Regolith

Regolith visible on picture "Postcard Above Tennessee Valley"

Regolith is the layer of rocky or icy debris, sand, and dust made by meteoritic impact that forms the uppermost surface of planets, satellites and asteroids. It is a possible construction material in the form of bricks. Loose regolith may also be used as a radiation shield.

Landscapes with regolith formation have been found that look like they were shaped by the flow of water. Those formations were probably created by "gas-supported density flows". ^[1]

Composition

The below table gives estimates of mineral composition based on the soil sample measurements performed by two Mars probes. Only the 6 most abundant minerals are listed.

Estimated abundance (weight %) of main components of Martian soil^[2]
	SiO₂	Fe₂O₃	Al₂O₃	MgO	CaO	SO₃
Viking	46.3	19.4	7.7	6.4	6.2	7.9
Pathfinder	48.6	17.5	8.3	7.5	6.3	5.4

The following table shows the results of an analysis of 11 igneous meteorites of Martian origin, which were divided into 5 standard geological categories based on their composition.

Atomic density values from a sample of Martian meteorites^[3]
Element	Atoms/gram
	Basalt	Lherzolite	Clinopyroxenite	Orthopyroxenite	Dunite
O	1.60 X 10²²	1.58 X 10²²	1.54 X 10²²	1.65 X 10²²	1.51 X 10²²
Na	2.35 X 10²⁰	9.15 X 10¹⁹	1.13 X 10²⁰	2.66 X 10¹⁹	2.51 X 10¹⁹
Mg	1.61 X 10²¹	4.07 X 10²¹	1.79 X 10²¹	3.77 X 10²¹	4.81 X 10²¹
Al	8.50 X 10²⁰	3.34 X 10²⁰	1.94 X 10²⁰	1.45 X 10²⁰	8.23 X 10¹⁹
Si	5.01 X 10²¹	4.50 X 10²¹	4.88 X 10²¹	5.38 X 10²¹	3.87 X 10²¹
P	5.60 X 10¹⁹	2.00 X 10¹⁹	3.76 X 10¹⁸	0	6.41 X 10¹⁸
K	1.23 X 10¹⁹	3.31 X 10¹⁸	2.93 X 10¹⁹	1.95 X 10¹⁸	5.31 X 10¹⁸
Ca	1.06 X 10²¹	4.04 X 10²⁰	1.56 X 10²¹	1.98 X 10²⁰	6.52 X 10¹⁹
Ti	8.21 X 10¹⁹	3.28 X 10¹⁹	2.59 X 10¹⁹	1.53 X 10¹⁹	7.60 X 10¹⁸
Mn	4.42 X 10¹⁹	3.91 X 10¹⁹	5.69 X 10¹⁹	4.04 X 10¹⁹	4.51 X 10¹⁹
Fe	1.58 X 10²¹	1.67 X 10²¹	1.79 X 10²¹	1.46 X 10²¹	2.29 X 10²¹

Open Issues

How radioactive is regolith?
What are the compositions of the regolith near possible settlement sites?

References

↑ How the landscape is formed to the shape of floods: THE COLLAPSE ORIGIN OF DENSITY FLOWS ON MARS
↑ Bell JF, McSween HY, Crisp JA, Morris RV, Murchie SL, Bridges NT,...Soderblom L. (2000). Mineralogic and compositional properties of Martian soil and dust: Results from Mars Pathfinder. Journal of Geophysical Research, 105(E1), 1721-1755. https://doi.org/10.1029/1999JE001060
↑ Kim MY, Thibeault SA, Simonsen LC, Wilson JW. (1998). Comparison of Martian Meteorites and Martian Regolith as Shield Materials for Galactic Cosmic Rays. NASA TP-1998-208724. http://hdl.handle.net/2060/19980237030

[1] How the landscape is formed to the shape of floods: THE COLLAPSE ORIGIN OF DENSITY FLOWS ON MARS

[2] Bell JF, McSween HY, Crisp JA, Morris RV, Murchie SL, Bridges NT,...Soderblom L. (2000). Mineralogic and compositional properties of Martian soil and dust: Results from Mars Pathfinder. Journal of Geophysical Research, 105(E1), 1721-1755. https://doi.org/10.1029/1999JE001060

[3] Kim MY, Thibeault SA, Simonsen LC, Wilson JW. (1998). Comparison of Martian Meteorites and Martian Regolith as Shield Materials for Galactic Cosmic Rays. NASA TP-1998-208724. http://hdl.handle.net/2060/19980237030

[1]

[2]

[3]

Regolith

Composition

Open Issues

References

Navigation menu

Marspedia

Personal tools

Namespaces

Variants

Views

Search

Navigation

Our Wikis

Participating Orgs

Tools