钨同位素对球粒陨石年龄和起源的限制

Tungsten isotopic constraints on the age and origin of chondrules.

作者信息

Budde Gerrit, Kleine Thorsten, Kruijer Thomas S, Burkhardt Christoph, Metzler Knut

机构信息

Institut für Planetologie, University of Muenster, 48149 Muenster, Germany

Institut für Planetologie, University of Muenster, 48149 Muenster, Germany.

出版信息

Proc Natl Acad Sci U S A. 2016 Mar 15;113(11):2886-91. doi: 10.1073/pnas.1524980113. Epub 2016 Feb 29.

DOI:10.1073/pnas.1524980113

PMID:26929340

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4801301/

Abstract

Chondrules may have played a critical role in the earliest stages of planet formation by mediating the accumulation of dust into planetesimals. However, the origin of chondrules and their significance for planetesimal accretion remain enigmatic. Here, we show that chondrules and matrix in the carbonaceous chondrite Allende have complementary (183)W anomalies resulting from the uneven distribution of presolar, stellar-derived dust. These data refute an origin of chondrules in protoplanetary collisions and, instead, indicate that chondrules and matrix formed together from a common reservoir of solar nebula dust. Because bulk Allende exhibits no (183)W anomaly, chondrules and matrix must have accreted rapidly to their parent body, implying that the majority of chondrules from a given chondrite group formed in a narrow time interval. Based on Hf-W chronometry on Allende chondrules and matrix, this event occurred ∼2 million years after formation of the first solids, about coeval to chondrule formation in ordinary chondrites.

摘要

球粒在行星形成的最初阶段可能通过介导尘埃聚积成小行星而发挥了关键作用。然而，球粒的起源及其对小行星吸积的意义仍然是个谜。在此，我们表明碳质球粒陨石阿伦德中的球粒和基质具有互补的（183）W异常，这是由前太阳、恒星衍生尘埃的不均匀分布导致的。这些数据驳斥了球粒起源于原行星碰撞的观点，相反，表明球粒和基质由太阳星云尘埃的共同储库一起形成。由于阿伦德整体没有（183）W异常，球粒和基质必定迅速吸积到它们的母体上，这意味着来自给定球粒陨石群的大多数球粒是在一个狭窄的时间间隔内形成的。基于对阿伦德球粒和基质的铪-钨计时法，这一事件发生在第一批固体形成约200万年后，与普通球粒陨石中球粒的形成时间大致相同。

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