Keyphrases
Feldspar
100%
Lead Isotopes
100%
Silicic Magma
100%
Laser Ablation Inductively Coupled Plasma Mass Spectrometry (LA-ICP-MS)
100%
Magma System
100%
Rhyolite
77%
Pb Isotopes
77%
Long Valley
66%
Glass Mountains
55%
Magma
33%
Bishop Tuff
33%
206Pb
22%
Sr Isotopes
22%
Isotope Data
22%
Magma Residence Time
22%
Secular Change
22%
Inductively Coupled Plasma Mass Spectrometry
11%
Basalt
11%
Volcanism
11%
Caldera
11%
Isotopic Signature
11%
238U
11%
Phenocrysts
11%
Crystallization Age
11%
Dome
11%
Magma Chamber
11%
Magmatic System
11%
U-Pb Age
11%
Age Constraints
11%
Zircon
11%
Long-lived
11%
Aging Model
11%
Evidence-based
11%
Zircon Age
11%
Zircon U-Pb Age
11%
208Pb
11%
207Pb
11%
Thermal Ionization Mass Spectrometry
11%
Zircon Dating
11%
Great Uncertainty
11%
Sanidine
11%
Isotopic Differences
11%
Ingrowth
11%
UV Laser Ablation
11%
Volume Increase
11%
Isotope Technique
11%
Isotope Mixing
11%
Mantle Input
11%
Geologic Materials
11%
In Situ S-Pb Isotopes
11%
Unified Model
11%
Mixing Curves
11%
Plumbing
11%
Age Discrepancies
11%
Eruption Volume
11%
Sr-Pb Isotopes
11%
Crustal Composition
11%
Regional Trends
11%
Double Spike
11%
Earth and Planetary Sciences
Magma
100%
Rhyolite
100%
Lead Isotope
100%
Zircon
57%
Basalt
14%
Volcanism
14%
Isotope Ratios
14%
Phenocryst
14%
Magma Chamber
14%
Isotopic Composition
14%
Thermal Ionisation Mass Spectrometry
14%
Laser Ablation
14%
Sanidine
14%
Ultraviolet Laser
14%
Isotope Technique
14%