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14 results on '"Sanborn, M. E"'

1. Nebula Scale Mixing Between Non-Carbonaceous and Carbonaceous Chondrite Reservoirs: Testing the Grand Tack Model with Almahata Sitta Stones

Author

Yin, Q.-Z, Sanborn, M. E, Goodrich, C. A, Zolensky, M, Fioretti, A. M, Shaddad, M, Kohl, I. E, and Young, E. D

Subjects
Lunar And Planetary Science And Exploration, Space Sciences (General)
Abstract

There is an increasing number of Cr-O-Ti isotope studies that show that solar system materials are divided into two main populations, one carbonaceous chondrite (CC)-like and the other is non-carbonaceous (NCC)-like, with minimal mixing between them attributed to a gap opened in the propoplanetary disk due to Jupiter's formation. The Grand Tack model suggests that there should be a particular time in the disk history when this gap is breached and ensuring a subsequent large-scale mixing between S- and C-type asteroids (inner solar system and outer solar system materials), an idea supported by our recent work on chondrule (Delta)17O-(epsilon)54Cr isotope systematics.

Published
2018

2. A Case for Nebula Scale Mixing Between Non-Carbonaceous and Carbonaceous Chondrite Reservoirs: Testing the Grand Tack Model with Chromium Isotopic Composition of Almahata Sitta Stone 91A

Author

Sanborn, M. E, Yin, Q.-Z, Goodrich, C. A, Zolensky, M, and Fioretti, A. M

Subjects
Lunar And Planetary Science And Exploration
Abstract

There is an increasing number of Cr-O-Ti isotope studies that show solar system materials are divided into two main populations, one carbonaceous chondrite (CC)-like and the other is non-carbonaceous (NC)-like, with minimal mixing attributed to a gap opened in the protoplanetary disk due to Jupiter's formation. The Grand Tack model suggests there should be large-scale mixing between S- and C-type asteroids, an idea supported by our recent work on chondrule (Delta)17O-ε54Cr isotope systematics. The Almahata Sitta (AhS) meteorite provides a unique opportunity to test the Grand Tack model. The meteorite fell to Earth in October 2008 and has been linked to the asteroid 2008 TC3 which was discovered just prior to the fall of the AhS stones. The AhS meteorite is composed of up to 700 individual pieces with approx.140 of those pieces having some geochemical and/or petrologic studies. Almahata Sitta is an anomalous polymict ureilite with other meteorite components, including enstatite, ordinary, and carbonaceous chondrites with an approximate abundance of 70% ureilites and 30% chondrites. This observation has lead to the suggestion that TC3 2008 was a loosely aggregated rubble pile-like asteroid with the non-ureilite sample clasts within the rubble-pile. Due to the loosely-aggregated nature of AhS, the object disintegrated during atmospheric entry resulting in the weakly held clasts falling predominantly as individual stones in the AhS collection area. However, recent work has identified one sample of AhS, sample 91A, which may represent two different lithologies coexisting within a single stone. The predominate lithology type in 91A appears to be that of a C2 chondrite based on mineralogy but also contains olivine, pyroxene, and albite that have ureilite-like compositions. Previous Cr isotope investigations into AhS stones are sparse and what data is available show nearly uniform isotopic composition similar to that of typical ureilites with negative ε54Cr values.

Published
2017

3. The Diversity of Anomalous HEDs: Isotopic Constraints on the Connection of EET 92023, GRA 98098, and Dhofar 700 With Vesta

Author

Sanborn, M. E, Yin, Q.-Z, and Mittlefehldt, D. W

Subjects
Lunar And Planetary Science And Exploration
Abstract

The possibility for multiple parent bodies, instead of a common parent body of Vesta, for eucrites has been suggested based on the variable oxygen isotopic composition observed in some eucrites.. Recently, we added an extra dimension to the discussion based on the (epsilon)54Cr composition of the same eucrites with known (delta)17O to compare with the normal eucrites. The combined (delta)17O and (epsilon)54Cr isotope systematics for Pasamonte, PCA 91007, A-881394, and Ibitira indicate their likely origin from multiple different parent bodies than the normal eucrites. Often the qualifier anomalous is used to identify HEDs with (delta)17O values that deviate significantly (>3(sigma)) from the mean HED (delta)17O. However, variations in eucrites and diogenites also include unique geochemical characteristics such as bulk composition, trace element abundances, or volatile concentrations, in addition to (delta)17O. Here, we investigate three such geochemically anomalous HEDs: Elephant Moraine (EET) 92023, Graves Nunataks (GRA) 98098, and Dhofar 700. In addition, to verify the homogeneity of (epsilon)54Cr observed for normal HEDs thus far, a set of seven eucrites and diogenites considered normal samples were also investigated.

Published
2016

4. New Meteorite Type NWA 8159 Augite Basalt: Specimen from a Previously Unsampled Location on Mars?

Author

Agee, C. B, Muttik, N, Ziegler, K, Walton, E. L, Herd, C. D. K, McCubbin, F. M, Santos, A. R, Simon, J. I, Peters, T. J, Tappa, M. J, Sanborn, M. E, and Yin, Q.-Z

Subjects
Geophysics
Abstract

Up until recently the orthopyroxenite ALH 84001, a singleton martian meteorite type, was the only sample that did not fit within the common SNC types. However with the discovery of the unique basaltic breccia NWA 7034 pairing group [1] the diversity of martian meteorites beyond SNC types was expanded, and now with Northwest Africa (NWA) 8159, and its possible pairing NWA 7635 [2], the diversiy is expanded further with a third unique non-SNC meteorite type. The existence of meteorite types beyond the narrow range seen in SNCs is what might be expected from a random cratering sampling of a geologically long-lived and complex planet such as Mars.

Published
2014

5. Bunburra Rockhole: Exploring the Geology of a New Differentiated Basaltic Asteroid

Author

Benedix, G.K, Bland, P. A, Friedrich, J. M, Mittlefehldt, D, Sanborn, M. E, Yin, Q.-Z, Greenwood, R. C, Franchi, L. A, Bevan, A. W. R, Towner, M. C, and Perotta, Grace C

Subjects
Lunar And Planetary Science And Exploration
Abstract

Bunburra Rockhole (BR) is the first recovered meteorite of the Desert Fireball Network. It was initially classified as a basaltic eucrite, based on texture, mineralogy, and mineral chemistry but subsequent O isotopic analyses showed that BR's composition lies significantly far away from the HED group of meteorites. This suggested that BR was not a piece of the HED parent body (4 Vesta), but other explanations could also account for the observed oxygen signatures. Possible scenarios include contamination by components from other bodies (chondrites or other achondrites) or that 4 Vesta may not be as equilibrated as hypothesized. After examining multiple pieces with different instruments (CT scans and x-ray maps), no obvious evidence of contamination was found. If BR is not from Vesta, a conundrum exists as no unusual features were found in mineral and bulk trace element chemistry as exist for other anomalous basaltic achondrites such as Ibitira or Asuka 881394. These meteorites have distinct petrological and geochemical characteristics, in addition to their anomalous O isotope compositions, that set them apart from eucrites. Thus, early results provided a somewhat ambiguous picture of BR's petrogenesis and parentage. To clarify the nature of the relationship, if any, between BR and eucrites, we have performed a correlated stable isotope and bulk chemical study of several lithologic fragments.

Published
2014

6. The Sariçiçek howardite fall in Turkey: Source crater of HED meteorites on Vesta and impact risk of Vestoids

Author

Unsalan, O., Jenniskens, P., Yin, Q. -Z., Kaygisiz, E., Albers, J., Clark, D. L., Granvik, M., Demirkol, I., Erdogan, I. Y., Bengu, A. S., Özel, M. E., Terzioglu, Z., Gi, N., Brown, P., Yalcinkaya, E., Temel, T., Prabhu, D. K., Robertson, D. K., Boslough, M., Ostrowski, D. R., Kimberley, J., Er, S., Rowland, D. J., Bryson, K. L., Altunayar-Unsalan, C., Ranguelov, B., Karamanov, A., Tatchev, D., Kocahan, Ö., Oshtrakh, M. I., Maksimova, A. A., Karabanalov, M. S., Verosub, K. L., Levin, E., Uysal, I., Hoffmann, V., Hiroi, T., Reddy, V., Ildiz, G. O., Bolukbasi, O., Zolensky, M. E., Hochleitner, R., Kaliwoda, M., Öngen, S., Fausto, R., Nogueira, B. A., Chukin, A. V., Karashanova, D., Semionkin, V. A., Yeşiltaş, M., Glotch, T., Yilmaz, A., Friedrich, J. M., Sanborn, M. E., Huyskens, M., Ziegler, K., Williams, C. D., Schönbächler, M., Bauer, K., Meier, M. M. M., Maden, C., Busemann, H., Welten, K. C., Caffee, M. W., Laubenstein, M., Zhou, Q., Li, Q. -L., Li, X. -H., Liu, Y., Tang, G. -Q., Sears, D. W. G., Mclain, H. L., Dworkin, J. P., Elsila, J. E., Glavin, D. P., Schmitt-Kopplin, P., Ruf, A., LE, Corre, L., Schmedemann, N., Unsalan, O., Jenniskens, P., Yin, Q. -Z., Kaygisiz, E., Albers, J., Clark, D. L., Granvik, M., Demirkol, I., Erdogan, I. Y., Bengu, A. S., Özel, M. E., Terzioglu, Z., Gi, N., Brown, P., Yalcinkaya, E., Temel, T., Prabhu, D. K., Robertson, D. K., Boslough, M., Ostrowski, D. R., Kimberley, J., Er, S., Rowland, D. J., Bryson, K. L., Altunayar-Unsalan, C., Ranguelov, B., Karamanov, A., Tatchev, D., Kocahan, Ö., Oshtrakh, M. I., Maksimova, A. A., Karabanalov, M. S., Verosub, K. L., Levin, E., Uysal, I., Hoffmann, V., Hiroi, T., Reddy, V., Ildiz, G. O., Bolukbasi, O., Zolensky, M. E., Hochleitner, R., Kaliwoda, M., Öngen, S., Fausto, R., Nogueira, B. A., Chukin, A. V., Karashanova, D., Semionkin, V. A., Yeşiltaş, M., Glotch, T., Yilmaz, A., Friedrich, J. M., Sanborn, M. E., Huyskens, M., Ziegler, K., Williams, C. D., Schönbächler, M., Bauer, K., Meier, M. M. M., Maden, C., Busemann, H., Welten, K. C., Caffee, M. W., Laubenstein, M., Zhou, Q., Li, Q. -L., Li, X. -H., Liu, Y., Tang, G. -Q., Sears, D. W. G., Mclain, H. L., Dworkin, J. P., Elsila, J. E., Glavin, D. P., Schmitt-Kopplin, P., Ruf, A., LE, Corre, L., and Schmedemann, N.

Abstract

The Sariçiçek howardite meteorite shower consisting of 343 documented stones occurred on September 2, 2015 in Turkey and is the first documented howardite fall. Cosmogenic isotopes show that Sariçiçek experienced a complex cosmic-ray exposure history, exposed during ~12–14 Ma in a regolith near the surface of a parent asteroid, and that an ~1 m sized meteoroid was launched by an impact 22 ± 2 Ma ago to Earth (as did one-third of all HED meteorites). SIMS dating of zircon and baddeleyite yielded 4550.4 ± 2.5 Ma and 4553 ± 8.8 Ma crystallization ages for the basaltic magma clasts. The apatite U-Pb age of 4525 ± 17 Ma, K-Ar age of ~3.9 Ga, and the U,Th-He ages of 1.8 ± 0.7 and 2.6 ± 0.3 Ga are interpreted to represent thermal metamorphic and impact-related resetting ages, respectively. Petrographic; geochemical; and O-, Cr-, and Ti-isotopic studies confirm that Sariçiçek belongs to the normal clan of HED meteorites. Petrographic observations and analysis of organic material indicate a small portion of carbonaceous chondrite material in the Sariçiçek regolith and organic contamination of the meteorite after a few days on soil. Video observations of the fall show an atmospheric entry at 17.3 ± 0.8 km s −1 from NW; fragmentations at 37, 33, 31, and 27 km altitude; and provide a pre-atmospheric orbit that is the first dynamical link between the normal HED meteorite clan and the inner Main Belt. Spectral data indicate the similarity of Sariçiçek with the Vesta asteroid family (V-class) spectra, a group of asteroids stretching to delivery resonances, which includes (4) Vesta. Dynamical modeling of meteoroid delivery to Earth shows that the complete disruption of a ~1 km sized Vesta family asteroid or a ~10 km sized impact crater on Vesta is required to provide sufficient meteoroids ≤4 m in size to account for the influx of meteorites from this HED clan. The 16.7 km diameter Antionia impact crater on Vesta was formed on terrain of the same age as given by the 4 He retention a

Published
2019

7. Lead concentrations and isotopic compositions in the Western Philippine Sea

Author

Chien, Chia-Te, Ho, T.-Y., Sanborn, M. E., Yin, Q.-Z., Paytan, A., Chien, Chia-Te, Ho, T.-Y., Sanborn, M. E., Yin, Q.-Z., and Paytan, A.

Abstract

Dissolved lead (Pb) concentrations and isotope ratios in seawater of the Western Philippine Sea (WPS) were determined to investigate sources of Pb in the region. Surface seawater concentrations at seven sampling stations ranged from 36.2 to 68.1 pmol kg− 1. Isotopic composition of surface water, with 206Pb/207Pb ranging from 1.162 to 1.170, 208Pb/207Pb ranging from 2.445 to 2.451, and 206Pb/204Pb ranging from 18.14 to 18.27, reflects Asian anthropogenic aerosols input to the WPS. Shallow water Pb concentrations within the Kuroshio Current domain are about 15 pmol kg− 1 lower than at other sites and, together with a distinct isotopic signature (206Pb/207Pb = 1.167–1.170, 208Pb/207Pb = 2.447–2.451 and 206Pb/204Pb = 18.22–18.27), reflect water originating from the Equatorial Pacific that is relatively less impacted by contamination from anthropogenic inputs. An isotopically distinct sub-surface Pb maximum at about 100 to 250 m, representing water originating from the Western North Pacific where anthropogenic Pb deposition is high, was seen at all seven sites. Lead concentrations in deep water in the stations further from shore are typically lower than in the surface layer and ranged from 11.2 to 51.6 pmol kg− 1. Lead isotopic signatures in deep water at these sites (206Pb/207Pb = 1.162–1.184; 208Pb/207Pb = 2.448–2.471; 206Pb/204Pb = 18.13–18.51) are offset from pre-anthropogenic values and suggest that anthropogenic sources have penetrated the deep water column. Elevated concentrations and isotopic signatures observed in the deep water at stations closer to shore, where sediment transport is prevalent, indicate that sedimentary input is a major source of dissolved Pb at these sites. Differences in Pb concentrations and isotopic signatures between samples collected from the Pacific Deep Water (PDW) water-mass during this study and those collected a decade ago suggest that Pb inputs even in deep water change on decadal scales.

Published
2017
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10. Chelyabinsk airburst, damage assessment, meteorite recovery, and characterization

Author

Popova, O. P., Jenniskens, P., Emel'yanenko, V., Kartashova, A., Biryukov, E., Khaibrakhmanov, S., Shuvalov, V., Rybnov, Y., Dudorov, A., Grokhovsky, V. I., Badyukov, D. D., Yin, Q.-Z., Gural, P. S., Albers, J., Granvik, M., Evers, L. G., Kuiper, J., Kharlamov, V., Solovyov, A., Rusakov, Y. S., Korotkiy, S., Serdyuk, I., Korochantsev, A. V., Larionov, M. Yu., Glazachev, D., Mayer, A. E., Gisler, G., Gladkovsky, S. V., Wimpenny, J., Sanborn, M. E., Yamakawa, A., Verosub, K. L., Rowland, D. J., Roeske, S., Botto, N. W., Friedrich, J. M., Zolensky, M. E., Le, L., Ross, D., Ziegler, K., Nakamura, T., Ahn, I., Lee, J. I., Zhou, Q., Li, X.-H., Li, Q.-L., Liu, Y., Tang, G.-Q., Hiroi, T., Sears, D., Weinstein, I. A., Vokhmintsev, A. S., Ishchenko, A. V., Schmitt-Kopplin, P., Hertkorn, N., Nagao, K., Haba, M. K., Komatsu, M., Mikouchi, T., Popova, O. P., Jenniskens, P., Emel'yanenko, V., Kartashova, A., Biryukov, E., Khaibrakhmanov, S., Shuvalov, V., Rybnov, Y., Dudorov, A., Grokhovsky, V. I., Badyukov, D. D., Yin, Q.-Z., Gural, P. S., Albers, J., Granvik, M., Evers, L. G., Kuiper, J., Kharlamov, V., Solovyov, A., Rusakov, Y. S., Korotkiy, S., Serdyuk, I., Korochantsev, A. V., Larionov, M. Yu., Glazachev, D., Mayer, A. E., Gisler, G., Gladkovsky, S. V., Wimpenny, J., Sanborn, M. E., Yamakawa, A., Verosub, K. L., Rowland, D. J., Roeske, S., Botto, N. W., Friedrich, J. M., Zolensky, M. E., Le, L., Ross, D., Ziegler, K., Nakamura, T., Ahn, I., Lee, J. I., Zhou, Q., Li, X.-H., Li, Q.-L., Liu, Y., Tang, G.-Q., Hiroi, T., Sears, D., Weinstein, I. A., Vokhmintsev, A. S., Ishchenko, A. V., Schmitt-Kopplin, P., Hertkorn, N., Nagao, K., Haba, M. K., Komatsu, M., and Mikouchi, T.

Abstract

The asteroid impact near the Russian city of Chelyabinsk on 15 February 2013 was the largest airburst on Earth since the 1908 Tunguska event, causing a natural disaster in an area with a population exceeding one million. Because it occurred in an era with modern consumer electronics, field sensors, and laboratory techniques, unprecedented measurements were made of the impact event and the meteoroid that caused it. Here, we document the account of what happened, as understood now, using comprehensive data obtained from astronomy, planetary science, geophysics, meteorology, meteoritics, and cosmochemistry and from social science surveys. A good understanding of the Chelyabinsk incident provides an opportunity to calibrate the event, with implications for the study of near-Earth objects and developing hazard mitigation strategies for planetary protection.

Published
2013

13. Bunburra Rockhole: Exploring the geology of a new differentiated basaltic asteroid

Author

Benedix, G. K., Bland, P. A., Friedrich, J. M., Mittlefehldt, D. W., Sanborn, M. E., Yin, Q. - Z., Greenwood, R. C., Franchi, I. A., Bevan, A. W. R., Towner, M. C., Perotta, G. C., Benedix, G. K., Bland, P. A., Friedrich, J. M., Mittlefehldt, D. W., Sanborn, M. E., Yin, Q. - Z., Greenwood, R. C., Franchi, I. A., Bevan, A. W. R., Towner, M. C., and Perotta, G. C.

14. Bunburra Rockhole: Exploring the geology of a new differentiated basaltic asteroid

Author

Benedix, G. K., Bland, P. A., Friedrich, J. M., Mittlefehldt, D. W., Sanborn, M. E., Yin, Q. - Z., Greenwood, R. C., Franchi, I. A., Bevan, A. W. R., Towner, M. C., Perotta, G. C., Benedix, G. K., Bland, P. A., Friedrich, J. M., Mittlefehldt, D. W., Sanborn, M. E., Yin, Q. - Z., Greenwood, R. C., Franchi, I. A., Bevan, A. W. R., Towner, M. C., and Perotta, G. C.

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