacecraft, has been draped over topography data obtained by Mars Global Surveyor. Variations in nighttime temperatures are due to differences in the abundance of rocky materials that retain their heat at night and stay relatively warm (bright). Fine grained dust and sand (dark) cools off more rapidly at night. This image mosaic covers an area approximately 180 kilometers (110 miles) on each side centered near 14 degrees S, 175 degrees E, looking toward the south in this simulated view.

PIA04083: Melas Chasma Deposits

Erosion of the interior layered deposits of Melas Chasma, part of the huge Valles Marineris canyon system, has produced cliffs with dramatic examples of spur and gulley morphology and beautiful exposures of finely layered sediments.

Image information: VIS instrument. Latitude -10.4, Longitude 284.9 East (75.1 West). 19 meter/pixel resolution.

Voir l'image PIA04083: Melas Chasma Deposits sur le site de la NASA.

PIA04441: Highland/Lowland contact

The smooth plains of Elysium embay the blocky broken up highlands of Aeolis. The plains have been interpreted by researchers to be possibly mudflows or lava flows.

Image information: VIS instrument. Latitude -0.8, Longitude 170.8 East (189.2 West). 19 meter/pixel resolution.

Voir l'image PIA04441: Highland/Lowland contact sur le site de la NASA.

PIA04020: Tharsis Grooved Channel

The Tharsis Montes region on Mars is a major center of volcanic and tectonic activity. The channel in this image is west of the relatively small volcano called Biblis Patera although it shows no obvious relationship to that volcano. Instead, it may be related to the more distant, but more massive volcano Olympus Mons to the north. The channel may have hosted flowing lava at one time but now contains a material that has eroded into an impressive ridge-and-groove pattern. These features may be yardangs, landforms produced from the erosion by wind of sedimentary material.

Voir l'image PIA04020: Tharsis Grooved Channel sur le site de la NASA.

PIA04490: Eroded Ejecta

Released 1 May 2003

The ejecta material of the impact crater observed in this THEMIS image is partly eroded as the trend of a regional geologic unit is beginning to emerge from beneath, or actively form on top of, the blanket. The MOLA context image shows the northwest-southeast trend of the underlying unit observed in the bottom half of the THEMIS image at a regional scale.

Image information: VIS instrument. Latitude 8.8, Longitude 202.5 East (157.5 West). 19 meter/pixel resolution.

Voir l'image PIA04490: Eroded Ejecta sur le site de la NASA.

PIA04104: THEMIS Images as Art #57

A spooky skull stares out of the Martian plain.

Voir l'image PIA04104: THEMIS Images as Art #57 sur le site de la NASA.

PIA04446: Impact Craters

The fluidized impact crater ejecta and flat crater floors observed in this THEMIS image suggest near surface volatiles once played an important role in modifying the martian surface. Gullies observed in crater walls could possibly point to more recent volatile-rock interactions.

Image information: VIS instrument. Latitude 13.9, Longitude 297.3 East (62.7 West). 19 meter/pixel resolution.

Voir l'image PIA04446: Impact Craters sur le site de la NASA.

PIA04027: Crater Upon Crater

A pair of craters just north of the Hellas Basin demonstrate the rugged topography that can result when an impact occurs on the rim of an existing crater.

Voir l'image PIA04027: Crater Upon Crater sur le site de la NASA.

PIA04618: Destination: Meridiani

Released 8 July 2003

Yesterday a modified Delta II rocket successfully lifted off from Cape Canaveral, Florida, sending the Mars Exploration Rover named Opportunity on its way to Mars. This THEMIS image covers part of the landing ellipse in Meridiani Planum, where the rover is expected to land in about seven months. The Meridiani Planum landing site was selected because of the detection by the Thermal Emission Spectrometer (TES) instrument on Mars Global Surveyor of a mineral called hematite, which usually forms in the presence of water. While this visible wavelength image cannot "see" hematite, what it does show is a relatively smooth (safe) area, which, in places, contains a brighter material. Because Opportunity will be able to travel dozens of meters per day, it will be able to sample both bright material and the darker material that takes up the majority of this scene. Understanding what each of these materials are and their relationship to each other will help scientists to get a better understanding of the history of water on this part of Mars.

Image information: VIS instrument. Latitude -1.8, Longitude 354.7 East (5.3 West). 19 meter/pixel resolution.

Voir l'image PIA04618: Destination: Meridiani sur le site de la NASA.

PIA04457: Surface Erosion and Flow

Released 7 April 2003

The mottled surface texture and flow features observed in this THEMIS image suggest materials may be, or have been, mixed with ice. There is also evidence in some areas for infilling of sediments as crater rims and ridges appear covered.

Image information: VIS instrument. Latitude 45.3, Longitude 48.8 East (311.2 West). 19 meter/pixel resolution.

Voir l'image PIA04457: Surface Erosion and Flow sur le site de la NASA.

PIA04036: Yardangs near Olympus Mons

In this region of the Olympus Mons aureole, located to the SW of the volcano, the surface has been eroded by the wind into linear landforms called yardangs. These ridges generally point in direction of the prevailing winds that carved them, in this case winds from the southeast. Yardangs typically occur on surfaces that are easily erodable, such as wind-blown dust or volcanic ash. The northeast - southwest trending ridges and valleys in the northwest corner of the image are typical of the Olympus Mons aureole. The varying concentration and shape of the yardangs in this area may be controlled by the motion of winds around these topographic features.

Some crater outlines are visible near the top of this image. The rims of these craters appear to have been stripped away - indicating that the wind erosion is younger than these craters. There are two round knobs in the image, one on the bottom on the right side of the image and another about midway down on the left. These may be inverted craters, formed because the impacts caused materials underneath the crater to become harder to erode than the surrounding materials.

Voir l'image PIA04036: Yardangs near Olympus Mons sur le site de la NASA.

PIA03971: Arsia Mons Western Flows

Last week we looked at the flows to the south of Arsia Mons, this week we will examine the flows to the west of the volcano. In this VIS image the flows (at the bottom) have started to cover the ejecta surrounding the large crater.

Image information: VIS instrument. Latitude -8.7, Longitude 220.2 East (139.8 West). 17 meter/pixel resolution.

Voir l'image PIA03971: Arsia Mons Western Flows sur le site de la NASA.

PIA04450: Acidalia Planitia

This is an image of an area within Acidalia Planitia that contains patterned ground near the top of the image. This type of surface is likely related to subsurface ice. There are other strange features in this image, including a range of crater morphologies and steps or terraces surrounding the isolated knobs.

Image information: VIS instrument. Latitude 33.2, Longitude 322.1 East (37.9 West). 19 meter/pixel resolution.

Voir l'image PIA04450: Acidalia Planitia sur le site de la NASA.

PIA04031: Reull Vallis

The channels and impact crater rim shown in this THEMIS image provide insight to the forces that have sculpted the surface within the extensive Reull Vallis network. Drainage features and dissected materials observed around and within the impact crater wall demonstrate the erosional and depositional effects of possible fluvial processes. A portion of a possible landslide is also observed within the crater as lobes of material emanate from the crater wall. Reull Vallis is a large and morphologically diverse outflow channel system, and this small view from within demonstrates the combination of mass movement processes that have persisted over an extended time period.

Voir l'image PIA04031: Reull Vallis sur le site de la NASA.

PIA04506: Surface Textures

Released 8 May 2003

The variable surface textures observed in this THEMIS image are the result of different lava flow units. Flow fronts indicate material was once semi-fluid and filled in pre-existing impact craters. Channels observed in the eastern half of the image suggest additional materials may have once flowed and eroded older units.

Image information: VIS instrument. Latitude 36.5, Longitude 217.6East (142.4). 19 meter/pixel resolution.

Voir l'image PIA04506: Surface Textures sur le site de la NASA.

PIA04611: Dunes

Released 3 July 2003

Defrosting dunes of the southern hemisphere in southern summer.

Image information: VIS instrument. Latitude -66.5, Longitude 195.2 East (164.8 West). 19 meter/pixel resolution.

Voir l'image PIA04611: Dunes sur le site de la NASA.

PIA04092: Dust Avalanches

Crater wall dust avalanches in southern Arabia Terra.

Image information: VIS instrument. Latitude 10.3, Longitude 24.5 East (335.5 West). 19 meter/pixel resolution.

Voir l'image PIA04092: Dust Avalanches sur le site de la NASA.

PIA04043: Tithonium Chasma

This image covers part of Tithonium Chasma, which is part of the Valles Marineris system of canyons that stretch for thousands of kilometers. The contrast between dark sandy surfaces covered by dunes and bright dusty surfaces with a rather uniform appearance is clearly visible in the bottom half of the image. Small cut channels and flat-topped buttes, representing an erosional remnant of a resistant layer of rock, are also observed and covered by dust. In the top half of the image, ridgelines are observed in the canyon walls with small dark streaks trailing downslope; these streaks suggest that the sediments covering this area occasionally become unstable and slide.

Voir l'image PIA04043: Tithonium Chasma sur le site de la NASA.

PIA04095: Terra Tyrrhena

Old, heavily cratered volcanic terrain in Terra Tyrrhena within the Martian southern highlands.

Image information: VIS instrument. Latitude -28, Longitude 78.6 East (281.4 West). 19 meter/pixel resolution.

Voir l'image PIA04095: Terra Tyrrhena sur le site de la NASA.

PIA04044: Floor of Hellas Basin

With a diameter of roughly 2000 km and a depth of over 7 km, the Hellas Basin is the largest impact feature on Mars. Because of its great depth, there is significantly more atmosphere to peer through in order to see its floor, reducing the quality of the images taken from orbit. This THEMIS image straddles a scarp between the Hellas floor and an accumulation of material at least a half kilometer thick that covers much of the floor. The southern half of the image contains some of this material. Strange ovoid landforms are present here that give the appearance of flow. It is possible that water ice or even liquid water was present in the deposits and somehow responsible for the observed landscape. The floor of Hellas remains a poorly understood portion of the planet that should benefit from the analysis of new THEMIS data.

Voir l'image PIA04044: Floor of Hellas Basin sur le site de la NASA.

PIA04459: Chipped Paint Crater

Released 9 April 2003

In the high northern latitudes NW of Alba Patera, a smooth mantle of material that covers the landscape appears chipped away from the rim of a large crater. The prominent scarp that has formed from the retreat of the mantle lacks the rounded appearance of other ice-rich mantles found in the mid-latitudes. The nature of this mantling layer therefore is more enigmatic.

Image information: VIS instrument. Latitude 62.9, Longitude 226.2 East (133.8 West). 19 meter/pixel resolution.

Voir l'image PIA04459: Chipped Paint Crater sur le site de la NASA.

PIA04038: Arcadia Planitia Dark Splotch

Arcadia Planitia occupies a region just north of Amazonis Planitia, one of the brightest and dustiest regions on Mars. Along the boundary between these two regions is a dark splotch roughly 600 km long that is relatively free of dust. This THEMIS image straddles the border of the dark splotch, producing the dramatic change in brightness from north to south. Note that many of the small craters in the dark portion of the image contain bright material on their floor. It may be that a mantle of dust has been stripped back revealing the dark surface of the splotch but the crater floors have retained the dust. Alternatively, the bright material may represent a more resistant unit that once covered the area and is difficult to erode from the crater floors. Either way, the presence of the bright material in so many craters produces a scene that is quite unusual for the surface of Mars.

Voir l'image PIA04038: Arcadia Planitia Dark Splotch sur le site de la NASA.

PIA04071: Kasei Vallisland

A large streamlined island in Kasei Vallis shows evidence of scour on its surface, probably from floods that preceded the formation of the island.

Voir l'image PIA04071: Kasei Vallisland sur le site de la NASA.

PIA04410: Crater Wall and Floor

3D Projection onto MOLA data

The impact crater observed in this THEMIS image taken in Terra Cimmeria suggests sediments have filled the crater due to the flat and smooth nature of the floor compared to rougher surfaces at higher elevations. The abundance of several smaller impact craters on the floor of the larger crater indicate however that the flat surface has been exposed for an extended period of time. The smooth surface of the crater floor and rougher surfaces at higher elevations are observed in the 3-D THEMIS image that is draped over MOLA topography (2X vertical exaggeration).

Image information: VIS instrument. Latitude -22.9, Longitude 155.7 East (204.3 West). 19 meter/pixel resolution.

Voir l'image PIA04410: Crater Wall and Floor sur le site de la NASA.

PIA04707: Peneus Patera

Released 12 August 2003

An unusual layer of smooth material covers the flanks of the volcano Peneus Patera just south of the Hellas Basin. Though smooth on its upper surface, the layer is pitted by a process of erosion that produces steep scarps facing the south pole and more gentle slopes in the direction of the equator. The style of erosion of the smooth layer suggests that ice of some form plays a role in shaping this terrain.

Image information: VIS instrument. Latitude -57, Longitude 54.1 East (305.9 West). 19 meter/pixel resolution.

PIA04534: Fine-scale Textures

Released 19 May 2003

This image shows fine-scale textures around a crater southwest of Athabasca Vallis. These fine scale ridges are most likely the remnants of older flood eroded layered rocks and not longitudinal grooves carved out of the landscape by flooding. These features are ridges and not grooves. Also note the layers visible on the southeast side of the island.

Image information: VIS instrument. Latitude 9.6, Longitude 155.9 East (204.1). 19 meter/pixel resolution.

Voir l'image PIA04534: Fine-scale Textures sur le site de la NASA.

PIA03936: IR Windstreaks

This infrared image shows windstreaks in the region between Gordii Dorsum and Amazonis Mensa.

Image information: IR instrument. Latitude -15.8, Longitude 215 East (145 West). 97 meter/pixel resolution.

Voir l'image PIA03936: IR Windstreaks sur le site de la NASA.

PIA04076: Hecates Tholus

Impact craters in Hecates Tholus appear to be filled with sediment derived from erosion of the surrounding terrain.

Voir l'image PIA04076: Hecates Tholus sur le site de la NASA.

PIA03995: THEMIS Images as Art #56

Mars has a kiss for you today!

Voir l'image PIA03995: THEMIS Images as Art #56 sur le site de la NASA.

PIA04004: Small volcanic crater near Pavonis Mons (Released 14 November 2002

The small crater observed at the middle-right edge of this THEMIS image is very different from other similar looking impact craters located southeast of the Pavonis Mons volcano. This crater appears to be a volcanic crater at the summit of a small composite cone that shows evidence of repeated volcanic flows.

PIA04120: Refilled Crater

The interior of this crater has undergone at least two episodes of modification. At some time the crater interior was filled by material to approximately the high of the crater rim. Then erosion occurs, removing some of the infill but leaving the two plateaus in the center. Finally, the crater has been infilled a second time. The latest fill is lava.

Image information: VIS instrument. Latitude 13.5, Longitude 284.3 East (75.7 West). 36 meter/pixel resolution.

Voir l'image PIA04120: Refilled Crater sur le site de la NASA.

PIA03938: Hebes Chasma Dust Avalanches

Dust avalanches, also called slope streaks, occur on many Martian terrains. The deposition of airborne dust on surfaces causes a bright tone in the THEMIS VIS images. Any movement of the dust downhill, a dust avalanche, will leave behind a streak where the darker, dust-free surface is exposed.

These dust avalanches are located in Hebes Chasma.

Image information: VIS instrument. Latitude -1.4, Longitude 286.6 East (73.4 West). 17 meter/pixel resolution.

Voir l'image PIA03938: Hebes Chasma Dust Avalanches sur le site de la NASA.

PIA04078: A Sea of Lava

Islands of older high-standing terrain rise above a sea of relatively young, platy lava flows between two of the largest volcanoes in the solar system.

Image information: VIS instrument. Latitude 10.6, Longitude 158.5 East (201.5 West). 19 meter/pixel resolution.

Voir l'image PIA04078: A Sea of Lava sur le site de la NASA.

PIA04597: Syrtis in Retreat

Released 30 June 2003

Lava flows from the broad shield volcano Syrtis Major have poured into the Isidis Basin to the east. The transition between these great provinces is marked by broken slabs of accumulated volcanic material that is retreating from its position on the floor of the basin. A jagged scarp a half a kilometer high is the result.

Image information: VIS instrument. Latitude 13.7, Longitude 79.4 East (280.6 West). 19 meter/pixel resolution.

Voir l'image PIA04597: Syrtis in Retreat sur le site de la NASA.

PIA04651: Eroded Mesas

Released 21 July 2003

Located not far south of Olympus Mons, these mesas show interesting erosional patterns. Some of their slopes, particularly those on the eastern-facing sides, show a debris with a blocky and somewhat etched appearance. In the bottom half of the image, where the mesas become more common, small bright bedforms snake between the mesas. Perhaps they are formed from locally-derived materials eroding off the mesa slopes.

Image information: VIS instrument. Latitude 9.3, Longitude 227.1 East (132.9 West). 19 meter/pixel resolution.

PIA04127: Craters Filling Craters

In today's image the large crater retains its original bowl shaped interior and the radial surface pattern on the ejecta. Just to the south is a crater that has been infilled by ejecta from the larger crater. The overlapping of ejecta blankets can be used to get relative age relationships, in this case the smaller crater to the south formed first, and the larger crater formed sometime later.

Image information: VIS instrument. Latitude 29.6, Longitude 96.3 East (263.7 West). 37 meter/pixel resolution.

Voir l'image PIA04127: Craters Filling Craters sur le site de la NASA.

PIA04546: Grooved Terrain

Released 29 May 2003

Strange-looking grooved terrain overlies lava flows off of the western flank of the giant shield volcano Arsia Mons. It has recently been speculated that the large, concentric ridges are glacial features called moraines, which were deposited as a dry-bottomed glacier receded and left sand and rocks behind.

Image information: VIS instrument. Latitude -7.8, Longitude 230.4 East (129.6 West). 19 meter/pixel resolution.

Voir l'image PIA04546: Grooved Terrain sur le site de la NASA.

PIA04709: Koga Crater

Released 18 August 2003

This image shows Koga crater, named for a town in Tanzania. It is located in a region called Claritas Fossae, full of large linear features that are not visible in this particular image. What is visible is a mantle of fine material that is draped over much of the terrain, particularly in the floor of the crater. Note how the low-lying surfaces are smooth and dark, covered in this layer of fine material. Sharp blocks and cliffs poke through this mantle, showing that either the mantle never buried all of the underlying topography, or that some of it has eroded away to expose the higher ground.

Image information: VIS instrument. Latitude -29.1, Longitude 256.1 East (103.9 West). 19 meter/pixel resolution.

PIA03943: Crater Dust Avalanches

This region of dust avalanches is located in and around a crater to the west of yesterday's image.

Image information: VIS instrument. Latitude 14.7, Longitude 32.7 East (327.3 West). 18 meter/pixel resolution.

Voir l'image PIA03943: Crater Dust Avalanches sur le site de la NASA.

PIA04003: Mariner 9 Anniversary/Landslides on Mars (Released 13 November 2002)

November 13, 1971 is a red-letter date in the history of exploration. Thirty-one years ago today the American spacecraft, Mariner 9, became the first spacecraft to orbit another planet. Imagery from three previous flyby Mariner Missions (4, 6, and 7) indicated that Mars looked similar to the Earth's Moon (craters and plains). However, Mariner 9's eleven month mission mapped the whole planet with over 7,000 images. This mission rewrote the book on Mars by discovering channels, polar layered materials, enormous shield volcanoes, sand dunes, and an enormous canyon system. This canyon system, Valles Marineris, was named in honor of its discoverer. Therefore, in honor of Mariner 9, the THEMIS Team is releasing an image of a portion of Valles Marineris called Melas Chasma. Melas Chasma comprises the central portion of the Valles Marineris canyon system complex. A series of massive landslides are visible on the canyon floor. The older (bottom-most) landslide has longitudinal ridges which formed parallel to flow direction, while the younger slides have concentric ridges. Dunes are also visible near the bottom of the image.

[Source: ASU THEMIS Science Team]

PIA04462: Ridges

Released 11 April 2003

Tall narrow ridges snake between mesas and buttes. Where one such ridge crosses a flat-topped mesa (in the lower center of the image), the mesa surface is split into two surfaces of different heights, like a split-level house. This suggests that the ridges, like the mesas and buttes, are erosional remnants of a former surface that has since been mostly stripped away.

Image information: VIS instrument. Latitude 28.2, Longitude 28 East (332 West). 19 meter/pixel resolution.

Voir l'image PIA04462: Ridges sur le site de la NASA.

PIA04447: Flooded Crater in Terra Sirenum

The floor of this crater displays interesting textures and it appears to have been flooded by some type of material. It is unclear if this material was fluvially emplaced mud (hyperconcentrated flows) or lava. However, there are no volcanic constructs in the immediate region and the fact that the crater rim was breached by Labou Vallis to the east (see regional view in image context) suggests that this material may indeed be mudflows.

Image information: VIS instrument. Latitude -9.8, Longitude 207.6 East (152.4 West). 19 meter/pixel resolution.

Voir l'image PIA04447: Flooded Crater in Terra Sirenum sur le site de la NASA.

PIA04026: Ares Valles

This image covers a portion of Ares Valles. Ares Valles is an outflow channel carved into the surface of Mars by ancient catastrophic floods. The floods were most likely caused by huge discharges of groundwater at the channel heads. These floods are similar to (but much larger than) floods that created the Channeled Scablands in central Washington State during the last ice age on Earth. The Martian channels are hundreds of kilometers long and occur in a number of regions within equatorial Mars. The material that was eroded away by these floods was deposited as sediment in the northern lowlands. The Mars Pathfinder landing site is several hundred kilometers downstream from the location of this image and the surfaces are probably similar in nature.

Voir l'image PIA04026: Ares Valles sur le site de la NASA.

PIA04608: Bumps and Humps

Released 2 July 2003

These small hills/mounds in Isidis Planitia may be of volcanic origin or alternatively eroded impact craters called pedestal craters. The volcanic origin seems more likely because there appears to be structural control to these features (linear pattern). These mounds may have formed over linear dikes in the region.

Image information: VIS instrument. Latitude 11.6, Longitude 84.8 East (275.2 West). 19 meter/pixel resolution.

Voir l'image PIA04608: Bumps and Humps sur le site de la NASA.

PIA04440: Gordii Fossae

Numerous lava flows and fossae (cracks) are visible in this region of Mars located southeast of Olympus Mons. There is also a hint that water may have possibly flowed in this region.

Image information: VIS instrument. Latitude 13.5, Longitude 230.4 East (129.6 West). 19 meter/pixel resolution.

Voir l'image PIA04440: Gordii Fossae sur le site de la NASA.

PIA04021: Impact Crater

The layering of material observed at the bottom of this impact crater suggests multiple depositional and erosional episodes in a changing environment.

Voir l'image PIA04021: Impact Crater sur le site de la NASA.

PIA04491: Martian Kanji

Released 2 May 2003

On the northeast flank of the 27 km-high volcano Ascraeus Mons, a set of collapse pits and troughs vaguely resemble the symbols of an Asian language. This image shows a range of landforms that are produced by flowing lava and its aftermath: surface flow lobes and channels, source pits, lava tubes, and collapse depressions.

Image information: VIS instrument. Latitude 13.5, Longitude 257.9 East (102.1 West). 19 meter/pixel resolution.

Voir l'image PIA04491: Martian Kanji sur le site de la NASA.

PIA04673: Crenulated Lava Flows of Daedalia Planum

Released 1 August 2003

Younger crenulated lava flows of Daedalia Planum lap up against the ancient highlands. The crenulated ridges are most likely pressure ridges. Several small channels can be seen in the highlands.

Image information: VIS instrument. Latitude -37.1, Longitude 221.8 East (138.2 West). 19 meter/pixel resolution.

PIA04105: THEMIS Images as Art #58

X marks the spot!

Voir l'image PIA04105: THEMIS Images as Art #58 sur le site de la NASA.

PIA04260: Gusev Crater

This mosaic of daytime infrared images of Gusev Crater, taken by the camera system on the Mars Odyssey spacecraft, has been draped over topography data obtained by Mars Global Surveyor. The daytime temperatures range from approximately minus 45 degrees C (black) to minus 5 degrees C (white). The temperature differences in these daytime images are due primarily to lighting effects, where sunlit slopes are warm (bright) and shadowed slopes are cool (dark). Gusev crater is a potential landing site for the Mars Exploration Rovers. The large ancient river channel of Ma'Adim that once flowed into Gusev can be seen at the top of the mosaic. This image mosaic covers an area approximately 180 kilometers (110 miles) on each side centered near 14 degrees S, 175 degrees E, looking toward the south in this simulated view.

PIA04082: Candor Chasma Mesa

A mantling layer of sediment slumps off the edge of a mesa in Candor Chasma producing a ragged pattern of erosion that hints at the presence of a volatile component mixed in with the sediment.

Image information: VIS instrument. Latitude -6.7, Longitude 286.4 East (73.6 West). 19 meter/pixel resolution.

Voir l'image PIA04082: Candor Chasma Mesa sur le site de la NASA.

PIA04435: Memnonia Sulci

The wind-sculpted yardangs in this scene are part of the Medusae Fossae Formation, a regionally extensive geologic unit that probably was produced from the accumulation of volcanic ash. The yardangs occur at multiple scales and orientations, perhaps an indication of variations in wind direction and magnitude that could be the result of climate change.

Image information: VIS instrument. Latitude -5.6, Longitude 184.1 East (175.9 West). 19 meter/pixel resolution.

Voir l'image PIA04435: Memnonia Sulci sur le site de la NASA.

PIA04054: Bumpy Terrain

Hills abound in this portion of Mars located in the Vastitas Borealis region of the high northern plains. These hills are part of Scandia Colles. Note that some of the hills have aprons surrounding them. The northern part of Milankovic crater is visible in the lower portion of this image.

Voir l'image PIA04054: Bumpy Terrain sur le site de la NASA.

PIA04085: IR view of lava flows

Located 1200 kilometers south of the giant shield volcano Arsia Mons, this infrared temperature image shows the flow margin of a young lava flow from Arsia that covers a much older flow. This young flow is 20 to 30 meters thick across most of its boundary edge. The large, unnamed crater at the bottom of the image is 12 kilometers across and has a depth of more than 700 meters.

VIS instrument. Latitude -30.1, Longitude 231.9 East (128.1 West). 100 meter/pixel resolution.

Voir l'image PIA04085: IR view of lava flows sur le site de la NASA.

PIA04449: Gale Crater Mound

The eroded, layered deposit in Gale Crater is a mound of material rising 3 km above the crater floor. It has been sculpted by wind and possibly water to produce the dramatic landforms seen today. The origin of the sedimentary material that composes the mound remains a contested issue: was it produced from sedimentation in an ancient crater lake or by airfall onto dry land?

Image information: VIS instrument. Latitude -5.1, Longitude 137.5 East (222.5 West). 19 meter/pixel resolution.

Voir l'image PIA04449: Gale Crater Mound sur le site de la NASA.

PIA04028: Candor Chasma on Mars, in Color

This image from the camera system on NASA. Mars Odyssey was acquired of Candor Chasma within Valles Marineris, centered near 5 degrees south latitude, 283 degrees east longitude. This visible color image shows the effects of erosion on a sequence of dramatically layered rocks. These layers were initially deposited within Candor Chasma and have subsequently been eroded by a variety of processes, including wind and down-slope motion due to gravity. Relatively dark materials appear to mantle some areas of the layered deposits; these dark materials are likely sand. Few impact craters of any size can be seen in this image, indicating that the erosion and transport of material is occurring at a relatively rapid rate, so that any craters that form are rapidly buried or eroded. This image was acquired using the thermal infrared imaging system.s visible bands 1 (centered at 420 nanometers), 2 (centered at 550 nanometers), and 3 (centered at 650 nanometers), and covers an area approximately 19 kilometers (12 miles) in width by 50 kilometers (50 miles) in length.

This and several other new color images can be obtained from the NASA Planetary Photojournal website.

Voir l'image PIA04028: Candor Chasma on Mars, in Color sur le site de la NASA.

PIA04511: Layers Upon Layers

Released 12 May 2003

A cliff of many terraces steps down from the south to the north in this image, showing many successive layers of material now eroded and exposed to the wind. A relatively thick and bright layer comprises one of the lowest strata, appearing more fluted and scarred by the wind than upper layers. Small bright bedforms near the terraces are probably composed of particulate material shed from this bright layer.

Image information: VIS instrument. Latitude -9.8, Longitude 285.4East (74.6). 19 meter/pixel resolution.

Voir l'image PIA04511: Layers Upon Layers sur le site de la NASA.

PIA04061: Appollinaris Patera

This THEMIS image shows parts of the dissected and eroded remnants of an impact crater rim and volcanic material located north of Apollinaris Patera near the southern highlands - northern lowlands dichotomy on Mars. The rugged terrain observed in the context image of the region has been interpreted as lava flows interbedded with eolian or volcanic pyroclastics while the more smooth terrain has been interpreted as ancient channel deposits. The high resolution THEMIS image shows the effects of erosion on these materials as parts of the rim have been dissected into a chaotic terrain. Smaller and heavily eroded impact craters are also observed in the image and are evidence of the powerful effects of erosion.

Voir l'image PIA04061: Appollinaris Patera sur le site de la NASA.

PIA04400: Remnants of Lost Geology

In eastern Arabia Terra, remnants of a once vast layered terrain are evident as isolated buttes, mesas, and deeply-filled craters. The origin of the presumed sediments that created the layers is unknown, but those same sediments, now eroded, may be the source of the thick mantle of dust that covers much of Arabia Terra today.

Image information: VIS instrument. Latitude 20.5, Longitude 50 East (310 West). 19 meter/pixel resolution.

Voir l'image PIA04400: Remnants of Lost Geology sur le site de la NASA.

PIA04558: Lycus Sulci

Released 6 June 2003

The remarkably rugged terrain that is part of a massive lobe of material extending over 700 km from the basal scarp of Olympus Mons is called sulci, which means furrows or grooves. This Latin word especially applies to the furrows on the surface of the brain, a definition that is visually fitting in the case of this image. The furrows are roughly a half to one km deep. Note the abundance of dark-toned slope streaks, which demonstrates that this is a region with significant dust accumulation.

Image information: VIS instrument. Latitude 21.3, Longitude 213.6 East (146.4 West). 19 meter/pixel resolution.

Voir l'image PIA04558: Lycus Sulci sur le site de la NASA.

PIA04523: Streamlined Hills of Maja Vallis

Released 16 May 2003

Classic catastrophic flood morphology (streamlined hills and longitudinal grooves) is captured in this image of Lunae Planum. Similar features (although much smaller in size) are seen in terrestrial catastrophic flood regions such as Channeled Scabland of Washington state and in Iceland.

Image information: VIS instrument. Latitude 14.8, Longitude 301.8East (58.2). 19 meter/pixel resolution.

Voir l'image PIA04523: Streamlined Hills of Maja Vallis sur le site de la NASA.

PIA04710: Eroded Surfaces

Released 19 August 2003

The knobby terrain and eroded impact crater observed in this THEMIS image of the Eumenides Dorsum region are evidence to a surface that has been heavily modified and stripped over time. Variable layering of material within the impact crater suggest a succession of events which eroded the surface and exposed possibly different units. Slope streaks and dust avalanches are also observed within the impact crater and point to recent and continued modification of the surface.

Image information: VIS instrument. Latitude 4.9, Longitude 203.6 East (156.4 West). 19 meter/pixel resolution.

PIA04066: Reull Vallis

Reull Vallis (from the Gaelic word for planet) located in the Promethei Terra region of Mars' cratered southern hemisphere flows for over 1,000 km towards the Hellas basin. This THEMIS image shows a portion of the channel with its enigmatic lineated floor deposits. These deposits are most likely rich in volatiles such as ice. The southern wall of the channel exhibits an obvious spur and gully topography. Several round impact craters are visible on the channel floor. Numerous crescentic features are also observed on the floor material. Could these crescentic features be older flow distorted craters? The THEMIS team will continue to study these features in detail.

Voir l'image PIA04066: Reull Vallis sur le site de la NASA.

PIA04407: Layered Deposits in Terby Crater

This somewhat cloudy THEMIS visible image shows a stunning example of layered deposits in Terby crater, just north of the Hellas impact basin. Some researchers argue that layered terrain in craters were deposited by water. However, in some places, layered deposits will extend for up to a kilometer above the crater rim, leading others to conclude that they must be volcanic airfall deposits.

Image information: VIS instrument. Latitude -27.3, Longitude 74.3 East (285.7 West). 19 meter/pixel resolution.

Voir l'image PIA04407: Layered Deposits in Terby Crater sur le site de la NASA.

PIA04648: South Polar Layered Deposits

Released 17 July 2003

Similar to ice cores taken from Greenland and Antarctica, Mars also has fine-scale layered deposits in both the north and south polar regions. In this image from the south pole, alternating light and dark bands represent varying amounts of dust or sand mixed in with carbon dioxide ice. These layers are related in part to climate cycles caused by variations in the tilt of Mars' rotational axis, as well as other orbital variations that occur on geologic time scales (tens of thousands of years).

Image information: VIS instrument. Latitude -80.1, Longitude 260.4 East (99.6 West). 19 meter/pixel resolution.

Voir l'image PIA04648: South Polar Layered Deposits sur le site de la NASA.

PIA04014: Ismeniae Fossae

A Fretted Channel dominates this region of Ismeniae Fossae which is located along the highland-lowland hemispheric dichotomy of the Red Planet. The topography of this region appears muted, most likely due to the presence of ground ice.

Voir l'image PIA04014: Ismeniae Fossae sur le site de la NASA.

PIA04068: Coprates Chasma Landslide

Coprates Chasma comprises the central portion of the Valles Marineris canyon system complex. This image of the southern wall of Coprates Chasma contains a landslide deposit with dunes over portions of slide. Landslides have very characteristic morphologies on Earth, which they also display on Mars. These morphologies include a distinctive escarpment at the uppermost part of the landslide--called a head scarp (seen at the bottom of this image), a down-dropped block of material below that escarpment that dropped almost vertically, and a deposit of debris that moved away from the escarpment at high speed. In this example, the wall rock displayed in the upper part of the cliff contains spurs and chutes created by differing amounts of erosion. The actual landslide deposit is delineated by its fan-shape and lobate margins. The dunes subsequently marched upon the landslide deposit.

Voir l'image PIA04068: Coprates Chasma Landslide sur le site de la NASA.

PIA04580: Wind, Water, and Lava

Released 18 June 2003

The three main geological agents acting on the Martian surface are visible in this image, within an outflow channel to the east of the Tharsis volcanos and north of Valles Marineris. In a wide channel previously eroded by water, linear features have been eroded into the rock by the wind. Later, lava flows embayed the streamlined rocks. A second, younger flow lobe is visible at the bottom of the image.

Image information: VIS instrument. Latitude 17, Longitude 283.6 East (76.4 West). 19 meter/pixel resolution.

Voir l'image PIA04580: Wind, Water, and Lava sur le site de la NASA.

PIA04646: Huygens Crater

Released 15 July 2003

The floor of the 450 km diameter crater named after Dutch astronomer Christian Huygens (1629-1695) shows an unusual texture. Smooth-topped mesas are scattered across a more rugged surface. The mesas are testament to a former smooth layer of material that is in the process of eroding away.

Image information: VIS instrument. Latitude -16.2, Longitude 54.5 East (305.5 West). 19 meter/pixel resolution.

Voir l'image PIA04646: Huygens Crater sur le site de la NASA.

PIA04556: Chaotic Terrain

Released 4 June 2003

Chaotic terrain on Mars is thought to form when there is a sudden removal of subsurface water or ice, causing the surface material to slump and break into blocks. The chaotic terrain in this THEMIS visible image is confined to a crater just south of Elysium Planitia. It is common to see chaotic terrain in the vicinity of the catastrophic outflow channels on Mars, but the terrain in this image is on the opposite side of the planet from these channels, making it somewhat of an oddity.

Image information: VIS instrument. Latitude -5.9, Longitude 108.1 East (251.9 West). 19 meter/pixel resolution.

Voir l'image PIA04556: Chaotic Terrain sur le site de la NASA.

PIA04013: Tiu Valles

The ancient, catastrophic floods on Mars, whose origins remain a mystery, produced a channeled and scoured landscape like this one which is called Tiu Valles.

PIA03982: Eroding Lava Flows

Today's image illustrates how radically the wind can affect the surface of Mars. The lava flows in this region have been covered by fine materials, and eroded by the sand blasting action of the wind. In this region the winds are blowing to the west, eroding the lava surface to form small east/west ridges and bumps. Given enough time the winds will change the appearance of the surface to such a large extent that all flow features will be erased.

Image information: VIS instrument. Latitude -11.7, Longitude 220 East (140 West). 17 meter/pixel resolution.

Voir l'image PIA03982: Eroding Lava Flows sur le site de la NASA.

PIA04126: Radial Erosion

The ejecta surrounding the crater (off image to the left) in this image has undergone significant erosion by the wind. The wind has stripped the surface features from the ejecta and has started to winnow away the ejecta blanket. Near the margin of the ejecta the wind is eroding along a radial pattern -- taking advantage of radial emplacement. Note the steep margin of the ejecta blanket. Most, if not all, of the fine ejecta material has been removed and the wind in now working on the more massive continuous ejecta blanket.

Image information: VIS instrument. Latitude 12.5, Longitude 197.4 East (162.6 West). 37 meter/pixel resolution.

Voir l'image PIA04126: Radial Erosion sur le site de la NASA.

PIA04708: Three Terrains

Released 13 August 2003

The great highland/lowland boundary that divides the whole of Mars cuts diagonally through this image. The smoother lowland terrain to the north appears to lap up against the highland terrain. An eroded layered terrain also is evident in the lower third of the image. This may be a remnant of the Medussae Fossae Formation, a lobe of which occurs just to the west of this scene.

Image information: VIS instrument. Latitude -10.8, Longitude 187.2 East (172.8 West). 19 meter/pixel resolution.

PIA03942: Tikhonravov Crater Dust Avalanches

These dust avalanches are located within a small crater inside Tikhonravov Crater.

Image information: VIS instrument. Latitude 12.6, Longitude 37.1 East (322.9 West). 36 meter/pixel resolution.

Voir l'image PIA03942: Tikhonravov Crater Dust Avalanches sur le site de la NASA.

PIA04002: Dunes in Becquerel Crater

Dark dunes on the floor of an interior crater in Becquerel apparently supply the sand responsible for the erosion of the remarkable, layered deposit to the south.

PIA04463: Textured Terrain

Released 14 April 2003

Hummocky, textured terrain within lava flows northwest of Pavonis Mons, one of the Tharsis volcanoes.

Image information: VIS instrument. Latitude 6.9, Longitude 243.7 East (116.3 West). 19 meter/pixel resolution.

Voir l'image PIA04463: Textured Terrain sur le site de la NASA.

PIA04005: Ulysses Fossae in Tharsis

Extensional forces in the volcanic province of Tharsis have produced a fractured terrain that resembles wrinkled skin.

PIA04464: Medusae Fossae Yardangs

Released 15 April 2003

The Medusae Fossae formation is an enigmatic pile of eroding sediments that spans over 5000 km in discontinuous masses along the martian equator. The yardang ridges, formed from the scouring action of windblown sand, are a characteristic feature of this formation. In this image, there is evidence for a period of erosion when winds scoured the surface at nearly right angles to the prominent yardang direction.

Image information: VIS instrument. Latitude -5.1, Longitude 184.4 East (175.6 West). 19 meter/pixel resolution.

Voir l'image PIA04464: Medusae Fossae Yardangs sur le site de la NASA.

PIA04121: Crater Ejecta

From crater exteriors we move to looking at crater ejecta with today's image. Note the radial "spokes" on the top of the ejecta surrounding the crater. These surface features are formed during the ballistic emplacement of the ejecta and other materials being thrown out of the crater by the force of the impact.

Image information: VIS instrument. Latitude 34.6, Longitude 326.1 East (33.9 West). 18 meter/pixel resolution.

Voir l'image PIA04121: Crater Ejecta sur le site de la NASA.

PIA03939: Crater Dust Avalanches

These dust avalanches are located in a small canyon within a crater rim northeast of Naktong Vallis.

Image information: VIS instrument. Latitude 7.1, Longitude 34.7 East (325.3 West). 17 meter/pixel resolution.

Voir l'image PIA03939: Crater Dust Avalanches sur le site de la NASA.

PIA04079: Cerberus Rupes

Fractures within the volcanic plains south of Elysium Mons.

Image information: VIS instrument. Latitude 24.1, Longitude 192 East (168 West). 19 meter/pixel resolution.

Voir l'image PIA04079: Cerberus Rupes sur le site de la NASA.

PIA04659: Wind Effects in Tharsis

Released 24 July 2003

Located on the western slope of the Tharsis volcanic bulge, this landscape shows the effect of the large-scale wind regime of the region. The northwest/southeast trending yardangs may have been eroded by winds from both directions, but there are some indicators, primarily on the lower left mesa, that the streamlined forms resulted from downslope (to the northwest) winds.

Image information: VIS instrument. Latitude -5, Longitude 200.3 East (159.7 West). 19 meter/pixel resolution.

PIA03937: Lycus Sulci Dust Avalanches

These dust avalanches occur on the slopes of Lycus Sulci near Olympus Mons.

Image information: VIS instrument. Latitude 28.1, Longitude 220.4 East (139.6 West). 18 meter/pixel resolution.

Voir l'image PIA03937: Lycus Sulci Dust Avalanches sur le site de la NASA.

PIA04077: Channels near Lucus Planum

Streamlined channels near Lucus Planum. These features were formed by catastrophic floods in the Martian past.

Voir l'image PIA04077: Channels near Lucus Planum sur le site de la NASA.

PIA04701: Knobby Terrain Down Under

Released 4 August 2003

At first glance, this THEMIS visible image appears to show chaotic terrain similar to several other areas which have been shown on this web page in recent weeks. However, this knobby terrain is in the southern highlands and nearly 100 degrees of longitude away from the equatorial chaotic terrain related to the giant outflow channels in the northern hemisphere. In addition, this knobby terrain does not seem to be inside of any kind of basin, like much of the chaotic terrain. What we may be seeing here are remnants of a rock layer that once existed but has been eroding away. It is important to note that this layer appears to have a higher albedo (visible brightness) than the surrounding terrain. This may indicate a difference in composition or grain size between the knobs and the surrounding terrain.

Image information: VIS instrument. Latitude -37.3, Longitude 164.1 East (195.9 West). 19 meter/pixel resolution.

PIA04070: Scaly-skinned Mars

The style of erosion along the highlands-lowlands boundary of southern Elysium Planitia has produced a strange pattern of troughs that look like the skin of a reptile. In reality, a very clear process of landscape degradation is evident in this image. Some process has produced polygon-shaped troughs that create zones of weakness in the uppermost crust. It is likely that wind-blown particles deepen and widen the troughs, producing isolated knobs and mesas. Ultimately, the erosional reworking of the landscape is so complete that all signs of the upper layer are removed, leaving the smooth lowland surface to the north.

Voir l'image PIA04070: Scaly-skinned Mars sur le site de la NASA.

PIA04411: Granicus Vallis

Granicus Vallis, located northwest of the Elysium volcanic complex, may owe its origin to the interaction of volcanic heating and subsurface ground ice. One of the most interesting features seen in this image are the quasi-dendritic depressions, best seen in the upper third of the image. These may be drainage systems formed by the melting of the local permafrost table. Granicus is the ancient name for a river in Turkey.

Image information: VIS instrument. Latitude 31.7, Longitude 125.4 East (234.6 West). 19 meter/pixel resolution.

Voir l'image PIA04411: Granicus Vallis sur le site de la NASA.

PIA04706: Charlier Crater Dunes

Released 11 August 2003

A crater named after a Swedish astronomer hosts a dune field that is brightened by a layer of frost. Although the crater is located at high southern latitudes, it is probably too late in the spring season for the dunes to retain the CO2 frost that forms during the southern winter; water ice is a better candidate for the dune frost.

Image information: VIS instrument. Latitude -68.1, Longitude 190.4 East (169.6 West). 19 meter/pixel resolution.

PIA04535: Crater Deformation

Released 20 May 2003

This crater is located at 37�N, a latitude far enough north that ground ice is present, and it sculpts the terrain when it moves. In this image, the western rim of the crater has been deformed from its original, presumably circular, shape. Note, however, that lobes of material and grooves (seen best at full resolution) in the crater's ejecta blanket are still pristine: perhaps ground ice moves the most on steep topography, such as on a crater rim.

Image information: VIS instrument. Latitude 37.6, Longitude 159.1 East (200.9) meter/pixel resolution.

Voir l'image PIA04535: Crater Deformation sur le site de la NASA.

PIA04094: Elysium Planitia

The ejecta of this impact crater appears to have been modified after it was emplaced. This modification may be due to the presence of subsurface ground ice.

Another possible indicator of ground ice is the texture seen on the floor of the crater. One can also see a spur and gully morphology inside the crater along its rim illustrating differential erosion of various rock types.

Image information: VIS instrument. Latitude 34.8, Longitude 117.4 East (242.6 West). 19 meter/pixel resolution.

Voir l'image PIA04094: Elysium Planitia sur le site de la NASA.

PIA04045: Late Afternoon Sun

This image of the northern plains of Mars shows a surface texture of hundreds of small mounds and numerous small impact craters. The THEMIS imaging team is taking advantage of the late afternoon sun illumination to image places like this where the surface may contain small scale features that are "washed-out" by higher illumination angles. As the sun dips towards the horizon (to the left side of the image), shadows are cast. The length of the shadows can be used to estimate the height of the feature casting them - or the depth of the crater that contains the shadow. In this image the craters - even very small ones - are now partially filled by shadow making it very easy to identify them. The small bumps are not casting shadows yet, but are easily seen. These small bumps were not easily identified when the sun angle was higher (earlier in the afternoon). As this image shows, late afternoon sun illumination is wonderful for making small scale morphologic features visible.

Voir l'image PIA04045: Late Afternoon Sun sur le site de la NASA.

PIA04617: Platy Flows

Released 7 July 2003

Platy flows covering the plains of Southern Elysium. These flows appear to be very fluid lava flows but a mudflow origin can't be completely ruled out for these flows.

Image information: VIS instrument. Latitude -2.9, Longitude 163.6 East (196.4 West). 19 meter/pixel resolution.

Voir l'image PIA04617: Platy Flows sur le site de la NASA.

PIA04489: Western Amazonis Flow Features and Crater Interaction

Released 30 April 2003

The predominant feature in this THEMIS image is a large flooded crater. Are the flows lava or mud? Scientists don't agree. Once again Mars has one up on us Earthbound humans!

Image information: VIS instrument. Latitude 26.9, Longitude 191.1 East (168.9 West). 19 meter/pixel resolution.

Voir l'image PIA04489: Western Amazonis Flow Features and Crater Interaction sur le site de la NASA.

PIA04458: Olympica Fossae

Released 8 April 2003

Olympica Fossae channel system located east of the Olympus Mons volcano in Tharsis. These anastomosing channels cut numerous lava flows indicating that the channels are younger than the lava flows. Some channels appear to be structurally controlled. These channels are most likely generated by volcano-ground ice interactions.

Image information: VIS instrument. Latitude 24.9, Longitude 246.3 East (133.8 West). 19 meter/pixel resolution.

Voir l'image PIA04458: Olympica Fossae sur le site de la NASA.

PIA04039: Lava Flows around Olympus Mons

At first glance, this image of lava flows around the large scarp of Olympus Mons shows little contrast in surface materials due to dust cover, but a closer look reveals textures characteristic of the variable surface roughness associated with different lava flows in this region. The lobate edges of the flows are distinctive, and permit the discrimination of many overlapping individual flows. On small scales, the surfaces of some flows look wrinkly and ropy, indicating a relatively fluid type of lava flow referred to as pahoehoe. Other surfaces appear more rough and broken, and might be referred to as a'a flows, which have higher viscosities and effusion rates compared to pahoehoe flows. The surface textures of lava flows can thus sometimes be used for comparative purposes to infer lava viscosity and effusion rates. There is also a bright streak in the wind shadow of the impact crater in the lower left of the image where dust that settles onto the surface is not easily scoured away.

Voir l'image PIA04039: Lava Flows around Olympus Mons sur le site de la NASA.

PIA04093: Concentric Crater Fill

The bizarre patterns on the floor of this crater in Nilosyrtis Mensae defy an easy explanation. At 34 degrees north latitude, this location hardly qualifies as "Arctic" yet it is likely that some form of periglacial process possibly combined with the vaporization of ground ice is responsible for this intriguing landscape.

Image information: VIS instrument. Latitude 10.3, Longitude 24.5 East (284.5 West). 19 meter/pixel resolution.

Voir l'image PIA04093: Concentric Crater Fill sur le site de la NASA.

PIA04042: "Bread Loaf" Mesa East of Phlegra Montes

An isolated mesa east of the Phlegra Montes in northeastern Elysium Planitia has a cracked surface that, combined with its overall shape, gives the appearance of a giant loaf of bread. Other mesas with similar surfaces are found in the area, suggesting that at one time these mesas were part of a continuous layer of material. It is likely that at that time, some process caused the graben-like cracks to form. Later erosion of the cracked layer left only the isolated mesas seen in the THEMIS image. One clue that supports this scenario is the presence of many filled and eroded craters throughout the scene but no fresh ones. One way to produce this landscape begins with an ancient and heavily cratered surface that subsequently is buried by some other material. If this overburden was stripped off relatively recently, not enough time would have passed to allow for a new population of fresh craters to be produced. The result would be a landscape with isolated mesas of younger material on top of an ancient, cratered surface.

Voir l'image PIA04042: "Bread Loaf" Mesa East of Phlegra Montes sur le site de la NASA.

PIA03970: Filled Crater

Today's VIS image shows Arsia Mons flows that have surrounded a large crater. At some point the flows broke through the crater rim and then filled the interior of the crater with lava.

Image information: VIS instrument. Latitude -20.3, Longitude 242.9 East (117.1 West). 17 meter/pixel resolution.

Voir l'image PIA03970: Filled Crater sur le site de la NASA.

PIA04480: Is It Snow?

Released 25 April 2003

Amidst the hummocky topography produced by the ejecta from Lyot crater, smooth patches of material fill shallow depressions. Most researchers would agree that ice probably is a component of the smooth material and has a role in producing the unusual style of erosion seen in this image. But is it ice rich sediment or ice covered by sediment?

Image information: VIS instrument. Latitude 53.5, Longitude 22.8 East (337.2 West). 19 meter/pixel resolution.

Voir l'image PIA04480: Is It Snow? sur le site de la NASA.

PIA04451: Hebrus Valles

About 1000 km west of the massive Elysium volcanic complex, a system of branching troughs shows a continuum of features that provides clues to their origin. Within the scene there are fully formed troughs, some approaching 2 km in depth, as well as shallow, discontinuous pits and troughs. The presence of the latter landforms suggests that a process of collapse is responsible for producing the deep and continuous final form of the troughs.

Image information: VIS instrument. Latitude 21.1, Longitude 123.3 East (236.7 West). 19 meter/pixel resolution.

Voir l'image PIA04451: Hebrus Valles sur le site de la NASA.

PIA04030: Crater in Cydonia

This image shows the dissected interior of a crater in the Cydonia region of Mars. The flat-topped buttes and mesas in the northern portion of the image were once a continuous layer of material that filled the crater. Since deposition, the material has been disturbed and dissected. The process that causes such landforms is not well known, but likely involves frozen subsurface water that may have found its way to the surface. The surfaces on the mesas are not rough, suggesting that the whole scene is mantled with fine dust, masking the details that may give clues to whether surface water was involved at some point in the past. Small recent channels can be seen in the lower left. This is an indication of relatively recent small-scale surface activity, which has been could have been volcanic, fluvial, or some process involving subsurface volatiles (ice).

Voir l'image PIA04030: Crater in Cydonia sur le site de la NASA.

PIA04456: Acidalia Planitia

The small mounds with summit depressions in the northern portion of this image have an unknown origin. Some scientists think they may be cinder cones, while others think they may be pseudocraters, formed by the interaction of lava and ice. These features are also observed in other areas of Mars' northern plains, such as Isidis Planitia.

Image information: VIS instrument. Latitude XX, Longitude XX East (XX West). 19 meter/pixel resolution.

Voir l'image PIA04456: Acidalia Planitia sur le site de la NASA.

PIA04037: Granicus Valles

The force of moving water from a flood carved these teardrop-shaped islands within Granicus Valles. The orientation of the islands can be used as an indicator of the direction the water flowed. In this case, the water flowed primarily towards the upper left of the image. The image also contains many narrow sinuous channels. Geologists can determine that the floods occurred before a later tectonic event in the region. This event caused the crust to fracture into numerous blocks and fissures (grabens). Many fissures can be seen cutting across the former flood pathways.

Voir l'image PIA04037: Granicus Valles sur le site de la NASA.