TY - JOUR
T1 - Comparing Wild 2 particles to chondrites and IDPs
AU - Zolensky, Michael
AU - Nakamura-Messenger, Keiko
AU - Rietmeijer, Frans
AU - Leroux, Hugues
AU - Mikouchi, Takashi
AU - Ohsumi, Kazumasa
AU - Simon, Steven
AU - Grossman, Lawrence
AU - Stephan, Thomas
AU - Weisberg, Michael
AU - Velbel, Michael
AU - Zega, Thomas
AU - Stroud, Rhonda
AU - Tomeoka, Kazushige
AU - Ohnishi, Ichiro
AU - Tomioka, Naotaka
AU - Nakamura, Tomoki
AU - Matrajt, Graciela
AU - Joswiak, David
AU - Brownlee, Donald
AU - Langenhorst, Falko
AU - Krot, Alexander
AU - Kearsley, Anton
AU - Ishii, Hope
AU - Graham, Giles
AU - Dai, Zu Rong
AU - Chi, Miaofang
AU - Bradley, John
AU - Hagiya, Kenji
AU - Gounelle, Matthieu
AU - Keller, Lindsay
AU - Bridges, John
PY - 2008
Y1 - 2008
N2 - We compare the observed composition ranges of olivine, pyroxene, and Fe-Ni sulfides in Wild 2 grains with those from chondritic interplanetary dust particles (IDPs) and chondrite classes to explore whether these data suggest affinities to known hydrous materials in particular. Wild 2 olivine has an extremely wide composition range, from Fa0-96, with a pronounced frequency peak at Fa1. The composition range displayed by the low-calcium pyroxene is also very extensive, from Fs48 to Fs0, with a significant frequency peak centered at Fs5. These ranges are as broad or broader than those reported for any other extraterrestrial material. Wild 2 Fe-Ni sulfides mainly have compositions close to that of FeS, with less than 2 atom% Ni; to date, only two pentlandite grains have been found among the Wild grains, suggesting that this mineral is not abundant. The complete lack of compositions between FeS and pentlandite (with intermediate solid solution compositions) suggests (but does not require) that FeS and pentlandite condensed as crystalline species, i.e., did not form as amorphous phases, which later became annealed. While we have not yet observed any direct evidence of water-bearing minerals, the presence of Ni-bearing sulfides, and magnesium-dominated olivine and low-Ca pyroxene does not rule out their presence at low abundance. We do conclude that new investigations of major- and minor- element compositions of chondrite matrix and IDPs are required.
AB - We compare the observed composition ranges of olivine, pyroxene, and Fe-Ni sulfides in Wild 2 grains with those from chondritic interplanetary dust particles (IDPs) and chondrite classes to explore whether these data suggest affinities to known hydrous materials in particular. Wild 2 olivine has an extremely wide composition range, from Fa0-96, with a pronounced frequency peak at Fa1. The composition range displayed by the low-calcium pyroxene is also very extensive, from Fs48 to Fs0, with a significant frequency peak centered at Fs5. These ranges are as broad or broader than those reported for any other extraterrestrial material. Wild 2 Fe-Ni sulfides mainly have compositions close to that of FeS, with less than 2 atom% Ni; to date, only two pentlandite grains have been found among the Wild grains, suggesting that this mineral is not abundant. The complete lack of compositions between FeS and pentlandite (with intermediate solid solution compositions) suggests (but does not require) that FeS and pentlandite condensed as crystalline species, i.e., did not form as amorphous phases, which later became annealed. While we have not yet observed any direct evidence of water-bearing minerals, the presence of Ni-bearing sulfides, and magnesium-dominated olivine and low-Ca pyroxene does not rule out their presence at low abundance. We do conclude that new investigations of major- and minor- element compositions of chondrite matrix and IDPs are required.
UR - http://www.scopus.com/inward/record.url?scp=46749150709&partnerID=8YFLogxK
U2 - 10.1111/j.1945-5100.2008.tb00621.x
DO - 10.1111/j.1945-5100.2008.tb00621.x
M3 - Article
AN - SCOPUS:46749150709
SN - 1086-9379
VL - 43
SP - 261
EP - 272
JO - Meteoritics and Planetary Science
JF - Meteoritics and Planetary Science
IS - 1-2
ER -