K. A. Dyl scite author profile

Rock fabricsthe preferred orientation of grainsprovide a window into the history of rock formation, deformation and compaction. Chondritic meteorites are among the oldest materials in the Solar System 1 and their fabrics should record a range of processes occurring in the nebula and in asteroids, but due to abundant fine-grained material these samples have largely resisted traditional in situ fabric analysis. Here we use high resolution electron backscatter diffraction to map the orientation of sub-micrometre grains in the Allende CV carbonaceous chondrite: the matrix material that is interstitial to the mm-sized spherical chondrules that give chondrites their name, and finegrained rims which surround those chondrules. Although Allende matrix exhibits a bulk uniaxial fabric relating to a significant compressive event in the parent asteroid, we find that fine-grained rims preserve a spherically symmetric fabric centred on the chondrule. We define a method that

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Maia X-ray fluorescence imaging: Capturing detail in complex natural samples

Ryan¹,

Siddons²,

Kirkham³

et al. 2014

J. Phys.: Conf. Ser.

174

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A short timescale for changing oxygen fugacity in the solar nebula revealed by high-resolution 26Al–26Mg dating of CAI rims

Simon

Young

Russell

et al. 2005

Earth and Planetary Science Letters

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Early Solar System hydrothermal activity in chondritic asteroids on 1–10-year timescales

Dyl

Bischoff²,

Ziegler

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

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Chondritic meteorites are considered the most primitive remnants of planetesimals from the early Solar System. As undifferentiated objects, they also display widespread evidence of water-rock interaction on the parent body. Understanding this history has implications for the formation of planetary bodies, the delivery of water to the inner Solar System, and the formation of prebiotic molecules. The timescales of water-rock reactions in these early objects, however, are largely unknown. Here, we report evidence for short-lived water-rock reactions in the highly metamorphosed ordinary chondrite breccia Villalbeto de la Peña (L6). An exotic clast (d = 2cm) has coexisting variations in feldspar composition and oxygen isotope ratios that can only result from hydrothermal conditions. The profiles were modeled at T = 800 °C and P(H(2)O) = 1 bar using modified grain-boundary diffusion parameters for oxygen self-diffusion and reaction rates of NaSiCa(-1)Al(-1) exchange in a fumarole. The geochemical data are consistent with hydrothermal activity on the parent body lasting only 1-10 y. This result has wide-ranging implications for the geological history of chondritic asteroids.

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K. A. Dyl

Classification of hydrous meteorites (CR, CM and C2 ungrouped) by phyllosilicate fraction: PSD-XRD modal mineralogy and planetesimal environments

Earliest rock fabric formed in the Solar System preserved in a chondrule rim

Maia X-ray fluorescence imaging: Capturing detail in complex natural samples

A short timescale for changing oxygen fugacity in the solar nebula revealed by high-resolution 26Al–26Mg dating of CAI rims

Early Solar System hydrothermal activity in chondritic asteroids on 1–10-year timescales

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