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Orbital- and millennial-scale Asian winter monsoon variability across the Pliocene-Pleistocene glacial intensification.

Hong AoDiederik LiebrandMark J DekkersAndrew P RobertsTara N JonellZhang Dong JinYougui SongQingsong LiuQiang SunXinxia LiChunju HuangXiaoke QiangPeng Zhang
Published in: Nature communications (2024)
Intensification of northern hemisphere glaciation (iNHG), ~2.7 million years ago (Ma), led to establishment of the Pleistocene to present-day bipolar icehouse state. Here we document evolution of orbital- and millennial-scale Asian winter monsoon (AWM) variability across the iNHG using a palaeomagnetically dated centennial-resolution grain size record between 3.6 and 1.9 Ma from a previously undescribed loess-palaeosol/red clay section on the central Chinese Loess Plateau. We find that the late Pliocene-early Pleistocene AWM was characterized by combined 41-kyr and ~100-kyr cycles, in response to ice volume and atmospheric CO 2 forcing. Northern hemisphere ice sheet expansion, which was accompanied by an atmospheric CO 2 concentration decline, substantially increased glacial AWM intensity  and its orbitally oscillating amplitudes across the iNHG. Superposed on orbital variability, we find that millennial AWM intensity fluctuations persisted during both the warmer (higher-CO 2 ) late Pliocene and colder (lower-CO 2 ) early Pleistocene, in response to both external astronomical forcing and internal climate dynamics.
Keyphrases
  • high intensity
  • particulate matter
  • climate change
  • bipolar disorder
  • single molecule
  • carbon dioxide