The origins of perchlorate in the Martian soil
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Published version
Author(s)
Carrier, BL
Kounaves, SP
Type
Journal Article
Abstract
Perchlorate (ClO
4
) has been detected on Mars, but its production and distribution are unclear.
Mechanisms requiring atmospheric chlorine are insuf
fi
cient for measured concentrations. We conducted
studies under Mars conditions using halite (NaCl) alone, soil simulants consisting of silica (SiO
2
), Fe
2
O
3
,Al
2
O
3
,
and TiO
2
. After 170 h irradiation, samples analyzed by ion chromatography (IC) showed ClO
4
and ClO
3
present in all samples. When SiO
2
was added, yield increased from 2 to 42 nmol and 0.4 to 2.6 nmol,
respectively. We attribute this to SiO
2
and metal oxides acting as photocatalysts, generating O
2
radicals
from O
2
which react with chloride. Results show ClO
4
and ClO
3
can be produced photochemically on
Cl minerals without atmospheric chlorine or aqueous conditions, and explain high concentration of ClO
4
and ClO
4
/Cl
ratios detected by Phoenix. They provide evidence that its distribution on Mars is dictated by
distribution of chlorine and provide insight into the oxidizing nature of the soil and its potential effects
on organics.
4
) has been detected on Mars, but its production and distribution are unclear.
Mechanisms requiring atmospheric chlorine are insuf
fi
cient for measured concentrations. We conducted
studies under Mars conditions using halite (NaCl) alone, soil simulants consisting of silica (SiO
2
), Fe
2
O
3
,Al
2
O
3
,
and TiO
2
. After 170 h irradiation, samples analyzed by ion chromatography (IC) showed ClO
4
and ClO
3
present in all samples. When SiO
2
was added, yield increased from 2 to 42 nmol and 0.4 to 2.6 nmol,
respectively. We attribute this to SiO
2
and metal oxides acting as photocatalysts, generating O
2
radicals
from O
2
which react with chloride. Results show ClO
4
and ClO
3
can be produced photochemically on
Cl minerals without atmospheric chlorine or aqueous conditions, and explain high concentration of ClO
4
and ClO
4
/Cl
ratios detected by Phoenix. They provide evidence that its distribution on Mars is dictated by
distribution of chlorine and provide insight into the oxidizing nature of the soil and its potential effects
on organics.
Date Issued
2015-05-28
Date Acceptance
2015-04-30
Citation
Geophysical Research Letters, 2015, 42 (10), pp.3739-3745
ISSN
0094-8276
Publisher
American Geophysical Union
Start Page
3739
End Page
3745
Journal / Book Title
Geophysical Research Letters
Volume
42
Issue
10
Copyright Statement
©2015. American Geophysical Union. All
Rights Reserved.
Rights Reserved.
Identifier
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Subjects
Science & Technology
Physical Sciences
Geosciences, Multidisciplinary
Geology
Mars
perchlorate
soil
regolith
RADIATION CONDITIONS
ORGANIC-MOLECULES
OZONE OXIDATION
LANDING SITE
GALE CRATER
MARS
NITRATE
REACTIVITY
SURFACE
PHOTOSTABILITY
Publication Status
Published