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Spatial patterns of Holocene temperature changes over mid-latitude Eurasia.

Jiawei JiangBowen MengHuanye WangHu LiuMu SongYuxin HeCheng ZhaoJun ChengGuoqiang ChuSergey KrivonogovWeiguo LiuZhonghui Liu
Published in: Nature communications (2024)
The Holocene temperature conundrum, the discrepancy between proxy-based Holocene global cooling and simulated global annual warming trends, remains controversial. Meanwhile, reconstructions and simulations show inconsistent spatial patterns of terrestrial temperature changes. Here we report Holocene alkenone records to address spatial patterns over mid-latitude Eurasia. In contrast with long-term cooling trends in warm season temperatures in northeastern China, records from southwestern Siberia are characterized by colder conditions before ~6,000 years ago, thus long-term warming trends. Together with existing records from surrounding regions, we infer that colder airmass might have prevailed in the interior of mid-latitude Eurasian continent during the early to mid-Holocene, perhaps associated with atmospheric response to remnant ice sheets. Our results challenge the proposed seasonality bias in proxies and modeled spatial patterns in study region, highlighting that spatial patterns of Holocene temperature changes should be re-considered in record integrations and model simulations, with important implications for terrestrial hydroclimate changes.
Keyphrases
  • magnetic resonance
  • molecular dynamics
  • magnetic resonance imaging
  • computed tomography
  • particulate matter
  • monte carlo