Litcius/Paper detail

Magnesium in subaqueous speleothems as a potential palaeotemperature proxy

Russell N. Drysdale, Isabelle Couchoud, Giovanni Zanchetta, Ilaria Isola, Eleonora Regattieri, John Hellström, Aline Govin, Polychronis C. Tzedakis, T. R. Ireland, Ellen Corrick, Alan Greig, Henri Wong, Léonardo Piccini, Peter Holden, Jon Woodhead

2020Nature Communications36 citationsDOIOpen Access PDF

Abstract

Few palaeoclimate archives beyond the polar regions preserve continuous and datable palaeotemperature proxy time series over multiple glacial-interglacial cycles. This hampers efforts to develop a more coherent picture of global patterns of past temperatures. Here we show that Mg concentrations in a subaqueous speleothem from an Italian cave track regional sea-surface temperatures over the last 350,000 years. The Mg shows higher values during warm climate intervals and converse patterns during cold climate stages. In contrast to previous studies, this implicates temperature, not rainfall, as the principal driver of Mg variability. The depositional setting of the speleothem gives rise to Mg partition coefficients that are more temperature dependent than other calcites, enabling the effect of temperature change on Mg partitioning to greatly exceed the effects of changes in source-water Mg/Ca. Subaqueous speleothems from similar deep-cave environments should be capable of providing palaeotemperature information over multiple glacial-interglacial cycles.

Topics & Concepts

SpeleothemInterglacialPaleoclimatologyGlacial periodCaveGeologyStalagmiteSedimentary depositional environmentPhysical geographyClimatologyClimate changePaleontologyHoloceneOceanographyGeographyArchaeologyStructural basinGeology and Paleoclimatology ResearchMarine and environmental studiesGeological formations and processes