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Title: Accretion timescale and impact history of Mars deduced from the isotopic systematics of martian meteorites

Journal Article · · Geochimica et Cosmochimica Acta
ORCiD logo [1];  [2];  [3]
  1. Lawrence Livermore National Lab. (LLNL), Livermore, CA (United States). Chemical Sciences Division
  2. Lawrence Livermore National Lab. (LLNL), Livermore, CA (United States). Chemical Sciences Division; Univ. of Munster (Germany). Inst. of Planetology
  3. Univ. of Tennessee, Chattanooga, TN (United States). Dept. of Chemistry
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High precision Sm-Nd isotopic analyses have been completed on a suite of 11 martian basaltic meteorites in order to better constrain the age of silicate differentiation on Mars associated with the formation of their mantle sources. Our data is used to evaluate the merits and disadvantages of various mathematical approaches that have been employed in previous work on this topic. Ages determined from the Sm-Nd isotopic systematics of individual samples are strongly dependent on the assumed Nd isotopic composition of the bulk planet. This assumption is problematic given differences observed between the Nd isotopic composition of Earth and chondritic meteorites and the fact that these materials are both commonly used to represent bulk planetary Nd isotopic compositions. Ages determined from the slope of Sm-146-Nd-142 whole rock isochrons are not dependent on the assumed Nd-142/Nd-144 ratio of the planet, but require the sample suite to be derived from complementary, contemporaneously-formed reservoirs. In this work, we present a mathematical expression that defines the age of formation of the source regions of such a suite of samples that is based solely on the slope of a Nd-143-Nd-142 whole rock isochron and is also independent of any a priori assumptions regarding the bulk isotopic composition of the planet. This expression is also applicable to mineral isochrons and has been used to successfully calculate Nd-143-Nd-142 model crystallization ages of early refractory solids as well as lunar samples. This permits ages to be obtained using only Nd isotopic measurements without the need for Sm-147/Nd-144 isotope dilution determinations. When used in conjunction with high-precision Nd isotopic measurements completed on martian meteorites this expression yields an age of formation of the martian basaltic meteorite source regions of 4504 +/- 6 Ma. Because the Sm-Nd model ages for the formation of martian source regions are commonly interpreted to record the age at which large scale mantle reservoirs formed during planetary differentiation associated with magma ocean solidification, the age determined here implies that magma ocean solidification occurred several tens of millions of years after the beginning of the Solar System. Recent thermal models, however, suggest that Mars-sized bodies cool rapidly in less than similar to 5 Ma after accretion ceases, even in the presence of a thick atmosphere. In assuming these models are correct, an extended period of accretion is necessary to provide a mechanism to keep portions of the martian mantle partially molten until 4504 Ma. Late accretional heating of Mars could either be associated with protracted accretion occurring at a quasi-steady state or alternatively be associated with a late giant impact. If this scenario is correct, then accretion of Mars-sized bodies takes up to 60 Ma and is likely to be contemporaneous with the core formation and possibly the onset of silicate differentiation. This further challenges the concept that isotopic equilibrium is attained during primordial evolution of planets, and may help to account for geochemical evidence implying addition of material into planetary interiors after core formation was completed.

Research Organization:
Lawrence Livermore National Laboratory (LLNL), Livermore, CA (United States)
Sponsoring Organization:
USDOE; National Aeronautics and Space Administration (NASA)
Grant/Contract Number:
AC52-07NA27344; NNH12AT84I
OSTI ID:
1395530
Alternate ID(s):
OSTI ID: 1397582
Report Number(s):
LLNL-JRNL-700773; PII: S0016703715006948
Journal Information:
Geochimica et Cosmochimica Acta, Vol. 175, Issue C; ISSN 0016-7037
Publisher:
The Geochemical Society; The Meteoritical SocietyCopyright Statement
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 58 works
Citation information provided by
Web of Science

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Cited By (12)

The potential science and engineering value of samples delivered to Earth by Mars sample return journal March 2019
Magma oceans as a critical stage in the tectonic development of rocky planets
  • Schaefer, Laura; Elkins-Tanton, Linda T.
  • Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, Vol. 376, Issue 2132 https://doi.org/10.1098/rsta.2018.0109
journal October 2018
A colossal impact enriched Mars' mantle with noble metals text January 2017
Evidence for extremely rapid magma ocean crystallization and crust formation on Mars journal June 2018
A colossal impact enriched Mars' mantle with noble metals: Late Accretion on Mars journal June 2017
Martian magmatism from plume metasomatized mantle journal November 2018
In search of the Earth-forming reservoir: Mineralogical, chemical, and isotopic characterizations of the ungrouped achondrite NWA 5363/NWA 5400 and selected chondrites journal March 2017
A new type of isotopic anomaly in shergottite sulfides journal November 2019
The potential science and engineering value of samples delivered to Earth by Mars sample return text January 2019
Isotopic evolution of the protoplanetary disk and the building blocks of Earth and the Moon journal March 2018
The sustainability of habitability on terrestrial planets: Insights, questions, and needed measurements from Mars for understanding the evolution of Earth-like worlds: Mars and Terrestrial Planet Habitability journal October 2016
The potential science and engineering value of samples delivered to Earth by Mars sample return: International MSR Objectives and Samples Team (iMOST) journal March 2019

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Related Subjects

58 GEOSCIENCES
79 ASTRONOMY AND ASTROPHYSICS
SM-146 HALF-LIFE
MAGMA OCEAN
CORE FORMATION
RB-SR
DIFFERENTIATION HISTORY
SOLAR-SYSTEM
FRACTIONAL CRYSTALLIZATION
MANTLE DIFFERENTIATION
HEMISPHERIC DICHOTOMY
SNC METEORITES