Chemical processes on the planetary surface

Mikhail Zolotov; V. P. Volkov

Chemical processes on the planetary surface

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

Chemical weathering of primary rocks on the surface of Venus is evidenced by a number of indirect arguments. Thermodynamic calculations show that the measured concentrations of chemically active atmospheric gases are high enough for the following chemical alteration processes of primary minerals of mafic and ultramafic igneous rocks to proceed: carbonization, oxidation, hydration(?), formation of sulfates, sulfides, and F- and Cl-bearing minerals. The rock-forming minerals of acidic rocks are stable on the surface. The highlands are considered a planetary terrain of maximum favorable conditions for chemical weathering. Aeolian abrasion at the micro- and megascopic scale at the highlands is a possible geological agent affecting the chemical interaction of rocks with atmospheric gases. If global chemical equilibrium does exist in the atmosphere-surface rock system, weathering should be widely distributed on the surface of Venus. -from Authors

Original language	English (US)
Title of host publication	Venus geology, geochemistry and geophysics
Editors	V.L. Barsukov
Publisher	University of Arizona Press
Pages	177-199
Number of pages	23
State	Published - 1992
Externally published	Yes

ASJC Scopus subject areas

Earth and Planetary Sciences(all)
Environmental Science(all)

Cite this

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title = "Chemical processes on the planetary surface",

abstract = "Chemical weathering of primary rocks on the surface of Venus is evidenced by a number of indirect arguments. Thermodynamic calculations show that the measured concentrations of chemically active atmospheric gases are high enough for the following chemical alteration processes of primary minerals of mafic and ultramafic igneous rocks to proceed: carbonization, oxidation, hydration(?), formation of sulfates, sulfides, and F- and Cl-bearing minerals. The rock-forming minerals of acidic rocks are stable on the surface. The highlands are considered a planetary terrain of maximum favorable conditions for chemical weathering. Aeolian abrasion at the micro- and megascopic scale at the highlands is a possible geological agent affecting the chemical interaction of rocks with atmospheric gases. If global chemical equilibrium does exist in the atmosphere-surface rock system, weathering should be widely distributed on the surface of Venus. -from Authors",

author = "Mikhail Zolotov and Volkov, {V. P.}",

year = "1992",

language = "English (US)",

pages = "177--199",

editor = "V.L. Barsukov",

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T1 - Chemical processes on the planetary surface

AU - Zolotov, Mikhail

AU - Volkov, V. P.

PY - 1992

Y1 - 1992

N2 - Chemical weathering of primary rocks on the surface of Venus is evidenced by a number of indirect arguments. Thermodynamic calculations show that the measured concentrations of chemically active atmospheric gases are high enough for the following chemical alteration processes of primary minerals of mafic and ultramafic igneous rocks to proceed: carbonization, oxidation, hydration(?), formation of sulfates, sulfides, and F- and Cl-bearing minerals. The rock-forming minerals of acidic rocks are stable on the surface. The highlands are considered a planetary terrain of maximum favorable conditions for chemical weathering. Aeolian abrasion at the micro- and megascopic scale at the highlands is a possible geological agent affecting the chemical interaction of rocks with atmospheric gases. If global chemical equilibrium does exist in the atmosphere-surface rock system, weathering should be widely distributed on the surface of Venus. -from Authors

AB - Chemical weathering of primary rocks on the surface of Venus is evidenced by a number of indirect arguments. Thermodynamic calculations show that the measured concentrations of chemically active atmospheric gases are high enough for the following chemical alteration processes of primary minerals of mafic and ultramafic igneous rocks to proceed: carbonization, oxidation, hydration(?), formation of sulfates, sulfides, and F- and Cl-bearing minerals. The rock-forming minerals of acidic rocks are stable on the surface. The highlands are considered a planetary terrain of maximum favorable conditions for chemical weathering. Aeolian abrasion at the micro- and megascopic scale at the highlands is a possible geological agent affecting the chemical interaction of rocks with atmospheric gases. If global chemical equilibrium does exist in the atmosphere-surface rock system, weathering should be widely distributed on the surface of Venus. -from Authors

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M3 - Chapter

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SP - 177

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BT - Venus geology, geochemistry and geophysics

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PB - University of Arizona Press

ER -

Chemical processes on the planetary surface

Abstract

ASJC Scopus subject areas

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