Chronological evidence that the Moon is either young or did not have a global magma ocean
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Chronological evidence that the Moon is either young or did not have a global magma ocean. / Borg, Lars E.; Connelly, James N.; Boyet, Maud; Carlson, Richard W.
In: Nature, Vol. 477, No. 7362, 2011, p. 70-72.Research output: Contribution to journal › Journal article › Research › peer-review
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T1 - Chronological evidence that the Moon is either young or did not have a global magma ocean
AU - Borg, Lars E.
AU - Connelly, James N.
AU - Boyet, Maud
AU - Carlson, Richard W.
PY - 2011
Y1 - 2011
N2 - Chemical evolution of planetary bodies, ranging from asteroids to the large rocky planets, is thought to begin with differentiation through solidification of magma oceans many hundreds of kilometres in depth. The Earth's Moon is the archetypical example of this type of differentiation. Evidence for a lunar magma ocean is derived largely from the widespread distribution, compositional and mineralogical characteristics, and ancient ages inferred for the ferroan anorthosite (FAN) suite of lunar crustal rocks. The FANs are considered to be primary lunar flotation-cumulate crust that crystallized in the latter stages of magma ocean solidification. According to this theory, FANs represent the oldest lunar crustal rock type. Attempts to date this rock suite have yielded ambiguous results, however, because individual isochron measurements are typically incompatible with the geochemical make-up of the samples, and have not been confirmed by additional isotopic systems. By making improvements to the standard isotopic techniques, we report here the age of crystallization of FAN 60025 using the207 Pb-206 Pb,147 Sm- 143 Nd and146 Sm-142 Nd isotopic systems to be 4,360±3 million years. This extraordinarily young age requires that either the Moon solidified significantly later than most previous estimates or the long-held assumption that FANs are flotation cumulates of a primordial magma ocean is incorrect. If the latter is correct, then much of the lunar crust may have been produced by non-magma-ocean processes, such as serial magmatism.
AB - Chemical evolution of planetary bodies, ranging from asteroids to the large rocky planets, is thought to begin with differentiation through solidification of magma oceans many hundreds of kilometres in depth. The Earth's Moon is the archetypical example of this type of differentiation. Evidence for a lunar magma ocean is derived largely from the widespread distribution, compositional and mineralogical characteristics, and ancient ages inferred for the ferroan anorthosite (FAN) suite of lunar crustal rocks. The FANs are considered to be primary lunar flotation-cumulate crust that crystallized in the latter stages of magma ocean solidification. According to this theory, FANs represent the oldest lunar crustal rock type. Attempts to date this rock suite have yielded ambiguous results, however, because individual isochron measurements are typically incompatible with the geochemical make-up of the samples, and have not been confirmed by additional isotopic systems. By making improvements to the standard isotopic techniques, we report here the age of crystallization of FAN 60025 using the207 Pb-206 Pb,147 Sm- 143 Nd and146 Sm-142 Nd isotopic systems to be 4,360±3 million years. This extraordinarily young age requires that either the Moon solidified significantly later than most previous estimates or the long-held assumption that FANs are flotation cumulates of a primordial magma ocean is incorrect. If the latter is correct, then much of the lunar crust may have been produced by non-magma-ocean processes, such as serial magmatism.
U2 - 10.1038/nature10328
DO - 10.1038/nature10328
M3 - Journal article
AN - SCOPUS:80052406185
VL - 477
SP - 70
EP - 72
JO - Nature
JF - Nature
SN - 0028-0836
IS - 7362
ER -
ID: 334860383