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Creator |
96fdb8f74aad60e762b1aef18d80ab45 |
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Creator |
480f5038acb8373736276bd8797a1fc9 |
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Creator |
53fb4423ec43d58daf370aede8ff6bd1 |
| 33608 |
Creator |
5ba6bb75ace86e1b6ef87bc662602078 |
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Creator |
ext-9f71f038dac170d8160fa43b9cd1e566 |
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Creator |
ext-facb35114d0035f2873c7e7a0ae04408 |
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Date |
2009 |
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Is Part Of |
repository |
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Is Part Of |
p01615297 |
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abstract |
Mars is currently the main focus of extra-terrestrial planetary investigation in terms
of the number of surface and orbital instruments deployed there. Although several
missions have scratched into the surface (most recently Phoenix) there have not been
deeper measurements of the martian subsurface. Phoenix has discovered the surrounding
soil to be comparable to soils found in Antarctica's Dry Valleys [1]. It seems clear
from the initial results that the soil is pH alkaline (8.3 ± 0.5) [2] and that water
has been involved in the formation of the soil, detected in the form of subliming
ice [3]. The presence of CaCO 3 and soluble ionic species detected by TEGA and MECA
[4,2] further suggests the presence of water interacting with soil at some point.
Since conditions at the martian surface are unfavourable for the presence of water
and potential organic signatures [5] it is necessary to look deeper into the subsurface.
Recent classification of geological eras [6] suggests an early warm and wet martian
environment in which phyllosilicates formed (called the Phyllosian era). Nili Fossae
[7] is a region that the orbital VNIR and IR spectrometers OMEGA and CRISM [8,9] have
indentified which correspond mineralogically and through crater counts to this early
Phyllosian era. This location would be a prime candidate for the detection of Mars'
fluvial past, with phyllosilicates detected and CRISM indentifying MgCO3 [ 10] (known
to be abundant in the presence of water, CO, and an alkaline pH; all conditions hospitable
for most terrestrial life). |
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authorList |
authors |
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status |
peerReviewed |
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volume |
1502 |
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type |
AcademicArticle |
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type |
Article |
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label |
Grady, M. M. ; Tomkinson, T. ; Wolters, S. D. ; Guthery, W. ; Bohman, A. F. and
Sund, A. T. (2009). WATSEN - A Mid-IR spectrometer, humidity sensor and optical microscope
to identify the subsurface water and mineralogy of Mars. LPI Contribution, 1502 p.
14. |
| 33608 |
label |
Grady, M. M. ; Tomkinson, T. ; Wolters, S. D. ; Guthery, W. ; Bohman, A. F. and Sund,
A. T. (2009). WATSEN - A Mid-IR spectrometer, humidity sensor and optical microscope
to identify the subsurface water and mineralogy of Mars. LPI Contribution, 1502 p.
14. |
| 33608 |
Title |
WATSEN - A Mid-IR spectrometer, humidity sensor and optical microscope to identify
the subsurface water and mineralogy of Mars |
| 33608 |
in dataset |
oro |