Litcius/Paper detail

Local hydroclimate alters interpretation of speleothem δ18O records

Elizabeth W. Patterson, Vanessa Skiba, Annabel Wolf, Michael L. Griffiths, David McGee, Thành N. Bùi, Mùi X. Trần, Trí H. Đinh, Quốc Đỗ-Trọng, Gregory R. Goldsmith, Vasile Ersek, Kathleen R. Johnson

2024Nature Communications16 citationsDOIOpen Access PDF

Abstract

Oxygen isotopes (δ18O) are the most commonly utilized speleothem proxy and have provided many foundational records of paleoclimate. Thus, understanding processes affecting speleothem δ18O is crucial. Yet, prior calcite precipitation (PCP), a process driven by local hydrology, is a widely ignored control of speleothem δ18O. Here we investigate the effects of PCP on a stalagmite δ18O record from central Vietnam, spanning 45 – 4 ka. We employ a geochemical model that utilizes speleothem Mg/Ca and cave monitoring data to correct the δ18O record for PCP effects. The resulting record exhibits improved agreement with regional speleothem δ18O records and climate model simulations, suggesting that the corrected record more accurately reflects precipitation δ18O (δ18Op). Without considering PCP, our interpretations of the δ18O record would have been misleading. To avoid misinterpretations of speleothem δ18O, our results emphasize the necessity of considering PCP as a significant driver of speleothem δ18O. This study finds that in-cave processes affect speleothem oxygen isotope records. Correcting for these processes improves agreement with other regional records and climate models, providing a more accurate reflection of past hydroclimate change.

Topics & Concepts

SpeleothemInterpretation (philosophy)BiologyComputer scienceEcologyCaveProgramming languageGeology and Paleoclimatology ResearchKarst Systems and HydrogeologyLandslides and related hazards