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Dichotomies in the fluvial and alluvial fan deposits of the Aeolis Dorsa, Mars: Implications for weathered sediment and paleoclimate
Robert E. Jacobsen,
Devon M. Burr
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Article
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peer-review
13
Scopus citations
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Dive into the research topics of 'Dichotomies in the fluvial and alluvial fan deposits of the Aeolis Dorsa, Mars: Implications for weathered sediment and paleoclimate'. Together they form a unique fingerprint.
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Keyphrases
Paleoclimate
100%
Mars
100%
Fluvial Fan
100%
Alluvial Fan Deposits
100%
Aeolis Dorsa
100%
Alluvial Fan
40%
Fluvial Deposits
40%
Sedimentary Conditions
30%
Fluvial Channel
20%
Process Conditions
20%
Hydrologic Processes
20%
Relative Abundance
10%
Debris Flow
10%
Hydrological Regime
10%
Snowmelt
10%
Hydrology
10%
Orographic Precipitation
10%
Local Area
10%
Terrestrial Analogs
10%
Debris Flow Deposits
10%
Local History
10%
Channel Fill
10%
Martian Analogue
10%
Meandering Channel
10%
Formative Process
10%
Wide Channels
10%
Sheetflood
10%
Channelized
10%
Regional Stratigraphy
10%
Channel Flow
10%
Earth and Planetary Sciences
Paleoclimate
100%
Alluvial Fan
100%
Dichotomy
100%
Fluvial Deposit
66%
Debris Flow
33%
Locale
16%
Morphology
16%
Snowmelt
16%
Stratigraphy
16%
Sedimentology
16%
Channel Flow
16%