Asteroid 2008 TC3, not a polymict ureilitic but a polymict C1 chondrite parent body? Survey of 249 Almahata Sitta fragments

Bischoff, Addi ORCIDiD
Bannemann, Lukas
Decker, Stephan
Ebert, Samuel ORCIDiD
Haberer, Siegfried
Heitmann, Ursula
Horstmann, Marian
Klemm, Kerstin I.
Kraemer, Ann‐Kathrin
Lentfort, Sarah
Patzek, Markus ORCIDiD
Storz, Jakob ORCIDiD
Weyrauch, Mona

DOI: https://doi.org/10.1111/maps.13821
Persistent URL: http://resolver.sub.uni-goettingen.de/purl?gldocs-11858/10190
Bischoff, Addi; Bannemann, Lukas; Decker, Stephan; Ebert, Samuel; Haberer, Siegfried; Heitmann, Ursula; Horstmann, Marian; Klemm, Kerstin I.; Kraemer, Ann‐Kathrin; Lentfort, Sarah; Patzek, Markus; Storz, Jakob; Weyrauch, Mona, 2022: Asteroid 2008 TC3, not a polymict ureilitic but a polymict C1 chondrite parent body? Survey of 249 Almahata Sitta fragments. In: Meteoritics & Planetary Science, 57, 7, 1339-1364, DOI: https://doi.org/10.1111/maps.13821. 
 
Bannemann, Lukas; 1 Institut für Planetologie University of Münster Wilhelm‐Klemm‐Str. 10 48149 Münster Germany
Decker, Stephan; 2 Meteorite‐Museum Oberstrasse 10a 55430 Oberwesel Germany
Ebert, Samuel; 1 Institut für Planetologie University of Münster Wilhelm‐Klemm‐Str. 10 48149 Münster Germany
Haberer, Siegfried; 3 Haberer‐Meteorite Rene‐Schickelestr. 28 79117 Freiburg Germany
Heitmann, Ursula; 1 Institut für Planetologie University of Münster Wilhelm‐Klemm‐Str. 10 48149 Münster Germany
Horstmann, Marian; 4 Beusselstraße 38 10553 Berlin Germany
Klemm, Kerstin I.; 1 Institut für Planetologie University of Münster Wilhelm‐Klemm‐Str. 10 48149 Münster Germany
Kraemer, Ann‐Kathrin; 5 Institut für Geologische Wissenschaften Freie Universität Berlin Malteserstr. 74‐100 12249 Berlin Germany
Lentfort, Sarah; 1 Institut für Planetologie University of Münster Wilhelm‐Klemm‐Str. 10 48149 Münster Germany
Patzek, Markus; 1 Institut für Planetologie University of Münster Wilhelm‐Klemm‐Str. 10 48149 Münster Germany
Storz, Jakob; 1 Institut für Planetologie University of Münster Wilhelm‐Klemm‐Str. 10 48149 Münster Germany
Weyrauch, Mona; 6 Institut für Erdmessung Leibniz Universität Hannover Schneiderberg 50 30167 Hannover Germany

Abstract

On October 7, 2008, the asteroid 2008 TC3 exploded as it entered the Earth’s atmosphere, producing significant dust (in the atmosphere) and delivering thousands of stones in a strewn field in Sudan, collectively known as the Almahata Sitta (AhS) stones. About 600 fragments were officially recovered in 2008 and 2009. Further rocks were collected since the fall event by local people. From these stones, 249 were classified at the Institut für Planetologie in Münster (MS) known as MS‐xxx or MS‐MU‐xxx AhS subsamples. Most of these rocks are ureilitic in origin (168; 67%): 87 coarse‐grained ureilites, 60 fine‐grained ureilites, 15 ureilites with variable texture/mineralogy, four trachyandesites, and two polymict breccias. We identified 81 non‐ureilitic fragments, corresponding to 33% of the recovered samples studied in Münster. These included chondrites, namely 65 enstatite chondrites (43 EL; 22 EH), 11 ordinary chondrites (OC), one carbonaceous chondrite, and one unique R‐like chondrite. Furthermore, three samples represent a unique type of enstatite achondrite. Since all AhS stones must be regarded as individual specimens independent from each other, the number of fresh ureilite and enstatite chondrite falls in our meteorite collections has been increased by several hundred percent. Overall, the samples weigh between <1 and 250 g and have a mean mass of ~15 g. If we consider—almost 15 years after the fall—the mass calculations, observations during and after the asteroid entered the atmosphere, the mineralogy of the C1 stones AhS 91A and AhS 671, and the experimental work on fitting the asteroid spectrum (e.g., Goodrich et al., 2019; Jenniskens et al., 2010; Shaddad et al., 2010), the main portion of the meteoroid was likely made of the fine‐grained (carbonaceous) dust and was mostly lost in the atmosphere. In particular, the fact that C1 materials were found has important implications for interpreting asteroid 2008 TC3's early spectroscopic results. Goodrich et al. (2019) correctly suggested that if scientists had not recovered the “water‐free” samples (e.g., ureilites, enstatites, and OC) from the AhS strewn field, 2008 TC3 would have been assumed to be a carbonaceous chondrite meteoroid. Considering that the dominating mass of the exploding meteoroid consisted of carbonaceous materials, asteroid 2008 TC3 cannot be classified as a polymict ureilite; consequently, we state that the asteroid was a polymict carbonaceous chondrite breccia, specifically a polymict C1 object that may have formed by late accretion at least 50–100 Ma after calcium–aluminum‐rich inclusions.