⁵³Mn‐⁵³Cr chronology and ε⁵⁴Cr‐Δ¹⁷O genealogy of Erg Chech 002: The oldest andesite in the solar system

Abstract: The meteorite Erg Chech (EC) 002 is the oldest felsic igneous rock from the solar system analyzed to date and provides a unique opportunity to study the formation of felsic crusts on differentiated protoplanets immediately after metal–silicate equilibration or core formation. The extinct 53Mn‐53Cr chronometer provides chronological constraints on the formation of EC 002 by applying the isochron approach using chromite, metal–silicate–sulfide, and whole‐rock fractions as well as “leachates” obtained by sequenti… Show more

“…Our U-corrected Pb-Pb age of 4566.19 ± 0.20 Ma confirms the antiquity of EC002 defined previously by the modeldependent 26 Al-26 Mg (Barrat et al 2021;Fang et al 2022;Reger et al 2023) and 53 Mn-53 Cr (Anand et al 2022;Zhu et al 2022) 2023) is based on a three-point isochron with an unacceptable fit (MSWD = 3.3). Their age incorporates a 238 U/ 235 U ratio of 137.766 that they attained from 160 mg of leached pyroxenes, a value that is considerably lower than their bulk value ratio of 137.819 ± 0.010 and our value of 137.813 ± 0.010.…”

“…These estimates correspond to reported ages of 2.26 ± 0.01 Myr, 1.80 ± 0.01, and 1.83 ± 0.12 Myr, respectively, after CAI formation at 4567.30 ± 0.16 Ma (Connelly et al 2012), assuming the socalled canonical initial 26 Al/ 27 Al ratio for the EC002 parent body precursor material of (5.23 ± 0.13) × 10 −5 (Jacobsen et al 2008). Two 53 Mn-53 Cr ages of 1.73 ± 0.96 Myr and 0.7 ± 0.6 Myr after t 0 (anchored to D'Orbigny) were reported by Anand et al (2022) and Zhu et al (2022), respectively.…”

“…Recent reports on the andesitic Erg Chech 002 (herein EC002) suggests that it represents the most ancient silicate achondrite (Barrat et al 2021;Anand et al 2022;Fang et al 2022;Zhu et al 2022;Reger et al 2023). Such an old age would suggest that it represents a fragment of a primary, early formed planetesimal that escaped further growth during the collision and pebble accretion phases of planet formation.…”

“…Such an old age would suggest that it represents a fragment of a primary, early formed planetesimal that escaped further growth during the collision and pebble accretion phases of planet formation. However, these ages are either highly model dependent (the 26 Al-26 Mg system by Barrat et al 2021 andFang et al 2022 and the 53 Mn-53 Cr system of Anand et al 2022 andZhu et al 2022) or based on a three-point Pb-Pb isochron with an unacceptable fit (Reger et al 2023).…”

Evidence for Very Early Planetesimal Formation and ²⁶Al/²⁷Al Heterogeneity in the Protoplanetary Disk

“…Our U-corrected Pb-Pb age of 4566.19 ± 0.20 Ma confirms the antiquity of EC002 defined previously by the modeldependent 26 Al-26 Mg (Barrat et al 2021;Fang et al 2022;Reger et al 2023) and 53 Mn-53 Cr (Anand et al 2022;Zhu et al 2022) 2023) is based on a three-point isochron with an unacceptable fit (MSWD = 3.3). Their age incorporates a 238 U/ 235 U ratio of 137.766 that they attained from 160 mg of leached pyroxenes, a value that is considerably lower than their bulk value ratio of 137.819 ± 0.010 and our value of 137.813 ± 0.010.…”

“…These estimates correspond to reported ages of 2.26 ± 0.01 Myr, 1.80 ± 0.01, and 1.83 ± 0.12 Myr, respectively, after CAI formation at 4567.30 ± 0.16 Ma (Connelly et al 2012), assuming the socalled canonical initial 26 Al/ 27 Al ratio for the EC002 parent body precursor material of (5.23 ± 0.13) × 10 −5 (Jacobsen et al 2008). Two 53 Mn-53 Cr ages of 1.73 ± 0.96 Myr and 0.7 ± 0.6 Myr after t 0 (anchored to D'Orbigny) were reported by Anand et al (2022) and Zhu et al (2022), respectively.…”

“…Recent reports on the andesitic Erg Chech 002 (herein EC002) suggests that it represents the most ancient silicate achondrite (Barrat et al 2021;Anand et al 2022;Fang et al 2022;Zhu et al 2022;Reger et al 2023). Such an old age would suggest that it represents a fragment of a primary, early formed planetesimal that escaped further growth during the collision and pebble accretion phases of planet formation.…”

“…Such an old age would suggest that it represents a fragment of a primary, early formed planetesimal that escaped further growth during the collision and pebble accretion phases of planet formation. However, these ages are either highly model dependent (the 26 Al-26 Mg system by Barrat et al 2021 andFang et al 2022 and the 53 Mn-53 Cr system of Anand et al 2022 andZhu et al 2022) or based on a three-point Pb-Pb isochron with an unacceptable fit (Reger et al 2023).…”

Evidence for Very Early Planetesimal Formation and ²⁶Al/²⁷Al Heterogeneity in the Protoplanetary Disk

“…The short-lived radioactive system 26 Al-26 Mg (t 1/2 = 0.705 Ma) yields a precise relative age (1.80 ± 0.01 Ma after CAI formation), which suggests that EC 002 is the oldest magmatic rock and represents the primordial crusts from a protoplanet in the early Solar System (Fang et al, 2022). 53 Mn-53 Cr dating returned consistently old ages comprising 0.7 ± 0.6 Ma (Zhu et al, 2022) and 1.73 ± 0.96 Ma (Anand et al, 2022) after CAI formation. Compared to the age of EC 002 from the 26 Al-26 Mg and 53 Cr systems relative to the initial Solary System, long lived isotopic systems, including 40 K-40 Ar (4534 þ117 −125 Ma, 1σ) and 147 2σ), returned large errors on absolute ages (Barrat et al, 2021;Fang et al, 2022).…”

K-Ca dating and Ca isotope composition of the oldest Solar System lava, Erg Chech 002

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