EPSC2017-260, 2017 European Planetary Science Congress 2017 Eeuropeapn Planetarsy Science Ccongress C Author(S) 2017

EPSC2017-260, 2017 European Planetary Science Congress 2017 Eeuropeapn Planetarsy Science Ccongress C Author(S) 2017

EPSC Abstracts Vol. 11, EPSC2017-260, 2017 European Planetary Science Congress 2017 EEuropeaPn PlanetarSy Science CCongress c Author(s) 2017 Formation of recurring slope lineae on Mars by rarefied gas-triggered granular flows F. Schmidt (1), F. Andrieu (1), F. Costard (1), M. Kocifaj (2,3) and A. G. Meresescu (1) (1) GEOPS, Univ. Paris-Sud, CNRS, Université Paris-Saclay, Rue du Belvédère, Bât. 504-509, 91405 Orsay, France (2) ICA, Slovak Academy of Sciences, Dubravska Road 9, 845 03 Bratislava, Slovak Republic (3) Faculty of Mathematics, Physics, and Informatics, Comenius University, Mlynska dolina, 842 48 Bratislava, Slovak Republic (frederic.schmidt@@u-psud.fr) Abstract been excluded near the crater rim [3]. In addition, the actual amount of atmospheric water required to re- Recurring Slope Linae or RSL are seasonal dark charge the RSL's source each year seems not features appearing when the soil reaches its sufficient. The precise thermal calculations using maximum temperature. They appear on various THEMIS measurement instrument show no evidence slopes at the equator of Mars, in orientation of liquid water [6] and there is no direct evidence of depending on the season. Today, liquid water related liquid water from CRISM, but only indirect detection processes have been promoted, such as deliquescence [4]. of salts. Nevertheless external atmospheric source of water is inconsistent with the observations. Internal We propose here a re-interpretation of the RSL source is also very unlikely. We take into features and a new process to explain the RSL consideration here the force occurring when the sun activity without involving any volatiles. This process illuminates granular soil in rarefied gas conditions to aims to reconcile all available data. We put forward produce a Knudsen pump. This process significantly that the photophoretic effect, triggered by the sun lowers the angle of repose of sandy material. Hence, radiation, modifies seasonally the angle of repose of relatively low slope could start to flow. RSL seems to the granular material. Since the slopes of granular originate from rough terrains and boulders. We material are stable near 30°, even a minor change in propose that the local shadows due to boulders over the angle of repose due to the air flux in the porous the soil, is the triggering phenomena. In this case, the space of the soil could significantly change the Knudsen pump is magnified and could lead to flow. stability. This new exotic dry process involving neither water nor CO2 and is consistent with the seasonal and 2. Method facet’s orientation appearance of RSL. Knowing the direct solar flux, the one scattered by 1. Introduction the atmosphere, and the thermal infrared flux from the Mars Climate Database [7], we estimate the The temperature and solar irradiation dependence has incoming energy fluxes on various facet. By using been recognized very early, and has been mainly these values as boundary conditions on a precise interpreted as an effect of humidity [1, 2]. Indeed, thermal surface balance model [8,9], we aim at RSL activity occurs in the closest point to liquid estimating the Knudsen pump effects on one water in the phase diagram, at present time on Mars particular RSL site: Garni crater. Each facet is [3]. Various sources of liquid water have been computed for a slope of 30° and different orientation, discussed: subsurface aquifers, melting of subsurface throughout all the seasons. ice, deliquescence of salt recharged by atmospheric water [4]. 3. Results Nevertheless, the location of RSL is near the equator Figure 1 shows the angle of repose of a granular where atmospheric water vapor is at the lowest [5]. material, modified by the natural pump. Without this Also, the surface condensation of atmospheric water pumping effect, the angle of repose remains constant ice rarely occurs and subsurface ice is not stable. The though time with a values ~30°. With regular source of water seems still a mystery because an pumping effect, there is only very few changes in the internal source, such as a subsurface aquifer, has also angle of repose. Figure 2a showsAngle the of reposesame forpump an without enhanced shadow pump (°) due b Angle of repose pump with shadow (°) to the shadowingN of a boulder. Here we show that the 32 N 32 switch off of direct solar irradiation considerably 27 27 lowers the angle of repose, but also varies along the 31 27 30 31 28 28 solar cycle. Figure 2 also superposes the activity 28 W W 28 29 30 29 30 30 29 observed in Garni carter31 [3]. Flows activity occurs 29 29 always in period31 of low repose angle. The proposed 29 29 29 mechanism has a good agreement between activity 30 S S 30 28 31 30 31 and low period of angle of repose. 28 28 28 29 28 Aspect (°) Aspect (°) 30 31 30 29 27 27 E E 29 Angle of repose pump without shadow (°) Angle of repose29 pump with shadow (°) a b 29 N 32 N 28 28 32 26 30 28 26 27 27 27 29 27 30 31 27 30 31 28 N 25 N 28 25 0 90 180 270 360 28 0 90 180 270 360 W W 28 29 Ls (°) 30 Ls29 (°) 30 30 31 29 29 29 31 29 29 29 Figure 30 2: Idem figure 1, expect for the enhanced S S 30 28 31 30 31 28 28 28 pump. 29 28 Aspect (°) Aspect (°) 30 31 30 29 27 27 E E 29 References29 29 28 28 26 30 28 26 27 [1] McEwen, A. S., et al. (2011),29 Science, 333, 740-743 [2] 27 McEwen, A. S., et al. (2014),30 Nature Geoscience, 7, 53-58 N 25 N 25 0 90 180 270 360 [3]0 Chojnacki,90 M., et180 al. (2016),270 Journal 360of Geophysical Ls (°) Research: Planets, Ls121, (°) 1204-1231 [4] Ojha, L., et al. (2015), Nature Geoscience, 8, 829-832 [5] Smith, M. D. (2002), JGR, 107, 5115- [6] Edwards, C. S. & Piqueux, S. Figure 1: Angle of repose, modified by the Knudsen (2016), GRL, 43, 8912-8919 [7] Lewis, S. R., et al. (1999), pump effect, as a function of slope aspect and season JGR, 104, 24177-24194 [8] Kocifaj, M., et al. (2010), for the regular pump. Black lines represents the RSL Monthly Notices of the Royal Astronomical Society [9] activity observed at Garni crater. Each activity is Kocifaj, M., et al. (2011), Icarus, 211, 832-838 [10] encompassed by two images: before and after. Schmidt., F. et al. (2017), Nature Geoscience, 10, 270-273 4. Conclusion We propose an original mechanism for RSL as a result of a dry natural pump within the granular soil [10]. This mechanism is exotic and can’t occur on Earth due to high-pressure level. On Mars, our model suggests that the Knudsen pump is efficient enough to trigger a flow in accordance with observed seasonality of RSL. Since the equator of Mars is most probably volatiles depleted, this mechanism should be considered as good candidate to explain RSL features. In this case, liquid water may not be present on Mars at present time. .

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