| 33589 |
Creator |
96fdb8f74aad60e762b1aef18d80ab45 |
| 33589 |
Creator |
b75227dc49245aab76a534b836099ab7 |
| 33589 |
Creator |
e7d22ae30b2ff3ff34925311bfa5a762 |
| 33589 |
Creator |
970b917038a425943ae594e993a37e66 |
| 33589 |
Creator |
480f5038acb8373736276bd8797a1fc9 |
| 33589 |
Creator |
81bdad45ff4dac76717374f49f37ccdf |
| 33589 |
Creator |
f408be3371e41faa3267614d74064a12 |
| 33589 |
Date |
2010 |
| 33589 |
Is Part Of |
repository |
| 33589 |
abstract |
ALH84001 is the oldest known martian meteorite we have on Earth (4.56 Ga) [1], the
carbonates within ALH84001 precipitated ~3.9 Ga [2]. Of all the current martian meteorites
ALH84001 has the largest quantity of carbonates (1 % vol) and variations in mineralogy,
especially the carbonate “rosettes”, with an ankerite core commonly surrounded by
an alternating layer of siderite-magnesite siderite. The age, quantity, isotope range
and diverse mineralogy make ALH84001 carbonates ideal candidates to provide insights
into the primordial martian conditions. |
| 33589 |
authorList |
authors |
| 33589 |
presentedAt |
ext-208d36c1a7fe0e1e463be246c4e46086 |
| 33589 |
status |
peerReviewed |
| 33589 |
type |
AcademicArticle |
| 33589 |
type |
Article |
| 33589 |
label |
Tomkinson, T. ; Guillermier, C. ; Needham, A. W. ; Franchi, I. A. ; Wright, I.
P. ; Hagermann, A. and Grady, M. M. (2010). A combined carbon and oxygen isotopic
analysis of ALH84001 carbonates with NanoSIMS. In: 73rd Annual Meeting of the Meteoritical
Society, 26-30 Jul 2010, New York City, NY, USA. |
| 33589 |
label |
Tomkinson, T. ; Guillermier, C. ; Needham, A. W. ; Franchi, I. A. ; Wright, I. P.
; Hagermann, A. and Grady, M. M. (2010). A combined carbon and oxygen isotopic
analysis of ALH84001 carbonates with NanoSIMS. In: 73rd Annual Meeting of the Meteoritical
Society, 26-30 Jul 2010, New York City, NY, USA. |
| 33589 |
Title |
A combined carbon and oxygen isotopic analysis of ALH84001 carbonates with NanoSIMS |
| 33589 |
in dataset |
oro |