Literature DB >> 16001061

Aeolian processes at the Mars Exploration Rover Meridiani Planum landing site.

R Sullivan1, D Banfield, J F Bell, W Calvin, D Fike, M Golombek, R Greeley, J Grotzinger, K Herkenhoff, D Jerolmack, M Malin, D Ming, L A Soderblom, S W Squyres, S Thompson, W A Watters, C M Weitz, A Yen.   

Abstract

The martian surface is a natural laboratory for testing our understanding of the physics of aeolian (wind-related) processes in an environment different from that of Earth. Martian surface markings and atmospheric opacity are time-variable, indicating that fine particles at the surface are mobilized regularly by wind. Regolith (unconsolidated surface material) at the Mars Exploration Rover Opportunity's landing site has been affected greatly by wind, which has created and reoriented bedforms, sorted grains, and eroded bedrock. Aeolian features here preserve a unique record of changing wind direction and wind strength. Here we present an in situ examination of a martian bright wind streak, which provides evidence consistent with a previously proposed formational model for such features. We also show that a widely used criterion for distinguishing between aeolian saltation- and suspension-dominated grain behaviour is different on Mars, and that estimated wind friction speeds between 2 and 3 m s(-1), most recently from the northwest, are associated with recent global dust storms, providing ground truth for climate model predictions.

Entities:  

Year:  2005        PMID: 16001061     DOI: 10.1038/nature03641

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  12 in total

1.  Dune formation under bimodal winds.

Authors:  Eric J R Parteli; Orencio Durán; Haim Tsoar; Veit Schwämmle; Hans J Herrmann
Journal:  Proc Natl Acad Sci U S A       Date:  2009-12-14       Impact factor: 11.205

2.  Giant saltation on Mars.

Authors:  Murilo P Almeida; Eric J R Parteli; José S Andrade; Hans J Herrmann
Journal:  Proc Natl Acad Sci U S A       Date:  2008-04-28       Impact factor: 11.205

3.  The Geologic Exploration of the Bagnold Dune Field at Gale Crater by the Curiosity Rover.

Authors:  Matthew Chojnacki; Lori K Fenton
Journal:  J Geophys Res Planets       Date:  2017-11-01       Impact factor: 3.755

4.  Widespread Megaripple Activity Across the North Polar Ergs of Mars.

Authors:  Matthew Chojnacki; David A Vaz; Simone Silvestro; David C A Silva
Journal:  J Geophys Res Planets       Date:  2021-11-12       Impact factor: 3.755

5.  Soil Thermophysical Properties Near the InSight Lander Derived From 50 Sols of Radiometer Measurements.

Authors:  Sylvain Piqueux; Nils Müller; Matthias Grott; Matthew Siegler; Ehouarn Millour; Francois Forget; Mark Lemmon; Matthew Golombek; Nathan Williams; John Grant; Nicholas Warner; Veronique Ansan; Ingrid Daubar; Jörg Knollenberg; Justin Maki; Aymeric Spiga; Don Banfield; Tilman Spohn; Susan Smrekar; Bruce Banerdt
Journal:  J Geophys Res Planets       Date:  2021-08-12       Impact factor: 4.434

Review 6.  Active Mars: A Dynamic World.

Authors:  Colin M Dundas; Patricio Becerra; Shane Byrne; Matthew Chojnacki; Ingrid J Daubar; Serina Diniega; Candice J Hansen; Kenneth E Herkenhoff; Margaret E Landis; Alfred S McEwen; Ganna Portyankina; Adomas Valantinas
Journal:  J Geophys Res Planets       Date:  2021-07-29       Impact factor: 4.434

7.  Orbital and In-Situ Investigation of Periodic Bedrock Ridges in Glen Torridon, Gale Crater, Mars.

Authors:  Kathryn M Stack; William E Dietrich; Michael P Lamb; Robert J Sullivan; John R Christian; Claire E Newman; Catherine D O'Connell-Cooper; Jonathan W Sneed; Mackenzie Day; Mariah Baker; Raymond E Arvidson; Christopher M Fedo; Sabrina Khan; Rebecca M E Williams; Kristen A Bennett; Alexander B Bryk; Shannon Cofield; Lauren A Edgar; Valerie K Fox; Abigail A Fraeman; Christopher H House; David M Rubin; Vivian Z Sun; Jason K Van Beek
Journal:  J Geophys Res Planets       Date:  2022-05-26       Impact factor: 4.434

8.  Chemistry, mineralogy, and grain properties at Namib and High dunes, Bagnold dune field, Gale crater, Mars: A synthesis of Curiosity rover observations.

Authors:  B L Ehlmann; K S Edgett; B Sutter; C N Achilles; M L Litvak; M G A Lapotre; R Sullivan; A A Fraeman; R E Arvidson; D F Blake; N T Bridges; P G Conrad; A Cousin; R T Downs; T S J Gabriel; R Gellert; V E Hamilton; C Hardgrove; J R Johnson; S Kuhn; P R Mahaffy; S Maurice; M McHenry; P-Y Meslin; D W Ming; M E Minitti; J M Morookian; R V Morris; C D O'Connell-Cooper; P C Pinet; S K Rowland; S Schröder; K L Siebach; N T Stein; L M Thompson; D T Vaniman; A R Vasavada; D F Wellington; R C Wiens; A S Yen
Journal:  J Geophys Res Planets       Date:  2017-12-07       Impact factor: 3.755

9.  Surface energy budget and thermal inertia at Gale Crater: Calculations from ground-based measurements.

Authors:  G M Martínez; N Rennó; E Fischer; C S Borlina; B Hallet; M de la Torre Juárez; A R Vasavada; M Ramos; V Hamilton; J Gomez-Elvira; R M Haberle
Journal:  J Geophys Res Planets       Date:  2014-08-08       Impact factor: 3.755

10.  The Medusae Fossae Formation as the single largest source of dust on Mars.

Authors:  Lujendra Ojha; Kevin Lewis; Suniti Karunatillake; Mariek Schmidt
Journal:  Nat Commun       Date:  2018-07-20       Impact factor: 14.919
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