Litcius/Paper detail

Subdecadal Holocene Warm‐Season Temperature Variability in Central Europe Recorded by Biochemical Varves

Paul D. Zander, Maurycy Żarczyński, Wojciech Tylmann, Hendrik Vogel, Martín Grosjean

2024Geophysical Research Letters17 citationsDOIOpen Access PDF

Abstract

Abstract Paleoclimate data provide important information about the character of natural climate variability. However, records with sufficient length and resolution to resolve high‐frequency (decadal‐scale) variability across the Holocene are scarce. We present a 10,800‐year reconstruction of spring and summer temperature at three‐year resolution based on biochemical varves from Lake Żabińskie, Poland. The reconstruction is based on Ca/Ti ratio, which are significantly correlated with instrumental spring and summer temperature spanning 240 years. Major climate events of the Holocene period are represented in the reconstruction, including the Holocene Thermal Maximum, 8.2 ka Event, Medieval Climate Anomaly, and Little Ice Age. A low‐frequency 8,000‐year decreasing trend in warm‐season temperatures is driven by declining summer insolation. Temperature variability is highest during the early Holocene, likely related to warmer and drier conditions. The rate of warming during the past 90 years is extremely unusual, if not unprecedented for the Holocene, based on our reconstruction.

Topics & Concepts

HoloceneVarveClimatologyPaleoclimatologyHolocene climatic optimumClimate changeGeologyPhysical geographyInsolationEnvironmental scienceOceanographyGeographyPaleontologySedimentGeology and Paleoclimatology ResearchIsotope Analysis in EcologyArchaeology and ancient environmental studies