Last interglacial seasonal hydroclimate in the North Sea–Baltic Sea region

S. Ni*, Z. Lu, Q. Zhang, J. Groeneveld, K. L. Knudsen, M. S. Seidenkrantz, H. L. Filipsson

*Corresponding author for this work

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaperJournal articleResearchpeer-review

Abstract

The Last Interglacial (LIG) experienced substantial changes in seasonal insolation compared with the present day, which may have affected the hydrography and water-mass exchange in the North Sea and Baltic Sea region. Here we investigate the effects of solar radiation and greenhouse gas (GHG) forcing on the regional climate by analyzing model simulations of the LIG (127 ka BP), pre-industrial (PI, 1850 CE), and present-day (PD, 1990 CE) climates. We also interpret the reconstructed seasonal bottom water conditions using benthic foraminifera and geochemistry data. Our simulations reveal that during the LIG, the Baltic Sea region (including the Kattegat and the Danish Straits) experienced more saline and colder bottom waters than those in the PD, in agreement with the reconstruction data. This can be attributed to lower GHG levels and enhanced water exchange of cooler, saline North Sea water into the Baltic Sea during the LIG. The thermocline was stronger during the summer months in the LIG, mainly due to the higher sea surface temperature (SST) compared to that of the PD resulting from increased summer insolation. Further, the temperature anomalies (LIG–PD) show significant inverse correlations with the precipitation–minus–evaporation (P–E) at the Baltic Sea entrance. However, the P–E balance appears to have had minimal impact on salinity changes in the North Sea, the Baltic Proper, and the open sea area. Our findings indicate that monthly surface and bottom water salinity anomalies of LIG-PI exhibit strong positive correlations with the North Atlantic Oscillation (NAO) anomalies in the Baltic entrance region. During the LIG, a more positive phase of the NAO index in autumn played a crucial role in wind-driven major inflows and led to more intensive water exchange in the North Sea–Baltic Sea region compared to the late Holocene.

Original languageEnglish
Article number108152
JournalQuaternary Science Reviews
Volume312
Number of pages14
ISSN0277-3791
DOIs
Publication statusPublished - Jul 2023

Keywords

  • Baltic Sea
  • Data-model comparison
  • EC-Earth model
  • Evaporation
  • Greenhouse Gas (GHG)
  • Hydrography
  • Insolation
  • North Atlantic Oscillation (NAO)
  • Paleoceanography
  • Precipitation
  • Salinity
  • Seasonality
  • Temperature
  • The Last Interglacial

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