Rapid high-resolution U-Pb LA-Q-ICPMS age mapping of zircon
Loading...
Date
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Access
openAccess
Embargo end date
Citation
Chew, DM, Petrus, JA, Kenny, GG, McEvoy, N, Rapid high-resolution U-Pb LA-Q-ICPMS age mapping of zircon, Journal of Analytical Atomic Spectrometry, 32, 2, 2017, 262-276
Abstract
Zircon commonly exhibits textural evidence for distinct growth events (e.g. polyphase core–rim structures)
and evidence for Pb mobility not linked to discrete crystallization episodes (Pb loss, incorporation of
common Pb, high-temperature Pb mobilization). Interpreting complex U–Pb zircon age data therefore
requires imaging of zircon crystals and texturally-controlled sampling to constrain the fine-scale
processes affecting the U–Pb zircon systematics. High-resolution U–Pb laser-ablation quadrupole
inductively coupled plasma mass spectrometry (LA-Q-ICPMS) zircon age maps were undertaken on
zircon sampled from syn-tectonic granitoid suites from the Peruvian Eastern Cordillera that exhibit
textural evidence for clearly-defined cores and rims. The images were acquired by rastering a 7 mm spot
with a 3.5 J cm 2 fluence, with scan speeds of 3 mm s 1 and a 10 Hz repetition rate (ThermoScientific
iCAP-Qc setup) and scan speeds of 20 mm s 1 and a 45 Hz repetition rate (Agilent 7900 system). The
mapping-experiment duration for individual zircons was as fast as 10 minutes (Agilent 7900 setup).
91500 zircon was employed as the primary reference material, and secondary-standard data (Temora,
Pleˇsovice, WRS-1348, FC-1, Fish Canyon, Tardree) typically reproduce within 1% of their published
crystallization ages. Zircon rim concordia ages derived from the U–Pb age maps are consistent with
independent secondary ion mass spectrometry (SIMS) and thermal ionisation mass spectrometry (TIMS)
constraints. Two-dimensional kernel density estimation of the combined U–Pb data from each map
define clear discordia mixing lines between the rim- and core-age components, and also show Pb loss
and common Pb vectors. Potential applications of the technique include the characterisation of complex
polyphase zircons and characterising the U–Pb systematics of key samples for time-intensive U–Pb TIMS
dating.
Description
PUBLISHED
Endorsement
Review
Supplemented By
Referenced By
Keywords
Author's Homepage: http://people.tcd.ie/mcevoyni
Type of material: Journal Article

