Dust from Mars-Analog Plains (Iceland): Physico-Compositional Properties as a Function of Grain-Size Fraction

Dust is a key component of the geological and climatic systems of Earth and Mars. On Mars, dust is ubiquitous. It coats rocks and soils, and, in the atmosphere, it interacts strongly with solar and thermal radiation. Yet, key questions remain about the genesis and fate of martian dust, as well as it...

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Bibliographic Details
Main Authors: Marcantonio, F., Schimmenti, D., Sinha, P., Mason, K., Tice, M., Lapotre, M., Nachon, Marion, Romero, L., Harrington, A. D., Thorpe, M. T., Rampe, E. B., Ewing, R. C., Horgan, B., Bedford, C., Champion, E.
Format: Other/Unknown Material
Language:unknown
Published: 2020
Subjects:
Space Sciences (General)
Iceland
Online Access:http://hdl.handle.net/2060/20200001955
Description
Summary:Dust is a key component of the geological and climatic systems of Earth and Mars. On Mars, dust is ubiquitous. It coats rocks and soils, and, in the atmosphere, it interacts strongly with solar and thermal radiation. Yet, key questions remain about the genesis and fate of martian dust, as well as its sources, composition, and properties. We collected wind-blown dust from basaltic plains in SW Iceland at Skjaldbreiauhraun that represent a geologic Mars-analog environment. Icelandic dust differs from the typical continental sources (e.g. Sahara, Asia) because of its basaltic volcanogenic origin, which is similar to Mars. Dust collection took place in July of 2019 as a complementary project to the SAND-E: Semi-Autonomous Navigation for Detrital Environments project. Here we report preliminary analyses of this Mars-analog dust material, with the goal of understanding the processes that control the physico-chemical proper-ties of the different grain-size fractions.

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