HelioWebM. G. A. Lapôtre
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A[M. G. A. Lapôtre]
AC["Associated Concepts (22)"]
AW["Authored Works (16)"]
CA["Linked Co-Authors (16)"]
CI["Linked Collaborating Institutions (17)"]
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AW== author ==>CA
AW== affil ==>CI
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- ORCiD
- https://orcid.org/0000-0001-9941-1552
- OpenAlex ID
- https://openalex.org/A5001474786 (API record)
Associated Concepts [?]
- Geology
- Biology
- Physics
- Astrobiology
- Astronomy
- Geomorphology
- Paleontology
- Mars Exploration Program
- Geography
- Engineering
- Aeolian processes
- Martian
- Geochemistry
- Chemistry
- Sediment
- Impact crater
- Aerospace engineering
- Sediment transport
- Thermodynamics
- Ecology
- Materials science
- Cartography
Authored Works
sorted by decreasing year, and then by display-name
- Stream Widening and Accelerated Lateral Migration from Wildfire-Induced Watershed-Wide Perturbations in Sediment Flux
- Quantifying the Radial Distribution of Meter-Sized Boulders Around Lunar Impact Craters of Variable Degradation State and Target Properties
- Machine Learning-Driven Detection of Boulders on the Martian Surface
- Isolating the Role of Slope Change Due to Glacial Isostatic Adjustment on Meander Rates and River Morphology in the Red River (North Dakota, USA)
- Impact of Surface Volatiles on the Slipface Slope Angle of Martian Barchan Dunes
- Deep Learning for Boulder Detection on Planetary Surfaces
- Compositional Trends with Distance from Source to Sink in Glaciovolcanic Mars-Analog Fluvial Systems
- A Distinct Dune-Formation Regime on Mars
- A Depositional Model for Meandering Rivers in Unvegetated Arid Basins
- The Role Of Glaciovolcanic Sources In Iceland's Mars-Analog Sedimentary Systems.
- The Power of Comparative Planetology to Decipher the Mechanics of Surface Processes and Their Records
- Point-Bar and Channel-Fill Deposits of an Unvegetated Distributary Fluvial System: Implications for Jezero Crater, Mars
- New Constraints on Grain Size of Eolian Sediments in the Stimson Sandstone, Gale Crater, Mars and Implications for Paleoclimate
- Global Surface Winds Inferred from Barchan Dunes on Mars Using a Convolutional Neural Network
- Drainage initiation and expansion in bedrock landscapes
- Accumulation rates of aeolian sediments in martian impact craters
Linked Co-Authors
- Aaron T. Steelquist
- Andrew Gunn
- B. Horgan
- C. C. Bedford
- E. B. Rampe
- G. E. Hilley
- Hannah Kerner
- K. L. Siebach
- Lior Rubanenko
- M. Nachon
- M. T. Thorpe
- Mark L. Willenbring
- Patrick C. Gray
- Samuel T. Kodama
- Stéphanie C. Werner
- Zhang Xiao
Linked Collaborating Institutions
- California Institute of Technology
- California State Polytechnic University, Pomona
- Duke University, North Carolina
- Laurentian University, Canada
- Lunar and Planetary Institute, Houston
- Monash University, Australia
- NASA Johnson Space Center
- National Sun Yat-sen University, Taiwan
- Purdue University, Indiana
- Rice University, Texas
- SETI Institute, California
- Stanford University, California
- Texas A&M University, College Station
- University of California, Berkeley
- University of California, Santa Cruz
- University of Maryland, College Park
- University of Oslo, Norway
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