Tephra beds that are well drained and have been buried by thin paleosols become hydrated within 2–3000 yr on reaction with meteoric waters. Hence, the absorbed water within silicic volcanic glass shards provides a potential record of δD values of ancient meteoric water. Such isotopic records have previously received little investigation. We demonstrate that 1.5–2 m thick tephra beds in central North Island, New Zealand, display uniform δD values vertically through their profiles and laterally up to 250 m in outcrop. Reproducibility is not influenced by grain size or age of the tephra. We obtained an average δD value of -48 ± 3‰ for water within the 1.8 ka Taupo Tephra. This is similar to the composition of present-day surface waters. δD values of -73 ± 2 and -60 ± 2‰ for the 25 ka Kawakawa and 30 ka Mangaone Tephra beds are significantly lower than present waters, indicating that they have been hydrated under different surficial conditions. This is consistent with other proxy paleoclimatic indicators that suggest a cooler, drier, and windier climate at the time of their eruption. Tephra beds are a potential source of paleoclimatic data in terrestrial environments that otherwise may lack proxy records. © 2002 Taylor & Francis Group, LLC.
CITATION STYLE
Shane, P., & Ingraham, N. (2002). δD values of hydrated volcanic glass: A potential record of ancient meteoric water and climate in New Zealand. New Zealand Journal of Geology and Geophysics, 45(4), 453–459. https://doi.org/10.1080/00288306.2002.9514984
Mendeley helps you to discover research relevant for your work.