The isotope composition of selenium in chondrites constrains the depletion mechanism of volatile elements in solar system materials

Vollstaedt, Hauke; Mezger, Klaus; Leya, Ingo (2016). The isotope composition of selenium in chondrites constrains the depletion mechanism of volatile elements in solar system materials. Earth and planetary science letters, 450, pp. 372-380. Elsevier 10.1016/j.epsl.2016.06.052

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Solar nebula processes led to a depletion of volatile elements in different chondrite groups when compared to the bulk chemical composition of the solar system deduced from the Sun's photosphere. For moderately-volatile elements, this depletion primarily correlates with the element condensation temperature and is possibly caused by incomplete condensation from a hot solar nebula, evaporative loss from the precursor dust, and/or inherited from the interstellar medium. Element concentrations and interelement ratios of volatile elements do not provide a clear picture about responsible mechanisms. Here, the abundance and stable isotope composition of the moderately- to highly-volatile element Se are investigated in carbonaceous, ordinary, and enstatite chondrites to constrain the mechanism responsible for the depletion of volatile elements in planetary bodies of the inner solar system and to define a δ(82/78)Se value for the bulk solar system. The δ(82/78)Se of the studied chondrite falls are identical within their measurement uncertainties with a mean of −0.20±0.26‰ (2 s.d., n=14n=14, relative to NIST SRM 3149) despite Se abundance depletions of up to a factor of 2.5 with respect to the CI group. The absence of resolvable Se isotope fractionation rules out a kinetic Rayleigh-type incomplete condensation of Se from the hot solar nebula or partial kinetic evaporative loss on the precursor material and/or the parent bodies. The Se depletion, if acquired during partial condensation or evaporative loss, therefore must have occurred under near equilibrium conditions to prevent measurable isotope fractionation. Alternatively, the depletion and cooling of the nebula could have occurred simultaneously due to the continuous removal of gas and fine particles by the solar wind accompanied by the quantitative condensation of elements from the pre-depleted gas. In this scenario the condensation of elements does not require equilibrium conditions to avoid isotope fractionation. The results further suggest that the processes causing the high variability of Se concentrations and depletions in ordinary and enstatite chondrites did not involve any measurable isotope fractionation. Different degrees of element depletions and isotope fractionations of the moderately-volatile elements Zn, S, and Se in ordinary and enstatite chondrites indicate that their volatility is controlled by the thermal stabilities of their host phases and not by the condensation temperature under canonical nebular conditions.

Item Type:

Journal Article (Original Article)

Division/Institute:

08 Faculty of Science > Physics Institute > Space Research and Planetary Sciences
08 Faculty of Science > Institute of Geological Sciences
08 Faculty of Science > Institute of Geological Sciences > Isotope Geology
08 Faculty of Science > Physics Institute

UniBE Contributor:

Vollstaedt, Hauke; Mezger, Klaus and Leya, Ingo

Subjects:

500 Science > 530 Physics
500 Science > 550 Earth sciences & geology
500 Science > 520 Astronomy

ISSN:

0012-821X

Publisher:

Elsevier

Funders:

[UNSPECIFIED] Center for Space and Habitability
[51] Schweizerische Numismatische Gesellschaft

Language:

English

Submitter:

Hauke Vollstaedt

Date Deposited:

19 Jul 2016 16:14

Last Modified:

16 Sep 2018 02:30

Publisher DOI:

10.1016/j.epsl.2016.06.052

BORIS DOI:

10.7892/boris.84550

URI:

https://boris.unibe.ch/id/eprint/84550

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