Your search keyword '"Beck, Andrew W"' showing total 9 results

1. HED Meteorites and Their Relationship to the Geology of Vesta and the Dawn Mission

Author

McSween, Harry Y., Jr., Mittlefehldt, David W., Beck, Andrew W., Mayne, Rhiannon G., McCoy, Timothy J., Russell, Christopher, editor, and Raymond, Carol, editor

Published

2012

2. Color and Albedo Heterogeneity of Vesta from Dawn

Author

Reddy, Vishnu, Nathues, Andreas, Le Corre, Lucille, Sierks, Holger, Li, Jian-Yang, Gaskell, Robert, McCoy, Timothy, Beck, Andrew W., Schröder, Stefan E., Pieters, Carle M., Becker, Kris J., Buratti, Bonnie J., Denevi, Brett, Blewett, David T., Christensen, Ulrich, Gaffey, Michael J., Gutierrez-Marques, Pablo, Hicks, Michael, Keller, Horst Uwe, Maue, Thorsten, Mottola, Stefano, McFadden, Lucy A., McSween, Harry Y., Mittlefehldt, David, O'Brien, David P., Raymond, Carol, and Russell, Christopher

Published

2012

3. HED Meteorites and Their Relationship to the Geology of Vesta and the Dawn Mission

Author

McSween, Jr., Harry Y., Mittlefehldt, David W., Beck, Andrew W., Mayne, Rhiannon G., and McCoy, Timothy J.

Published

2011

4. Asteroid (4) Vesta II: Exploring a geologically and geochemically complex world with the Dawn Mission.

Author

McCoy, Timothy J., Beck, Andrew W., Prettyman, Thomas H., and Mittlefehldt, David W.

Subjects

ASTEROIDS, MINERALOGY, IR spectrometers, METEORITES

Abstract

More than 200 years after its discovery, asteroid (4) Vesta is thought to be the parent body for the howardite, eucrite and diogenite (HED) meteorites. The Dawn spacecraft spent ∼14 months in orbit around this largest, intact differentiated asteroid to study its internal structure, geology, mineralogy and chemistry. Carrying a suite of instruments that included two framing cameras, a visible-near infrared spectrometer, and a gamma-ray and neutron detector, coupled with radio tracking for gravity, Dawn revealed a geologically and geochemically complex world. A constrained core size of ∼110–130 km radius is consistent with predictions based on differentiation models for the HED meteorite parent body. Hubble Space Telescope observations had already shown that Vesta is scarred by a south polar basin comparable in diameter to that of the asteroid itself. Dawn showed that the south polar Rheasilvia basin dominates the asteroid, with a central uplift that rivals the large shield volcanoes of the Solar System in height. An older basin, Veneneia, partially underlies Rheasilvia. A series of graben-like equatorial and northern troughs were created during these massive impact events 1–2 Ga ago. These events also resurfaced much of the southern hemisphere and exposed deeper-seated diogenitic lithologies. Although the mineralogy and geochemistry vary across the surface for rock-forming elements and minerals, the range is small, suggesting that impact processes have efficiently homogenized the surface of Vesta at scales observed by the instruments on the Dawn spacecraft. The distribution of hydrogen is correlated with surface age, which likely results from the admixture of exogenic carbonaceous chondrites with Vesta's basaltic surface. Clasts of such material are observed within the surficial howardite meteorites in our collections. Dawn significantly strengthened the link between (4) Vesta and the HED meteorites, but the pervasive mixing, lack of a convincing and widespread detection of olivine, and poorly-constrained lateral and vertical extents of units leaves unanswered the central question of whether Vesta once had a magma ocean. Dawn is continuing its mission to the presumed ice-rich asteroid (1) Ceres. [ABSTRACT FROM AUTHOR]

Published

2015

5. Using HED meteorites to interpret neutron and gamma-ray data from asteroid 4 Vesta.

Author

Beck, Andrew W., Lawrence, David J., Peplowski, Patrick N., Prettyman, Thomas H., McCoy, Timothy J., McSween, Harry Y., Toplis, Michael J., and Yamashita, Naoyuki

Subjects

*METEORITES, *NEUTRONS, *NEUTRON capture, *ANALYSIS of covariance, *ABSORPTION

Abstract

Here, we construct a comprehensive howardite, eucrite, and diogenite ( HED) bulk chemistry data set to compare with Dawn data. Using the bulk chemistry data set, we determine four gamma-ray/neutron parameters in the HEDs (1) relative fast neutron counts (fast counts), (2) macroscopic thermal neutron absorption cross section (absorption), (3) a high-energy gamma-ray compositional parameter ( Cp), and (4) Fe abundance. These correspond to the four measurements of Vesta made by Dawn's Gamma Ray and Neutron Detector ( GRa ND) that can be used to discern HED lithologic variability on the Vestan surface. We investigate covariance between fast counts and average atomic mass () in the meteorite data set, where a strong correlation ( r2 = 0.99) is observed, and we demonstrate that systematic offsets from the fast count/ trend are linked to changes in Fe and Ni concentrations. To compare the meteorite and GRa ND data, we investigate and report covariance among fast counts, absorption, Cp, and Fe abundance in the HED meteorite data set. We identify several GRa ND measurement spaces where the Yamato type B diogenites are distinct from all other HED lithologies, including polymict mixtures. The type B's are diogenites that are enriched in Fe + pigeonite + diopside ± plagioclase, relative to typical, orthopyroxenitic diogenites. We then compare these results to GRa ND data and demonstrate that regions north of ~70°N latitude on Vesta (including the north pole) are consistent with type B diogenites. We propose two models to explain type B diogenite compositions in the north (1) deposition as Rheasilvia ejecta, or (2) type B plutons that were emplaced at shallow depths in the north polar region and sampled by local impacts. Lastly, using principal component ( PC) analysis, we identify unique PC spaces for all HED lithologies, indicating that the corresponding GRa ND measurables may be used to produce comprehensive lithologic maps for Vesta. [ABSTRACT FROM AUTHOR]

Published

2015

6. Petrologic and textural diversity among the PCA 02 howardite group, one of the largest pieces of the Vestan surface.

Author

BECK, Andrew W., WELTEN, Kees C., McSWEEN, Harry Y., VIVIANO, Christina E., and CAFFEE, Marc W.

Subjects

*METEORS, *PETROLOGY, *ROCK-forming minerals, *ICE fields, *ASTRONOMICAL observations, *RADIOISOTOPES, *METEORITES, *COSMOGENIC nuclides, *OLIVINE

Abstract

- Nine howardites and two diogenites were recovered from the Pecora Escarpment Icefield (PCA) in 2002. Cosmogenic radionuclide abundances indicate that the samples are paired and that they constituted an approximately 1 m (diameter) meteoroid prior to atmospheric entry. At about 1 m in diameter, the PCA 02 HED group represents one of the largest single pre-atmospheric pieces of the Vestan surface yet described. Mineral and textural variations were measured in six of the PCA 02 howardites to investigate meter-scale diversity of the Vestan surface. Mineral compositions span the range of known eucrite and diogenite compositions. Additional non-diogenitic groups of Mg- and Fe-rich olivine are observed, and are interpreted to have been formed by exogenic contamination and impact melting, respectively. These howardites contain olivine-rich impact melts that likely formed from dunite- and harzburgite-rich target rocks. Containing the first recognized olivine-rich HED impact melts, these samples provide meteoritic evidence that olivine-rich lithologies have been exposed on the surface of Vesta. Finally, we present a new method for mapping distributions of lithologies in howardites using 8 elemental X-ray maps. Proportions of diogenite and eucrite vary considerably among the PCA 02 howardites, suggesting they originated from a heterogeneous portion of the Vestan surface. While whole sample modes are dominated by diogenite, the finer grain size fractions are consistently more eucritic. This discrepancy has implications for near-infrared spectral observations of portions of Vesta's surface that are similar to the PCA 02 howardites, as the finer grained eucritic material will disproportionately dominate the spectra. [ABSTRACT FROM AUTHOR]

Published

2012

7. Compositional constraints on the genesis of diogenites.

Author

MITTLEFEHLDT, David W., BECK, Andrew W., LEE, Cin-Ty A., McSWEEN, Harry Y., and BUCHANAN, Paul C.

Subjects

*PETROLOGY, *METEORITES, *TRACE elements, *PHOSPHATES, *PLAGIOCLASE, *BASALT, *SIDEROPHILE elements

Abstract

- We have done bulk rock compositional analyses (INAA, ICP-MS) and petrologic study of a suite of diogenite meteorites. Most contain orthopyroxenes with mg#s of 70.6-79.0. Meteorite Hills (MET) 00425 is magnesian (mg# of 83.9). Lewis Cliff (LEW) 88011 contains orthopyroxene grains of varying mg# (76.3-68.6). Queen Alexandra Range (QUE) 93009 (orthopyroxene mg# 70.6) contains coarse-grained noritic clasts (plagioclase An84.7-88.3), and is rich in incompatible trace elements. It has Eu/Eu* < 1, indicating that cumulate norites do not dominate its trace element inventory. Queen Alexandra Range 93009 may be transitional between diogenites and magnesian cumulate eucrites. Lewis Cliff 88679, a dimict breccia of harzburgite and orthopyroxenite, has anomalously low concentrations of highly incompatible elements (e.g., Nb, La, Ta, U) compared to other diogenites, but is similar to them in less highly incompatible elements (e.g., Y, Zr, Yb, Hf). It is unlikely that this characteristic reflects a low proportion of a trapped melt component. The highly incompatible elements were likely mobilized after impact mixing of the two parent lithologies. Graves Nunataks 98108 shows an extreme range in Eu/Eu* attributable to the heterogeneous distribution of plagioclase; one sample has the lowest Eu/Eu* among diogenites. We find no compelling evidence to support the hypothesis that diogenite parent magmas were contaminated by partial melts of the eucritic crust. We posit that subsolidus equilibration between orthopyroxene and minor/trace phases (including phosphates) resulted in preferential redistribution of Eu2+ relative to Eu3+ and other rare earth elements, and results in anomalously low Eu/Eu* in samples leached in acids that dissolve phosphates. [ABSTRACT FROM AUTHOR]

Published

2012

8. MIL 03443, a dunite from asteroid 4 Vesta: Evidence for its classification and cumulate origin.

Author

BECK, Andrew W., MITTLEFEHLDT, David W., McSWEEN Jr, Harry Y., RUMBLE III, Douglas, LEE, Cin-Ty A., and BODNAR, Robert J.

Subjects

*ASTEROIDS, *DUNITE, *OLIVINE, *METEORITES, *PETROLOGY, *VESTA (Asteroid)

Abstract

- The absence of dunite (>90 vol% olivine) in the howardite, eucrite, and diogenite (HED) meteorite suite, when viewed with respect to spectroscopic and petrologic evidence for olivine on Vesta, is problematic. Herein, we present petrologic, geochemical, and isotopic evidence confirming that Miller Range (MIL) 03443, containing 91 vol% olivine, should be classified with the HED clan rather than with mesosiderites. Similarities in olivine and pyroxene FeO/MnO ratios, mineral compositions, and unusual mineral inclusions between MIL 03443 and the diogenites support their formation on a common parent body. This hypothesis is bolstered by oxygen isotopic and bulk geochemical data. Beyond evidence for its reclassification, we present observations and interpretations that MIL 03443 is probably a crustal cumulate rock like the diogenites, rather than a sample of the Vestan mantle. [ABSTRACT FROM AUTHOR]

Published

2011

9. Differentiation and magmatic history of Vesta: Constraints from HED meteorites and Dawn spacecraft data.

Author

McSween, Harry Y., Raymond, Carol A., Stolper, Edward M., Mittlefehldt, David W., Baker, Michael B., Lunning, Nicole G., Beck, Andrew W., and Hahn, Timothy M.

Subjects

SPACE vehicles, METEORITES, MAGMAS, MARTIAN meteorites, IGNEOUS intrusions, GRAVITY, ASTEROIDS, CRYSTALLIZATION

Abstract

Quantifying the amounts of various igneous lithologies in Vesta's crust allows the estimation of petrologic ratios that describe the asteroid's global differentiation and subsequent magmatic history. The eucrite:diogenite (Euc:Diog) ratio measures the relative proportions of mafic and ultramafic components. The intrusive:extrusive (I:E) ratio assesses the effectiveness of magma ascent and eruption. We estimate these ratios by counting numbers and masses of eucrites, cumulate eucrites, and diogenites in the world's meteorite collections, and by calculating their proportions as components of crustal polymict breccias (howardites) using chemical mixing diagrams and petrologic mapping of multiple thin sections. The latter two methods yield a Euc:Diog ratio of ∼2:1, although meteorite numbers and masses give slightly higher ratios. Surface lithologic maps compiled from spectra of Dawn spacecraft instruments (VIR and GRaND) yield Euc:Diog ratios that bracket estimates of Euc:Diog from the meteorites. The I:E ratios from HEDs lie between 0.5–2.1:1, due to uncertainties in identifying cumulate eucrite. Gravity mapping of Vesta by the Dawn spacecraft supports the existence of diogenite plutons in the crust. Quantifying the proportion of high-density diogenitic crust in the gravity map yields I:E ratios of 0.8-1:2:1, values which are bracketed by calculations based on HEDs. The I:E ratio for Vesta is lower than for Earth and Mars, consistent with physical modeling of asteroid-size bodies. Nevertheless, it indicates a significant role for pluton emplacement during the formation of Vesta's crust. These results are inconsistent with simple differentiation models that produce the crust by crystallization of a global magma ocean, unless residual melts are extracted into crustal magma chambers. [ABSTRACT FROM AUTHOR]

Published

2019