Granular flows at recurring slope lineae on Mars indicate a limited role for liquid water

Dundas, C. M.; McEwen, A. S.; Chojnacki, M.; Milazzo, M. P.; Byrne, Shane; McElwaine, J. N.; Urso, Anna

doi:10.1038/s41561-017-0012-5

Cited by 107 publications

(99 citation statements)

References 47 publications

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“…In this paper, we have reviewed the observational evidence previously derived from visible imagery and near-IR spectral imagery in favour of a contribution of liquid water to the initiation and/or development of RSL still considered in recent studies (Dundas et al, 2017). We showed in section 2 that instrumental biases have been misinterpreted as evidence for salts at RSL.…”

Section: Resultsmentioning

confidence: 99%

Observational evidence for a dry dust-wind origin of Mars seasonal dark flows

Vincendon

Pilorget

Carter

et al. 2019

Icarus

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CitationVincendon, M.; Pilorget, C.; Carter, J.; Stcherbinine, A. (2019). Observational evidence for a dry dustwind origin of Mars seasonal dark flows, Icarus, 325, 115-127, AbstractSeasonal flows on warm slopes, or recurring slope lineae ("RSL"), have been presented as strong evidence for currently flowing water on Mars. This assumption was supported by a correlation between activity and warm temperatures, and by the spectral identification of hydrated salts. Here we first demonstrate that salts spectral identification is not robust, and that flow activity occurs on a wider range of seasons and slope orientations than previously thought, ruling out liquid water as a probable contributor. We then show that morphology, location and timing of flow activity is fully consistent with the removal and deposition of bright dust above darker underlying surfaces occurring notably in relation with seasonal dust storm activity. Mars recurring slope lineae are thus consistent with dust movements typical of present-day dry planet Mars.

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Section: Resultsmentioning

confidence: 99%

Observational evidence for a dry dust-wind origin of Mars seasonal dark flows

Vincendon

Pilorget

Carter

et al. 2019

Icarus

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“…Runoff at Lyot crater -either ice-melt or snowmelt -marks the youngest definite climate-driven water runoff on Mars. Shallow <100°C groundwater at 0.1-1.7 Ga is recorded by meteorites, but it is not clear if this shallow groundwater required a wet climate (Borg & Drake 2005, Swindle 2000, Nemchin et al 2014 (Dundas et al 2017a(Dundas et al , 2017bLeask et al 2018).…”

Section: Late Noachian / Early Hesperian (~36 Ga)mentioning

confidence: 99%

Geologic Constraints on Early Mars Climate

Kite

2019

Space Sci Rev

117

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Early Mars climate research has well-defined goals (Mars Exploration Program Analysis Group 2018). Achieving these goals requires geologists and climate modelers to coordinate. Coordination is easier if results are expressed in terms of well-defined parameters. Key parameters include the following quantitative geologic constraints.(1) Cumulative post-3.4 Ga precipitation-sourced water runoff in some places exceeded 1 km column. (2) There is no single Early Mars climate problem: the traces of ≥2 riverforming periods are seen. Relative to rivers that formed earlier in Mars history, rivers that formed later in Mars history are found preferentially at lower elevations, and show a stronger dependence on latitude. (3) The duration of the longest individual river-forming climate was >(10 2 -10 3 ) yr, based on paleolake hydrology. (4) Peak runoff production was >0.1 mm/hr. However, (5) peak runoff production was intermittent, sustained (in a given catchment) for only <10% of the duration of river-forming climates. (6) The cumulative number of wet years during the valley-network-forming period was >10 5 yr. (7) Post-Noachian light-toned, layered sedimentary rocks took >10 7 yr to accumulate. However, (8) an "average" place on Mars saw water for <10 7 yr after the Noachian, suggesting that the river-forming climates were interspersed with long globally-dry intervals. (9) Geologic proxies for Early Mars atmospheric pressure indicate pressure was not less than 0.012 bar but not much more than 1 bar. A truth table of these geologic constraints versus currently published climate models shows that the late persistence of river-forming climates, combined with the long duration of individual lake-forming climates, is a challenge for most models. Kraal, Erin R.; Asphaug, Erik; Moore, Jeffery M.; Howard, Alan; Bredt, Adam, 2008a, Catalogue of large alluvial fans in martian impact craters, Icarus, 194, 1, 101-110. Kraal, Erin R.; van Dijk, Maurits; Postma, George; Kleinhans, Maarten G., 2008b, Martian stepped-delta formation by rapid water release, Nature, 451, 7181, 973-976.Kurahashi-Nakamura, Takasumi; Tajika, Eiichi, 2006, Atmospheric collapse and transport of carbon dioxide into the subsurface on early Mars, Geophys. Res. Lett., 33, L18205.

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“…The geomorphology of younger craters with fluidized ejecta blanket (Carr et al, 1977;Mouginis-Mark, 1987) and more recently recurring slope lineae (Chevrier & Rivera-Valentin, 2012;Levy, 2012;McEwen et al, 2011McEwen et al, , 2014Ojha et al, 2014Ojha et al, , 2015 all indicate that the ice-rich and/or salt-ice mixture materials (producing enough brine to account for the recently observed flow features) still exist in today's Mars surface/subsurface. Though recurring slope lineae were recently interpreted as dry mass wasting (granular flows; Dundas et al, 2017), the strong seasonality associated with warm slopes and the detection of hydrated salts are still consistent with some role for water in their initiation (Dundas et al, 2017). Therefore, the remelting of the salt-ice mixture materials and subsequent evaporation would have contributed to the formation of PSS landforms 10.1029/2018JE005525…”

Section: Hydrology Of Lacustrine/playa Environments On Mars and Its Imentioning

confidence: 99%

The Polygonal Surface Structures in the Dalangtan Playa, Qaidam Basin, NW China: Controlling Factors for Their Formation and Implications for Analogous Martian Landforms

Dang

Xiao

et al. 2018

JGR Planets

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Abundant polygonal surface structure (PSS) landforms within the Qaidam Basin, Tibetan Plateau, northwestern China, are considered to be excellent analogues for the PSSs on Mars. In this study, we have carried out fieldwork in the Dalangtan Playa, a large dried salt lake in the northwestern Qaidam Basin, complemented with laboratory analyses of collected samples. Our study shows that (1) the playa PSSs can be divided into three groups: small (<10 m), medium (10–100 m), and large (>100 m) according to their sizes; (2) the samples collected from the PSSs are dominated by halite (mostly >50 wt %), followed by feldspar (mostly ~20 wt %), quartz, and minor clays; (3) illite‐ and chlorite‐dominated clay minerals are detected in nearly all medium‐ to large‐sized PSS regions; the average halite content of small‐sized PSSs is higher than that of larger PSSs; (4) most small‐sized PSSs are distributed on the flat playa floors, while larger PSSs tend to occur at the edge of the Dalangtan Playa with higher elevations. The topography within the Dalangtan Playa controls different mineralogical precipitation primarily due to evaporation processes. Thus, correlations of the size‐dependent PSS occurrences and elevations seem to indicate that the PSS formation is strongly influenced by the mineralogy. The geomorphological similarity of these PSSs and their counterparts on Mars indicates that the Martian PSSs likely formed as a result of environmental change from wet to dryer condition, and it also suggests that there are similar controlling factors responsible for the PSS formation on Mars.

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Granular flows at recurring slope lineae on Mars indicate a limited role for liquid water

Cited by 107 publications

References 47 publications

Observational evidence for a dry dust-wind origin of Mars seasonal dark flows

Observational evidence for a dry dust-wind origin of Mars seasonal dark flows

Geologic Constraints on Early Mars Climate

The Polygonal Surface Structures in the Dalangtan Playa, Qaidam Basin, NW China: Controlling Factors for Their Formation and Implications for Analogous Martian Landforms

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