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Extreme short‐term stable isotope variability revealed by continuous rainwater analysis
Authors:N. C. Munksgaard  C. M. Wurster  A. Bass  M. I. Bird
Affiliation:1. Research Institute for the Environment and Livelihoods, Charles Darwin University, , Darwin, Australia;2. Centre for Tropical Environmental and Sustainability Science, School of Earth and Environmental Sciences, James Cook University, , Cairns, Australia
Abstract:The continuous real‐time analysis, at 30‐s intervals, of precipitation at an Australian tropical location revealed extreme and rapidly changing δ18O and δD values related to variations in moisture source areas, transport paths and precipitation histories. The range of δ18O (?19.6‰ to +2.6‰) and δD (?140‰ to +13‰) values from 5948 measurements of nine rain events over 15 days during an 8‐month period at a single location was comparable with the range measured in 1532 monthly samples from all seven Australian Global Network of Isotopes in Precipitation stations from 1962 to 2002. Extreme variations in δ18O (?8.7‰ to ?19.6‰) and δD (?54‰ to ?140‰) were recorded within a single 4‐h period. Real‐time stable isotope monitoring of precipitation at a high temporal resolution enables new and powerful tracer applications in climatology, hydrology, ecophysiology and palaeoclimatology. Copyright © 2012 John Wiley & Sons, Ltd.
Keywords:stable  isotopes  variability  continuous  rainfall  analysis
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