Litcius/Paper detail

Evidence for a Northern Hemispheric trigger of the 100,000-y glacial cyclicity

Maayan Yehudai, Joohee Kim, Leopoldo D. Pena, Maria Jaume‐Seguí, K. P. Knudson, Louise Bolge, Alberto Malinverno, Torsten Bickert, S. L. Goldstein

2021Proceedings of the National Academy of Sciences35 citationsDOIOpen Access PDF

Abstract

Significance Causes of the Mid-Pleistocene Transition (MPT) from 41- to 100-ky interglacial–glacial cyclicity are debated because it occurred without changes in solar forcing, thus indicating internal climatic drivers. This study reconstructs the deep Atlantic Ocean water-mass structure through the MPT using neodymium isotopes and distinguishes Northern and Southern Hemisphere precursors. North Atlantic results document changes in glacial erosion/weathering preceding the cyclicity shift, including a major erosional episode just before a global ocean circulation weakening between ∽950–860 ka. The findings indicate changes in Northern Hemispheric ice sheets prior to that weakening were central in shaping the cyclicity shift and the post-MPT glacial climate, whereby removal of weathered material exposed crystalline bedrock, resulting in increased bedrock–ice friction that facilitated larger ice sheets.

Topics & Concepts

Glacial periodGeologyInterglacialBedrockNorthern HemisphereIce sheetOceanographyWeatheringMilankovitch cyclesPleistoceneClimatologyErosionNorth Atlantic Deep WaterPhysical geographyThermohaline circulationPaleontologyGeographyGeology and Paleoclimatology ResearchIsotope Analysis in EcologyPleistocene-Era Hominins and Archaeology