2022
DOI: 10.1038/s41467-021-26985-3
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Megaripple mechanics: bimodal transport ingrained in bimodal sands

Abstract: Aeolian sand transport is a major process shaping landscapes on Earth and on diverse celestial bodies. Conditions favoring bimodal sand transport, with fine-grain saltation driving coarse-grain reptation, give rise to the evolution of megaripples with a characteristic bimodal sand composition. Here, we derive a unified phase diagram for this special aeolian process and the ensuing nonequilibrium megaripple morphodynamics by means of a conceptually simple quantitative model, grounded in the grain-scale physics.… Show more

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Cited by 19 publications
(21 citation statements)
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“…On Earth, such ripples can attain heights of decimeters under ideal conditions and are known by many terms (megaripples, coarse‐grained ripples, granule ripples, aeolian ridges) partly because of the diversity such bedforms exhibit depending on the grain size‐frequency of local sediment available for transport and locally prevailing wind strengths (e.g., Bagnold, 1941, pp. 144–160; Fryberger et al., 1992; Jerolmack et al., 2006; Lämmell et al., 2018; Sharp, 1963; Tholen et al., 2022). Despite this nomenclature confusion, what all of these bedforms have in common is that the coarsest grains covering their crests are too large to saltate, so are mobilized in creep‐like movements by high‐speed impacts of finer saltating sand.…”
Section: Analysis Of Aeolian Observations and Climate Model Predictionsmentioning
confidence: 99%
“…On Earth, such ripples can attain heights of decimeters under ideal conditions and are known by many terms (megaripples, coarse‐grained ripples, granule ripples, aeolian ridges) partly because of the diversity such bedforms exhibit depending on the grain size‐frequency of local sediment available for transport and locally prevailing wind strengths (e.g., Bagnold, 1941, pp. 144–160; Fryberger et al., 1992; Jerolmack et al., 2006; Lämmell et al., 2018; Sharp, 1963; Tholen et al., 2022). Despite this nomenclature confusion, what all of these bedforms have in common is that the coarsest grains covering their crests are too large to saltate, so are mobilized in creep‐like movements by high‐speed impacts of finer saltating sand.…”
Section: Analysis Of Aeolian Observations and Climate Model Predictionsmentioning
confidence: 99%
“…1). On Earth, meter-scale ripples only form in the presence of wide or bimodal grain-size distributions, with two grain-size populations moving through two distinct transport modes-saltation and creep 3 . However, many large ripples on Mars lack a concentration of coarser grains that would be transported in creep near their crests [4][5][6][7][8] and thus cannot be explained by bimodal transport 3 .…”
mentioning
confidence: 99%
“…The more recent work by Tholen et al. (2022) on the formation of bedforms composed of bimodal (finer and coarser) sands, as is often the case for coarse‐grained ripples, predicts that on Mars the maximum size of the coarser fraction should be 4.5 times size of the maximum size of the fraction transported in saltation. This would require that the saltating grains on MP were larger than 0.22 mm—mainly in the medium sand fraction—the fraction that is missing on the plains.…”
Section: Discussionmentioning
confidence: 97%