The fall, recovery, classification, and initial characterization of the Hamburg, Michigan H4 chondrite. (27th October 2020)

Record Type:
Journal Article
Title:
The fall, recovery, classification, and initial characterization of the Hamburg, Michigan H4 chondrite. (27th October 2020)
Main Title:
The fall, recovery, classification, and initial characterization of the Hamburg, Michigan H4 chondrite
Authors:
Heck, Philipp R.
Greer, Jennika
Boesenberg, Joseph S.
Bouvier, Audrey
Caffee, Marc W.
Cassata, William S.
Corrigan, Catherine
Davis, Andrew M.
Davis, Donald W.
Fries, Marc
Hankey, Mike
Jenniskens, Peter
Schmitt‐Kopplin, Philippe
Sheu, Shannon
Trappitsch, Reto
Velbel, Michael
Weller, Brandon
Welten, Kees
Yin, Qing‐Zhu
Sanborn, Matthew E.
Ziegler, Karen
Rowland, Douglas
Verosub, Kenneth L.
Zhou, Qin
Liu, Yu
Tang, Guoqiang
Li, Qiuli
Li, Xianhua
Zajacz, Zoltan
Abstract:
Abstract: The Hamburg meteorite fell on January 16, 2018, near Hamburg, Michigan, after a fireball event widely observed in the U.S. Midwest and in Ontario, Canada. Several fragments fell onto frozen surfaces of lakes and, thanks to weather radar data, were recovered days after the fall. The studied rock fragments show no or little signs of terrestrial weathering. Here, we present the initial results from an international consortium study to describe the fall, characterize the meteorite, and probe the collision history of Hamburg. About 1 kg of recovered meteorites was initially reported. Petrology, mineral chemistry, trace element and organic chemistry, and O and Cr isotopic compositions are characteristic of H4 chondrites. Cosmic ray exposure ages based on cosmogenic 3 He, 21 Ne, and 38 Ar are ~12 Ma, and roughly agree with each other. Noble gas data as well as the cosmogenic 10 Be concentration point to a small 40–60 cm diameter meteoroid. An 40 Ar‐ 39 Ar age of 4532 ± 24 Ma indicates no major impact event occurring later in its evolutionary history, consistent with data of other H4 chondrites. Microanalyses of phosphates with LA‐ICPMS give an average Pb‐Pb age of 4549 ± 36 Ma. This is in good agreement with the average SIMS Pb‐Pb phosphate age of 4535.3 ± 9.5 Ma and U‐Pb Concordia age of 4535 ± 10 Ma. The weighted average age of 4541.6 ± 9.5 Ma reflects the metamorphic phosphate crystallization age after parent body formation in the early solar system.
Is Part Of:
Meteoritics & planetary science. Volume 55:Number 11(2020)
Journal:
Meteoritics & planetary science
Issue:
Volume 55:Number 11(2020)
Issue Display:
Volume 55, Issue 11 (2020)
Year:
2020
Volume:
55
Issue:
11
Issue Sort Value:
2020-0055-0011-0000
Page Start:
2341
Page End:
2359
Publication Date:
2020-10-27
Subjects:
Meteorites -- Periodicals
Planetology -- Periodicals
523.4
Journal URLs:
http://onlinelibrary.wiley.com/journal/10.1111/(ISSN)1945-5100
http://www.uark.edu/%7Emeteor/
http://www.uark.edu/meteor/
http://adsabs.harvard.edu/tocservice.html
http://onlinelibrary.wiley.com/
DOI:
10.1111/maps.13584
Languages:
English
ISSNs:
1086-9379
Deposit Type:
Legaldeposit
View Content:
Available online (eLD content is only available in our Reading Rooms)
Physical Locations:
British Library DSC - 5703.350000
British Library DSC - BLDSS-3PM
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Ingest File:
15333.xml