Transverse Aeolian Ridges (TARs) on Mars

Abstract: Aeolian processes are probably the dominant ongoing surface process on Mars; Large Dark Dunes (LDDs), particularly common aeolian landforms, were first recognized in the early 1970s. Recent, higher resolution images have revealed another, morphologically distinct, large population of smaller, ripple-like aeolian bedforms that have been termed "Transverse Aeolian Ridges" (TARs) as it is unknown whether they formed as large ripples or small dunes. We have begun a new study of TARs that examines their distributio… Show more

“…2B) is the signature of TARs (48,51,52). TARs may form as a result of coarse-grain armoring, giant saltation trajectories, or deposition of dust transported in suspension (52)(53)(54)(55), and are distinct from the large ripples in activity and morphology: (i) activity of TARs has not been detected (46,56), (ii) their wavelengths are generally larger and more widely distributed (e.g., Table S2), (iii) they have symmetric topographic profiles (54), and (iv) they tend to have a much higher albedo than the dark, active, mafic sands. Thus, the large martian ripples are distinct from TARs.…”

Large wind ripples on Mars: A record of atmospheric evolution

“…2B) is the signature of TARs (48,51,52). TARs may form as a result of coarse-grain armoring, giant saltation trajectories, or deposition of dust transported in suspension (52)(53)(54)(55), and are distinct from the large ripples in activity and morphology: (i) activity of TARs has not been detected (46,56), (ii) their wavelengths are generally larger and more widely distributed (e.g., Table S2), (iii) they have symmetric topographic profiles (54), and (iv) they tend to have a much higher albedo than the dark, active, mafic sands. Thus, the large martian ripples are distinct from TARs.…”

Large wind ripples on Mars: A record of atmospheric evolution

“…Global studies show that bright TARs are generally older than dark dunes and lack any clear evidence of recent activity (Balme et al, 2008;Bridges et al, 2012a). This seems confirmed by evidence of cratered and eroded TARs reported from several areas of Mars (Reiss et al, 2004;Golombek et al, 2010;Kerber and Head, 2011).…”

Bedform migration on Mars: Current results and future plans

“…8), landforms that develop from significantly different emplacement processes; this ambiguity led to the use of the nongenetic term 'transverse Aeolian ridge' (TAR) to describe these features in order to preserve an open mind as to their formation mechanism (Bourke et al, 2003;Wilson and Zimbelman, 2004). Assessments of TARs have been conducted at both regional and global scales, making use of MOC and THEMIS images (Balme et al, 2008) and, more recently, HiRISE images (Zimbelman, 2010;Berman et al, 2011). The evidence indicates that both small dunes and large ripples (megaripples) are found at the 10-m scale, so that continued use of a non-genetic term still seems warranted (Zimbelman, 2010;Berman et al, 2011).…”

Recent developments in planetary Aeolian studies and their terrestrial analogs