Mars

Mars

Mars has long been a source of fascination for those who seek life off the Earth. Early astronomers noted seasonal changes: the normally red surface of the planet could be seen to develop darker, greenish patches during the Martian ‘summer’, as the polar ice caps melt. They darken annually (in Martian terms) and always in the same patterns; in some years, they are more intense than others. This suggested the existence of plant growth to many astronomers before satellite exploration would suggest otherwise.

The twenty-two close-up photographs sent back by Mariner 4 in July 1965 showed a cratered surface with a thin atmosphere (largely composed of carbon dioxide at a pressure of 5 to 10 mbar). Later missions (especially Mariner 9 in 1971, Vikings 1 and 2 in 1976, Mars Global Surveyor since 1997 and Mars Pathfinder in 1997) have shown a dead planet without liquid water, suffering freezing temperatures and swept by violent winds. Nevertheless, they have also shown that conditions were once very different, with evidence for plate tectonics (no longer functioning), river channels, ocean shorelines and an atmosphere formerly richer in oxygen. This has led some researchers to suggest that not only life, but also an advanced civilisation may once have existed on Mars.

Cydonia Mensae

The part of Mars that has attracted most attention since satellite exploration of the planet began is the Cydonia Mensae region, located in the planet’s northern hemisphere. The region bears traces of former shorelines – it is now accepted by most astronomers that Mars was once home to large bodies of water – and of eroded hills and mountains, corresponding to terrestrial buttes and mesas. A number of features were seen on Viking Orbiter photographs from the mid 1970s that led some researchers to suggest that they were artificial in origin. One of the most impressive parts of this claim was the concentration of anomalies in a single area; these anomalies included what was claimed to be an enormous carved face, three- and five-sided pyramids showing bilateral symmetry and walled compounds. Moreover, some of these features appeared to be in alignment with each other. The so-called ‘Face’ has attracted most attention.

Viking Orbiter 1 Frame 070a13, taken 24 August 1976

Viking Orbiter 1 Frame 070a13, taken 24 August 1976

The ‘Face’

The ‘Face’ has been known as that since NASA engineers dubbed it such as a convenient shorthand. Located at about 40.9° N 9.45° W, it was photographed by the Viking Orbiter 1 on 25 July 1976 whilst obtaining images of a site suitable for Viking Lander 2. Eighteen images of the region were taken, but of these, eleven have resolutions worse than 550 m per pixel (in other words, no feature less than 550 m across can be seen on these images). Only two of them (frames 070A13, taken on 24 August 1976, and 035A72, taken on 20 July 1976) have resolutions of better than 50 m per pixel. They show a subrectangular elevated feature that displays roughly bilateral symmetry similar to a human face. The length is estimated as 2 km, the width as 1.5 km and the height as about 400 m. The long axis of the face is aligned at a bearing of approximately 329° to the Martian North Pole. In Frame 070A13, the sun is 28° above the horizon, while in 035A72, it is 11°; these differences in angle reveal slightly different details in the ‘Face’.

Detail from Viking Orbiter 1 Frame 035a72, taken on 20 July 1976

Detail from Viking Orbiter 1 Frame 035a72, taken on 20 July 1976

The ‘Face’ lies close to the boundary between an area of flat-topped mesas and conical hills to its south-west, and a much flatter region in which it lies. Claims have been made for the presence of a former shoreline close to the ‘Face’, which may be important in considering its likely origin. Erosion is generally cited as the main factor in the creation of the landforms in this region, but a variety of claims were made during the 1980s and 90s that this was not sufficient to explain a number of features of the ‘Face’. The original view of astronomers was that the northern past of Mars had originally been covered with a sediment that subsequently eroded, perhaps as a result of wind action. As evidence for the former presence of surface water on the planet has increased, so it has begun to seem more likely that the erosion in this region may have been exacerbated by former seas.

The ‘Face’

The ‘Face’

The initial announcement of the discovery of this feature dismissed it as being “formed by shadows giving the illusion of eyes, nose and mouth”. The public took little notice of it until DiPietro and Molenaar published an analysis of the formation in 1982, in which they concluded that it was artificial. Since then, a number of popular writers have taken up the theme, most notably Richard Hoagland and Graham Hancock. The widespread availability of computers for processing digital images from the mid-1980s onwards led to a great deal of amateur work on the Viking Orbiter photographs. Different techniques for enhancing the photographs have been used, including techniques that attempt to deduce three-dimensional shape from shadows, the interpolation of pixels and so on. These techniques were all used to make the ‘Face’ appear more detailed and more humanoid than on the original satellite images. The ‘Face’ has become an iconic image, familiar to millions; its ghost-like features stare blankly from the covers of numerous books and videos. Demands for photographs of higher quality than those of 1976 – with their resolutions of no better than 43 m per pixel – grew during the 1990s, especially when NASA announced the forthcoming launch of Mars Observer on 22 September 1992. Equipped with a camera that could achieve a best resolution of up to 1.4 m per pixel, the probe was lost on 21 August 1993, three days before entering Martian orbit.

A new image of the face obtained in 1998 by Mars Orbital Camera, Frame SPO-1-220/03

A new image of the face obtained in 1998 by Mars Orbital Camera, Frame SPO-1-220/03

Predictably, the loss of the spacecraft prompted suggestions of conspiracy. They can be discounted on the grounds of cost alone: had NASA wished to reassure the public that it was interested in finding out more about the face whilst being determined to prove it natural, it could have found a less expensive way of doing it than sabotaging a mission designed to obtain better photographs. Indeed, the less expensive means is what the conspiracy theorists suggested about the results of the next probe, the Mars Global Surveyor: they declared the first photograph of the ‘Face’ obtained by the Mars Orbital Camera (Frame SPO-1-220/03) on 5 April 1998 to be fake. The original release of the photograph in an unenhanced form ought to have reassured the public that NASA was being as fair as possible.

An enhanced version of the 1998 image

An enhanced version of the 1998 image

This prompted yet more claims of unfair play when Malin Space Systems (which had designed the camera) released an enhanced version on the following day, removing the more egregious sampling errors from the raw data. The enhanced version shows none of the signs of artificiality alleged for the 1970s images, despite the claims of its supporters. The 1998 image, unlike the Viking Orbiter images, is an oblique, with all the distortion that entails. Even so, the ‘Face’ appears as a highly eroded ridge, with a steep perimeter. A second photograph from the Mars Orbital Camera, taken on 3 June 2000 and released on 31 January 2001, shows only a small part of the ‘Face’, but it confirms the 1998 photograph in every respect. This one, by contrast, is a near-vertical image. Supporters of artificiality have subsequently focused on the bilateral symmetry of the object, with its central ridge (the nose) and the apparent valley below the nose (the mouth); there is, however, no sign of a depression to the north-west of the south-western end of the ridge that would provide the missing ‘left eye’, nor does the ridge appear to be central to the mesa, confirming the lack of symmetry on the unprocessed version of Viking Orbiter image 070A13. To explain the lack of resemblance to the original view of the ‘Face’ as a highly structured and artificial carving, they now have to accept either that it has suffered a great deal of erosion from its pristine form or that NASA has tampered with the photograph taken by the Mars Orbital Camera, as it was the identification of the pristine form that led to the claims for artificiality being made in the first place.

The ‘Face’ therefore emerges as an optical illusion (exactly as its discoverers in 1976 had claimed), known technically as pareidolia. This is the phenomenon that allows believers to see an image of Mother Theresa in a cinnamon bun or the Arabic name of Allah in a sliced aubergine. The basis of the illusion is the human brain’s tendency to make understandable and detailed patterns from vague stimuli; the same ability allows us to recognise melodies from short or distorted fragments and to see numbers in patterns of dots used for tests of colour blindness. Faces are one of the first patterns the infant human learns to recognise, so it is unsurprising that a face-like mesa on Mars should be ‘read’; by so many as an actual representation of a human (or closely humanoid) face.

The so-called D&M Pyramid

The so-called D&M Pyramid

The ‘D&M Pyramid’

Close to the ‘Face’, DiPietro and Molenaar noticed a number of angular peaks. Some of these appeared to be geometrically regular and they dubbed them ‘pyramids’. One in particular, to the south-west, appeared to possess impressive geometric characteristics. It can be seen on image 035A72, to the right of the ‘Face’ and a better view of it was obtained from image 070A13. From the shadow, it can be calculated that the peak stands some 500 m above the surrounding plain.

Richard Hoagland dubbed it the D&M Pyramid, in honour of DiPietro and Molenaar, and the name has stuck. The better photograph reveals it to be roughly pentagonal with apparent bilateral symmetry. The supposed main axis points towards the ‘Face’; the south-west angle points towards the ‘city’ and the north-west angle towards a circular feature referred to as the ‘tholus’, named after its resemblance to the Tholos tombs of the Aegean Early Bronze Age. A variety of mathematical relationships have been claimed for the angles and the ratios between them, involving the square roots of two and thee and the relationship e/π. These relationships are impressive, but they depend on an assumption that one face of the ‘pyramid’ has been damaged at some stage and that its shadowed face is as apparently smooth as the undamaged faces.

A 1998 image of the D&M Pyramid

A 1998 image of the D&M Pyramid

When viewed on a pixel-by-pixel basis, the ‘straight’ edges can be seen to diverge from their supposed lines by up to two pixels (which, at the resolution of this photograph, is equivalent to 86 m). Moreover, the sides that ought to be of identical length for the ratios to be correct are not. The south-western base measures 21.6 pixels (calculated as the hypotenuse of a triangle whose two other sides are 12 and 18 pixels on the image), which calculates to be approximately 930 m; the north-western is 23.7 (i.e. √(112 + 212)) pixels or 1020 m. This is a difference of almost 10%. Similarly, the northern and southern faces, which ought to be identical are 27.2 (√(82 + 262)) and 30.8 (√(72 + 302)) pixels respectively (or 1170 m and 1325 m), a difference of more than 13%. The calculations performed by Erol Torun are based on Mark Carlotto’s enhancement of the image, which interpolates data between pixels; the figures calculated here are based on the original data, lengths of side being calculated by applying Pythagoras’s Theorem to a direct count of pixels on Viking Orbiter frame 070A13. The margin of error in each calculated length is not greater than one pixel, so even allowing for this (and therefore accommodating Carlotto’s enhancements), we cannot state that any two sides are of equal length. The data, poor as they are, will simply not support the assertion. On this basis, we can discount the geometric evidence supporting the contention that the ‘D&M Pyramid’ is an artificial construction.

Moreover, the same Mars Orbital Camera frame that rephotographed the ‘Face’ in 1998 also clipped the north-western corner of the ‘D&M Pyramid’. This confirms the analysis of the Viking Orbiter frames, that there is no convincing evidence for artificiality whatsoever in the feature, even though only a small part of it is covered by the image. The sides are not smooth in any sense, the base does not consist of straight lines, nor is there a sharp angle at the corner or between ‘faces’, at least on this part of the supposed monument. In archaeological terms, the case can be considered closed.

The so-called ‘city’

The so-called ‘city’

The ‘city’

To the north of the ‘Face’ lies an area dubbed ‘the city’ because of its supposed concentration of monuments. These principally consist of further ‘pyramids’, generally with three or five faces and therefore quite unlike any human pyramids in Egypt or Mesoamerica. The same general problems that attend the ‘D&M Pyramid’ apply here. The supposed regularity of these structures vanishes once a careful count is made of pixel numbers on the raw images and allowance is made for the margin of error in pixel size (which is 47 m on this photograph, 035A72). Moreover, the Mars Orbital Camera reveals a mountain very similar to the ‘D&M Pyramid’. At the extreme north-western end of the monuments is the so-called ‘fort’, which, in DiPietro and Molenaar’s enhancements, gains a row of cellular structures along its eastern edge. They are too small to be visible on the original Viking Orbiter photograph, which means that no amount of enhancement can bring them out: they can only be artefacts of the enhancement process. The Mars Orbital Camera rephotographed the ‘fort’ on three separate occasions, with it each time appearing as a low hill with erosion features that include apparently recent landslips.

The so-called ‘tholus’ as seen in 1976

The so-called ‘tholus’ as seen in 1976

Other ‘sites’ on Mars

Claims for artificiality have been made for several other sites on Mars, mostly in the Cydonia Mensae region. The ‘tholus’ has already been mentioned, but there is little about its appearance to suggest an artificial origin. Whereas the 1976 Viking Orbiter photographs give it a smooth and near-circular appearance, the Mars Orbital Camera photograph frame m03/00766, taken on 4 July 1999 with a resolution of 3.11 m per pixel, makes it clear that the feature is entirely natural. There appear to be perhaps three relict shorelines around the feature that suggest it was once an island in the shallow ocean thought to have existed in this area in the remote past. There are also supposed to be further faces, an ‘Inca city’, runways and other features that cannot be explained in terms of geology. Again, many of these turn out to be based on enhancements of the Viking Orbiter images that cannot bear the weight of interpretation placed on them. Claims of this nature are not being made for the Mars Orbital Camera images, except for a few much smaller features that nevertheless also appear to be of geological origin. Much of the debate revolves around those features picked out from the Viking Orbiter photographs as being anomalous.

The ‘tholus’ as seen in 1998

The ‘tholus’ as seen in 1998

There are at least two other claimed faces, in addition to the crater formation dubbed the ‘smiley face’ by NASA engineers keen to show that the original ‘Face’ was nothing more than an optical illusion. Neither of the two supposedly artificial faces is of a size comparable with the Cydonia Mensae formation, nor is either of them more than vaguely similar to a human face. Both are at very poor resolutions and both resemble pareidolic images of the face of Jesus seen in foliage. Similarly, there have been claims for images of dolphins. There is no need to examine these claims here, as most investigators outside the fringe have chosen to ignore them, and the claims rarely surface in the fringe literature (other than on websites whose content is often very bizarre). Claims have also been made for the existence of pyramids in Elysium Regio, but they suffer from exactly the same problems as the pyramids of Cydonia Mensae: poor resolution on the Viking Orbiter images and Mars Orbital Camera images that does not support the artificiality hypothesis.

On the other hand, the Mars Orbital Camera is revealing all manner of curious and unexpected formations. The discovery of such features as mottled surfaces apparently deriving from the partial erosion of light sand dunes exposing darker bedrock and so-called ‘glass tubes’ that seem to be volcanic in origin is important in adding significantly to our understanding of geomorphological (areomorphological?) processes on the planet. The Mars Sojourner roving vehicle also showed much the same sort of surface as the Viking landers had more than twenty years previously, but in greater detail and with the advantage of multiple perspectives. What is significant about recent photographs from the planet is the lack of visible artificial monuments, especially claimed new ‘sites’.