Constraints on Overland Fluid Transport Through Martian Valley Networks. M

Constraints on Overland Fluid Transport Through Martian Valley Networks. M

Lunar and Planetary Science XXXI 1189.pdf CONSTRAINTS ON OVERLAND FLUID TRANSPORT THROUGH MARTIAN VALLEY NETWORKS. M. C. Malin and K. S. Edgett, Malin Space Science Systems, Box 910148, San Diego, CA 92191-0148, USA. Introduction: Since their discovery in Mariner 9 networks. images [1,2], Òrunoff channelsÓ [3], or more properly, Flow Integration: Arguably the best example Òmartian valley networksÓ [4,5] have been almost uni- found on Mars of an arborescent network are the War- versally cited as the best evidence that Mars once rego Valles. Earlier Viking data, and now MGS im- maintained an environment capable of supporting the ages, raise serious questions concerning the interpreta- flow of liquid water across its surface. Unlike Òoutflow tion of these valleys as surficial drainage. First, the channels,Ó that appear to indicate brief, catastrophic valleys are not Òthrough-going,Ó but rather consist of releases of fluid from very localized sources, valley transecting, elongate, occasionally isolated depres- networks often display arborescent patterns, sinuosity sions. Second, mass movements appear to have played and occasionally meandering patterns that imply proc- a role in both extending and widening the valleys. esses of overland flow: drainage basin development Third, the valley walls are extremely subdued, reflect- and sustained surficial transport of fluid. As part of the ing either mantling or an origin by collapse. These on-going Mars Global Surveyor (MGS) Mars Orbiter attributes suggest that collapse may have played the Camera (MOC) imaging activities, many observations dominant role in formation of valley networks of valley networks have been planned and executed; the Discussion: Groundwater follows topographic gra- results of some of these observations have been previ- dients nearly as effectively as surface water. The prin- ously reported [6,7]. Here we provide a few cautionary cipal issue is whether the apparent contributory pattern notes regarding generalizations that have been made of surficial water can be produced solely by groundwa- about the martian hydrosphere based on Mariner, Vi- ter, or if groundwater processes must mimic pre- king, and some MGS results. existing tributary patterns. If the former is possible, Sustained Flow: Since its ÒreleaseÓ at a budget then martian valley networks may require little if any press conference by Vice President Gore in February surficial flow. Even if it is not, the relationships seen 1998, Figure 1 (a view of Nanedi Vallis) has become in MOC data suggest that few, if any, surfaces preserve the most often shown MOC image, evoking as it does the evidence of surface fluid flow: these features may visions of a meandering martian river valley. Within have been removed or buried. An intriguing possibility the image is, arguably, the best evidence found of sus- is that most valley networks are being exhumed. tained fluid flow on MarsÑthe small, inner channel References: [1]ÊMcCauley, J. F. et al., (1972) Ica- seen at the north (top) end of the image. However, rus, 17, 289-327. [2] Milton, D. J. (1973) JGR, 78, little additional evidence has been found of this inner 4037-4047. [3] Sharp, R. P. and Malin, M. C. (1975) channel in any of the branches of Nanedi. Although the GSA Bull., 86, 593-609. [4]ÊPieri, D. C. (1980), Sci- canyon floor is covered by wind-blown sediment, this ence, 210, 895-897. [5]ÊMars Channel Working Group. sediment is not sufficiently thick to completely mantle (1983) GSA Bull., 94, 1035-1054. [6]ÊMalin, M. C. all but the single exposure of the inner channel. The and Carr, M. H. (1999) Nature, 397, 589Ð591. [7] absence of attendant features (such as inner benches or Carr, M. H. et al. (2000) Icarus, (in press). terraces) in any of the other reaches of Nanedi further differentiates this reach from any other in the system. Inner channels within other valley networks are ex- Figure 1. Portion of MOC image AB1-08704 of tremely rare. In over a thousand images of networks, Nanedi, that shows the best evidence for sustained only one other reach of one other valley (Figure 2) flow yet found on MarsÑthe small, inner channel seen shows an inner channel. The valley that most visually at the top of the image. resembles Nanedi, (displaying, e.g., a pattern reminis- Figure 2. Portion of MOC image M07-00752, cent of large-scale meanders) is Nirgal; the image of showing a reach in central Nirgal Vallis with ÒnestedÓ the inner channel is of a reach within Nirgal. Two fea- interior channels. In neither case is the volume of eo- tures are seen interior to the walls of Nirgal: paired, lian sediment sufficient to completely mask the mor- broad terraces extending from the walls toward the phology. center of the valley and defining a broad, flat-floored Figure 3. Viking Orbiter context for MOC image channel between them, and a smaller, sharply defined M02-04864 (inset), showing one of the better branch- interior channel with what appear to be raised, leeved ing valley networks within the Warrego Valles, and the banks. outline of Figure 4. The evidence for sustained flow in Nirgal and Figure 4. Portion of MOC image M02-04864, Nanedi, and its virtual absence everywhere else, sug- showing a portion of one of the Warrego Valles. In gests that sustained flow, even within the constrained this example, it is clear that the valley consists of tran- context of the centripetal drainage pattern of Nanedi, secting, elongate, occasionally isolated depressions. Of was extremely rare on Mars during the timescale repre- particular note is the mass movement in the upper- sented by the present surface expressions of valley most, center portion of the image. Lunar and Planetary Science XXXI 1189.pdf CONSTRAINTS ON MARTIAN VALLEY FLOW RELATIONSHIPS: M. C. Malin and K. S. Edgett Figure 3 Figure 1 Figure 2 Figure 4.

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