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The Non-carbonaceous–Carbonaceous Meteorite Dichotomy
The Non-carbonaceous–Carbonaceous Meteorite Dichotomy
by Kruijer, T. S. , Morbidelli, A. , Budde, G. , Kleine, T. , Nimmo, F. , Burkhardt, C. , Worsham, E. A.
in Aerospace Technology and Astronautics / Asteroids / Astrophysics and Astroparticles / Carbonaceous meteorites / Deposition / Earth / Earth mantle / Earth Sciences / Earth’s accretion / Geochemistry / GEOSCIENCES / Isotope anomalies / Jupiter / Meteorites / Meteors & meteorites / Molecular clouds / Moon / NC–CC dichotomy / Physics / Physics and Astronomy / Planet formation / Planetology / Reservoirs / Role of Sample Return in Addressing Major Questions in Planetary Sciences / Sciences of the Universe / Solar system / Solar system dynamics / Space Exploration and Astronautics / Space Sciences (including Extraterrestrial Physics / Terrestrial planets
2020
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The Non-carbonaceous–Carbonaceous Meteorite Dichotomy
by Kruijer, T. S. , Morbidelli, A. , Budde, G. , Kleine, T. , Nimmo, F. , Burkhardt, C. , Worsham, E. A.
in Aerospace Technology and Astronautics / Asteroids / Astrophysics and Astroparticles / Carbonaceous meteorites / Deposition / Earth / Earth mantle / Earth Sciences / Earth’s accretion / Geochemistry / GEOSCIENCES / Isotope anomalies / Jupiter / Meteorites / Meteors & meteorites / Molecular clouds / Moon / NC–CC dichotomy / Physics / Physics and Astronomy / Planet formation / Planetology / Reservoirs / Role of Sample Return in Addressing Major Questions in Planetary Sciences / Sciences of the Universe / Solar system / Solar system dynamics / Space Exploration and Astronautics / Space Sciences (including Extraterrestrial Physics / Terrestrial planets
2020
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The Non-carbonaceous–Carbonaceous Meteorite Dichotomy
The Non-carbonaceous–Carbonaceous Meteorite Dichotomy
by Kruijer, T. S. , Morbidelli, A. , Budde, G. , Kleine, T. , Nimmo, F. , Burkhardt, C. , Worsham, E. A.
in Aerospace Technology and Astronautics / Asteroids / Astrophysics and Astroparticles / Carbonaceous meteorites / Deposition / Earth / Earth mantle / Earth Sciences / Earth’s accretion / Geochemistry / GEOSCIENCES / Isotope anomalies / Jupiter / Meteorites / Meteors & meteorites / Molecular clouds / Moon / NC–CC dichotomy / Physics / Physics and Astronomy / Planet formation / Planetology / Reservoirs / Role of Sample Return in Addressing Major Questions in Planetary Sciences / Sciences of the Universe / Solar system / Solar system dynamics / Space Exploration and Astronautics / Space Sciences (including Extraterrestrial Physics / Terrestrial planets
2020

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The Non-carbonaceous–Carbonaceous Meteorite Dichotomy
The Non-carbonaceous–Carbonaceous Meteorite Dichotomy
Journal Article

The Non-carbonaceous–Carbonaceous Meteorite Dichotomy

Kruijer, T. S.,
Morbidelli, A.,
Budde, G.,
Kleine, T.,
Nimmo, F.,
Burkhardt, C.,
Worsham, E. A.
2020
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Overview
The isotopic dichotomy between non-carbonaceous (NC) and carbonaceous (CC) meteorites indicates that meteorite parent bodies derive from two genetically distinct reservoirs, which presumably were located inside (NC) and outside (CC) the orbit of Jupiter and remained isolated from each other for the first few million years of the solar system. Here we review the discovery of the NC–CC dichotomy and its implications for understanding the early history of the solar system, including the formation of Jupiter, the dynamics of terrestrial planet formation, and the origin and nature of Earth’s building blocks. The isotopic difference between the NC and CC reservoirs is probably inherited from the solar system’s parental molecular cloud and has been maintained through the rapid formation of Jupiter that prevented significant exchange of material from inside (NC) and outside (CC) its orbit. The growth and/or migration of Jupiter resulted in inward scattering of CC bodies, which accounts for the co-occurrence of NC and CC bodies in the present-day asteroid belt and the delivery of presumably volatile-rich CC bodies to the growing terrestrial planets. Earth’s primitive mantle, at least for siderophile elements like Mo, has a mixed NC–CC composition, indicating that Earth accreted CC bodies during the final stages of its growth, perhaps through the Moon-forming giant impactor. The late-stage accretion of CC bodies to Earth is sufficient to account for the entire budget of Earth’s water and highly volatile species.
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Publisher
Springer Netherlands,Springer Nature B.V,Springer Verlag,Springer
Subject

Aerospace Technology and Astronautics

/ Asteroids

/ Astrophysics and Astroparticles

/ Carbonaceous meteorites

/ Deposition

/ Earth

/ Earth mantle

/ Earth Sciences

/ Earth’s accretion

/ Geochemistry

/ GEOSCIENCES

/ Isotope anomalies

/ Jupiter

/ Meteorites

/ Meteors & meteorites

/ Molecular clouds

/ Moon

/ NC–CC dichotomy

/ Physics

/ Physics and Astronomy

/ Planet formation

/ Planetology

/ Reservoirs

/ Role of Sample Return in Addressing Major Questions in Planetary Sciences

/ Sciences of the Universe

/ Solar system

/ Solar system dynamics

/ Space Exploration and Astronautics

/ Space Sciences (including Extraterrestrial Physics

/ Terrestrial planets

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