A novel application of triple oxygen isotope ratios of speleothems

<p>Triple oxygen isotope compositions have become one of critical proxies in characterizing a wide range of geochemical and hydroclimate processes. However, &#916;¹⁷O (carbonate ¹⁷O anomaly) has only been barely used in the last decade because it is difficult to measure &#948;¹⁷O of natural samples to a sufficient precision in order to resolve small natural variability. In this study, we present triple oxygen isotope data from speleothems obtained by an O₂-CO₂ Pt-catalyzed oxygen-isotope equilibration method. The high precision (9 per meg or better, 1&#963; SD) of our new speleothem &#916;¹⁷O data is sufficient to resolve subtle hydroclimatic signals. Based on this method, we established triple-oxygen-isotope records of TON cave in westerly region since the last 135ka, providing the evolution history of water vapor source and water vapor cycle in the orbit-millennium scale atmospheric precipitation in the Central Asia. In addition, the triple-oxygen-isotope records of speleothem from Asian and South American monsoonal regions were established in the key periods, such as glacial and interglacial periods. Our speleothem &#916;¹⁷O data indicate a 20 per meg difference between Marine Isotope Stage 5d and 5e in samples from Central Asia, suggesting a shift in moisture source and/or fractionation history. Unexpectedly, there were no measurable &#916;¹⁷O differences between glacial and interglacial samples from both the South American (western Amazon) and Asian (southern China) monsoon domains, implying consistent moisture-source conditions across glacial and interglacial cycles, at least in terms of relative humidity. Speleothem &#916;¹⁷O data may thus provide new and important constraints for understanding regional and global hydroclimate dynamics.</p>