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Iberian Margin surface ocean cooling led freshening during Marine Isotope Stage 6 abrupt cooling events.

Hongrui ZhangYongsong HuangReto WijkerIsabel CachoJudit TornerMadeleine SantosOliver KostBingbing WeiHeather M Stoll
Published in: Nature communications (2023)
The high-resolution paleoclimate records on the Iberian Margin provide an excellent archive to study the mechanism of abrupt climate events. Previous studies on the Iberian Margin proposed that the surface cooling reconstructed by the alkenone-unsaturation index coincided with surface water freshening inferred from an elevated percentage of tetra-unsaturated alkenones, C 37:4 %. However, recent data indicate that marine alkenone producers, coccolithophores, do not produce more C 37:4 in culture as salinity decreases. Hence, the causes for high C 37:4 are still unclear. Here we provide detailed alkenone measurements to trace the producers of alkenones in combination with foraminiferal Mg/Ca and oxygen isotope ratios to trace salinity variations. The results indicate that all alkenones were produced by coccolithophores and the high C 37:4 % reflects decrease in SST instead of freshening. Furthermore, during the millennial climate changes, a surface freshening did not always trigger a cooling, but sometimes happened in the middle of multiple-stage cooling events and likely amplified the temperature decrease.
Keyphrases
  • high resolution
  • climate change
  • microbial community
  • electronic health record
  • machine learning
  • risk assessment
  • protein kinase
  • deep learning
  • solid phase extraction