Martian soil

Martian soil is the fine regolith (a blanket of unconsolidated, loose, heterogeneous superficial deposits covering solid rock) found on the surface of Mars. Its properties can differ significantly from those of terrestrial soil, including its toxicity due to the presence of perchlorates. The term Martian soil typically refers to the finer fraction of regolith. So far, no samples have been returned to Earth, the goal of a Mars sample-return mission, but the soil has been studied remotely with the use of Mars rovers and Mars orbiters.

On Earth, the term "soil" usually includes organic content.^[1] In contrast, planetary scientists adopt a functional definition of soil to distinguish it from rocks.^[2] Rocks generally refer to 10 cm scale and larger materials (e.g., fragments, breccia, and exposed outcrops) with high thermal inertia, with areal fractions consistent with the Viking Infrared Thermal Mapper (IRTM) data, and immobile under current aeolian (wind) conditions.^[2] Consequently, rocks classify as grains exceeding the size of cobbles on the Wentworth scale.

This approach enables agreement across Martian remote sensing methods that span the electromagnetic spectrum from gamma to radio waves. ‘‘Soil’’ refers to all other, typically unconsolidated, material including those sufficiently fine-grained to be mobilized by wind.^[2] Soil consequently encompasses a variety of regolith components identified at landing sites. Typical examples include: bedform (a feature that develops at the interface of fluid and a moveable bed such as ripples and dunes), clasts (fragments of pre-existing minerals and rock such as sediment deposits), concretions, drift, dust, rocky fragments, and sand. The functional definition reinforces a recently proposed generic definition of soil on terrestrial bodies (including asteroids and satellites) as an unconsolidated and chemically weathered surficial layer of fine-grained mineral or organic material exceeding centimeter scale thickness, with or without coarse elements and cemented portions.^[1]

Martian dust generally connotes even finer materials than Martian soil, the fraction which is less than 30 micrometres in diameter. Disagreement over the significance of soil's definition arises due to the lack of an integrated concept of soil in the literature. The pragmatic definition "medium for plant growth" has been commonly adopted in the planetary science community but a more complex definition describes soil as "(bio)geochemically/physically altered material at the surface of a planetary body that encompasses surficial extraterrestrial telluric deposits." This definition emphasizes that soil is a body that retains information about its environmental history and that does not need the presence of life to form.

^ ^a ^b Certini, Giacomo; Ugolini, Fiorenzo C. (2013). "An updated, expanded, universal definition of soil". Geoderma. 192: 378–379. Bibcode:2013Geode.192..378C. doi:10.1016/j.geoderma.2012.07.008.
^ ^a ^b ^c Karunatillake, Suniti; Keller, John M.; Squyres, Steven W.; Boynton, William V.; Brückner, Johannes; Janes, Daniel M.; Gasnault, Olivier; Newsom, Horton E. (2007). "Chemical compositions at Mars landing sites subject to Mars Odyssey Gamma Ray Spectrometer constraints". Journal of Geophysical Research. 112 (E8): E08S90. Bibcode:2007JGRE..112.8S90K. doi:10.1029/2006JE002859.

[CertiniUgolini2013-1] Certini, Giacomo; Ugolini, Fiorenzo C. (2013). "An updated, expanded, universal definition of soil". Geoderma. 192: 378–379. Bibcode:2013Geode.192..378C. doi:10.1016/j.geoderma.2012.07.008.

[Karunatillake2007-2] Karunatillake, Suniti; Keller, John M.; Squyres, Steven W.; Boynton, William V.; Brückner, Johannes; Janes, Daniel M.; Gasnault, Olivier; Newsom, Horton E. (2007). "Chemical compositions at Mars landing sites subject to Mars Odyssey Gamma Ray Spectrometer constraints". Journal of Geophysical Research. 112 (E8): E08S90. Bibcode:2007JGRE..112.8S90K. doi:10.1029/2006JE002859.

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Martian soil

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