Analog Studies

Viewing Lobate Patterns On Mars And Earth As Climate Modulated Fluid-like Instabilities

By Keith Cowing

Status Report

Science

May 13, 2025

Filed under Analog, Earth, geology, HiRISE, Mars, solifluction lobes

Viewing Lobate Patterns On Mars And Earth As Climate Modulated Fluid-like Instabilities — A) Orthophoto of solifluction lobes in Norway (The Norwegian Mapping Authority) with overlays (lower right) of fluid contact line instabilities in a numerical model (; Kondic and Diez, 2001) and physical experiment (Huppert, 1982). B) Definition sketch of relevant variables for theoretical scaling analysis (regular font) and measurements taken from remote sensing imagery (bold text). C) Lobate patterns on Mars located in a 4 km-wide crater at 65° N 335° E (HiRISE ESP_025901_2460, patch 7), annotated to show downhill slope direction, lobe width or wavelength , lobe length , the location of lobe riser height measurement, and topographic profile lines used to make measurements. D) Example of larger lobate patterns located in a ∼ 2.4 km-wide crater at 72° N 126° E (ESP_027768_2525, patch 8). — sciencedirect

Lobate features found on high-latitude slopes on Mars resemble terrestrial cold-climate soil patterns known as solifluction lobes.

Whether this provides evidence of freeze thaw processes on Mars or pattern equifinality is up for debate. Guided by recently developed theory for solifluction pattern formation inspired by fluid instabilities, here we compare HiRISE imagery of Martian lobes with a large dataset of solifluction lobes on Earth and find that they exhibit similar morphologic scaling.

Our data show that Martian lobes are roughly 2.6 times taller than their Earth counterparts, indicative of lobe height set by cohesive soil strength under different gravitational conditions. We also explore possible climate controls on Martian lobe morphology using elevation, aspect, and temperature data.

Our work suggests mechanistic similarities between lobate patterns on Earth and Mars that point toward icy origins for these features, with implications for our understanding of climate controls on Martian surface processes.

Viewing lobate patterns on Mars and Earth as climate modulated fluid-like instabilities, Science,

Astrobiology

Keith Cowing

Explorers Club Fellow, ex-NASA Space Station Payload manager/space biologist, Away Teams, Journalist, Lapsed climber, Synaesthete, Na’Vi-Jedi-Freman-Buddhist-mix, ASL, Devon Island and Everest Base Camp veteran, (he/him) 🖖🏻

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