Quantifying kinetic fractionation in Bunker Cave speleothems using Δ ₄₇

Keyphrases

• Speleothem 100%
• Kinetic Isotope Fractionation 100%
• Bunker 100%
• Clumped Isotopes 66%
• Stalagmite 50%
• Kinetic Isotope Effect 33%
• Germany 16%
• Temperature Effect 16%
• Paleoclimate 16%
• Carbonate 16%
• Growth Rate 16%
• Oxygen Isotopes 16%
• Climate Events 16%
• Temporal Variation 16%
• Carbon Isotopes 16%
• Non-equilibrium Effects 16%
• Environmental Parameters 16%
• Modern Speleothems 16%
• Isotopic Signals 16%
• Speleothem Calcite 16%
• Incomplete Understanding 16%
• Isotope Shift 16%
• Prior Calcite Precipitation 16%
• Drip Water 16%
• Internal Parameters 16%
• Water Parameters 16%
• Apparent Temperature 16%
• Strong Prior 16%
• Water Supersaturation 16%
• Equilibrium Relationship 16%
• Modern Materials 16%
• External Parameters 16%
• Growth Period 16%
• Cave Drip Water 16%

Earth and Planetary Sciences

• Fractionation 100%
• Speleothem 100%
• Stalagmite 42%
• Calcite 28%
• Isotope Effect 28%
• Paleoclimate 14%
• Holocene 14%
• Oxygen 18 14%
• Temporal Variation 14%
• Supersaturation 14%
• Germany 14%