Olivine in an unexpected location on Vesta’s surface

Olivine is a major component of the mantle of differentiated bodies, including Earth. Howardite, eucrite and diogenite (HED) meteorites represent regolith, basaltic-crust, lower-crust and possibly ultramafic-mantle samples of asteroid Vesta, which is the lone surviving, large, differentiated, basaltic rocky protoplanet in the Solar System. Only a few of these meteorites, the orthopyroxene-rich diogenites, contain olivine, typically with a concentration of less than 25 per cent by volume. Olivine was tentatively identified on Vesta, on the basis of spectral and colour data, but other observations did not confirm its presence. Here we report that olivine is indeed present locally on Vesta’s surface but that, unexpectedly, it has not been found within the deep, south-pole basins, which are thought to be excavated mantle rocks. Instead, it occurs as near-surface materials in the northern hemisphere. Unlike the meteorites, the olivine-rich (more than 50 per cent by volume) material is not associated with diogenite but seems to be mixed with howardite, the most common surface material. Olivine is exposed in crater walls and in ejecta scattered diffusely over a broad area. The size of the olivine exposures and the absence of associated diogenite favour a mantle source, but the exposures are located far from the deep impact basins. The amount and distribution of observed olivine-rich material suggest a complex evolutionary history for Vesta.

[1]  W. Benz,et al.  The structure of the asteroid 4 Vesta as revealed by models of planet-scale collisions , 2013, Nature.

[2]  C. Russell,et al.  Photometric mapping of Asteroid (4) Vesta’s southern hemisphere with Hubble Space Telescope , 2010 .

[3]  R. Jaumann,et al.  Vesta’s Shape and Morphology , 2012, Science.

[4]  H. Takeda,et al.  The polymict eucrites , 1984 .

[5]  Alessandro Frigeri,et al.  Vesta's mineralogical composition as revealed by the visible and infrared spectrometer on Dawn , 2013 .

[6]  Kevin Righter,et al.  A magma ocean on Vesta: Core formation and petrogenesis of eucrites and diogenites , 1997 .

[7]  Carle M. Pieters,et al.  Determining the composition of olivine from reflectance spectroscopy , 1998 .

[8]  Roger G. Burns,et al.  Mineralogical applications of crystal field theory , 1970 .

[9]  Michael J. Gaffey,et al.  Surface Lithologic Heterogeneity of Asteroid 4 Vesta , 1997 .

[10]  Eleonora Ammannito,et al.  Composition of the Rheasilvia basin, a window into Vesta's interior , 2013 .

[11]  A. Bini,et al.  The VIR Spectrometer , 2011 .

[12]  H Y McSween,et al.  Spectroscopic Characterization of Mineralogy and Its Diversity Across Vesta , 2012, Science.

[13]  Jennifer L. Piatek,et al.  Mineralogical Variations within the S-Type Asteroid Class , 1993 .

[14]  R. Jaumann,et al.  The Violent Collisional History of Asteroid 4 Vesta , 2012, Science.

[15]  T N Titus,et al.  Dawn at Vesta: Testing the Protoplanetary Paradigm , 2012, Science.

[16]  C. Russell,et al.  High-velocity collisions from the lunar cataclysm recorded in asteroidal meteorites , 2013 .

[17]  H. Melosh,et al.  The formation of terrains antipodal to major impacts , 1991 .

[18]  D. Mittlefehldt Petrology and geochemistry of the Elephant Moraine A79002 diogenite: A genomict breccia containing a magnesian harzburgite component , 2000 .

[19]  Brigitte Zanda,et al.  Relative chronology of crust formation on asteroid Vesta: Insights from the geochemistry of diogenites , 2010 .

[20]  R. Singer Near-infrared spectral reflectance of mineral mixtures - Systematic combinations of pyroxenes, olivine, and iron oxides , 1981 .

[21]  Alessandro Frigeri,et al.  Vestan lithologies mapped by the visual and infrared spectrometer on Dawn , 2013 .

[22]  Alessandro Frigeri,et al.  Geologic Mapping of Vesta , 2014 .

[23]  D. Mittlefehldt,et al.  MIL 03443, a dunite from asteroid 4 Vesta: Evidence for its classification and cumulate origin , 2011 .

[24]  H. McSween,et al.  Petrologic and textural diversity among the PCA 02 howardite group, one of the largest pieces of the Vestan surface , 2012 .

[25]  J. Papike,et al.  Petrogenetic relationships between diogenites and olivine diogenites: Implications for magmatism on the HED parent body , 2007 .

[26]  Michael J. Gaffey,et al.  Calibrations of phase abundance, composition, and particle size distribution for olivine-orthopyroxene mixtures from reflectance spectra , 1986 .

[27]  John B. Adams,et al.  Visible and near‐infrared diffuse reflectance spectra of pyroxenes as applied to remote sensing of solid objects in the solar system , 1974 .

[28]  A. W. Beck,et al.  Diogenites as polymict breccias composed of orthopyroxenite and harzburgite , 2010 .

[29]  M. Gaffey,et al.  Geologic Mapping of Vesta from 1994 Hubble Space Telescope Images , 1995 .

[30]  L. Taylor,et al.  Vesta as the howardite, eucrite and diogenite parent body: Implications for the size of a core and for large‐scale differentiation , 1997 .

[31]  Richard P. Binzel,et al.  An extension of the Bus asteroid taxonomy into the near-infrared , 2009 .