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Earth’s carbon deficit caused by early loss through irreversible sublimation

https://doi.org/10.1126/sciadv.abd3632

Li, J. ; Bergin, E. A. ; Blake, G. A. ; Ciesla, F. J. ; Hirschmann, M. M. ( April 2021 , Science Advances)
null (Ed.)
Carbon is an essential element for life, but its behavior during Earth’s accretion is not well understood. Carbonaceous grains in meteoritic and cometary materials suggest that irreversible sublimation, and not condensation, governs carbon acquisition by terrestrial worlds. Through astronomical observations and modeling, we show that the sublimation front of carbon carriers in the solar nebula, or the soot line, moved inward quickly so that carbon-rich ingredients would be available for accretion at 1 astronomical unit after the first million years. On the other hand, geological constraints firmly establish a severe carbon deficit in Earth, requiring the destruction of inherited carbonaceous organics in the majority of its building blocks. The carbon-poor nature of Earth thus implies carbon loss in its precursor material through sublimation within the first million years.
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Chemical Evolution in a Protoplanetary Disk within Planet Carved Gaps and Dust Rings

https://doi.org/10.3847/1538-4357/abc1d6

Alarcón, Felipe ; Teague, R. ; Zhang, Ke ; Bergin, E. A. ; Barraza-Alfaro, M. ( December 2020 , The Astrophysical Journal)
null (Ed.)
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Discovery and Physical Characterization of a Large Scattered Disk Object at 92 au

https://doi.org/10.3847/2041-8213/aa64d8

Gerdes, D. W. ; Sako, M. ; Hamilton, S. ; Zhang, K. ; Khain, T. ; Becker, J. C. ; Annis, J. ; Wester, W. ; Bernstein, G. M. ; Scheibner, C. ; et al ( April 2017 , The Astrophysical Journal)

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