Seasonal variability in temperature trends and atmospheric circulation systems during the Eemian (Last Interglacial) based on n-alkanes hydrogen isotopes from Northern Finland

The Last Interglacial warm period, the Eemian (ca. 130-116 thousand years ago), serves as a reference for projected future climate in a warmer world. However, there is a limited understanding of the seasonal characteristics of interglacial climate dynamics, especially in high latitude regions. In th...

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Bibliographic Details
Published in:Quaternary Science Reviews
Main Authors: Katrantsiotis, Christos, Norström, Elin, Smittenberg, Rienk H., Salonen, J. Sakari, Plikk, Anna, Helmens, Karin
Other Authors: Department of Geosciences and Geography
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier Scientific Publ. Co 2021
Subjects:
1172 Environmental sciences
1171 Geosciences
Biomarkers
Climate variability
Eemian
Finland
Hydrogen isotopes
Last Interglacial
MIS 5e
Seasonality changes
DAILY PRECIPITATION
SEDIMENTS
RECORD
ATLANTIC
MODERN PLANTS
GLACIAL CYCLE
OXYGEN ISOTOPES
CLIMATE
WATER
Fennoscandia
North Atlantic
Northern Finland
Online Access:http://hdl.handle.net/10138/336282
Description
Summary:The Last Interglacial warm period, the Eemian (ca. 130-116 thousand years ago), serves as a reference for projected future climate in a warmer world. However, there is a limited understanding of the seasonal characteristics of interglacial climate dynamics, especially in high latitude regions. In this study, we aim to provide new insights into seasonal trends in temperature and moisture source location, linked to shifts in atmospheric circulation patterns, for northern Fennoscandia during the Eemian. Our study is based on the distribution and stable hydrogen isotope composition (delta D) of n-alkanes in a lake sediment sequence from the Sokli paleolake in NE Finland, placed in a multi-proxy framework. The delta D values of predominantly macrophyte-derived mid-chain n-alkanes are interpreted to reflect lake water delta D variability influenced by winter precipitation delta D (delta Dprec), ice cover duration and deuterium (D)-depleted meltwater. The delta D values of terrestrial plant-derived long-chain n-alkanes primarily reflect soil water delta D variability modulated by summer delta Dprec and by the evaporative enrichment of soil and leaf water. The delta Dprec variability in our study area is mostly attributed to the temperature effect and the moisture source location linked to the relative dominance between D-depleted continental and polar air masses and D-enriched North Atlantic air masses. The biomarker signal further corroborates earlier diatom-based studies and pollen-inferred January and July temperature reconstructions from the same sediment sequence. Three phases of climatic changes can be identified that generally follow the secular variations in seasonal insolation: (i) an early warming trend succeeded by a period of strong seasonality (ii) a mid-optimum phase with gradually decreased seasonality and cooler summers, and (iii) a late climatic instability with a cooling trend. Superimposed on this trend, two abrupt cooling events occur in the early and late Eemian. The Sokli delta D variability is ...

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