Marine‐Calibrated Chronology of Southern Laurentide Ice Sheet Advance and Retreat: ∼2,000‐Year Cycles Paced by Meltwater–Climate Feedback
Abstract Climatic warming following the Last Glacial Maximum caused the southern Laurentide Ice Sheet (LIS) to begin ∼2,000‐year cycles of retreat and readvance whose cause remains ambiguous. By developing a marine‐calibrated chronology of southern LIS position, we counterintuitively demonstrate tha...
| Published in: | Geophysical Research Letters |
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| Main Authors: | , , , , , , , |
| Format: | Article |
| Language: | English |
| Published: |
Wiley
2023-05-01
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| Subjects: | |
| Online Access: | https://doi.org/10.1029/2022GL100391 |
| _version_ | 1850062021937070080 |
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| author | Andrew D. Wickert Carlie Williams Lauren J. Gregoire Kerry L. Callaghan Ruža F. Ivanović Paul J. Valdes Lael Vetter Carrie E. Jennings |
| author_facet | Andrew D. Wickert Carlie Williams Lauren J. Gregoire Kerry L. Callaghan Ruža F. Ivanović Paul J. Valdes Lael Vetter Carrie E. Jennings |
| author_sort | Andrew D. Wickert |
| collection | DOAJ |
| container_title | Geophysical Research Letters |
| description | Abstract Climatic warming following the Last Glacial Maximum caused the southern Laurentide Ice Sheet (LIS) to begin ∼2,000‐year cycles of retreat and readvance whose cause remains ambiguous. By developing a marine‐calibrated chronology of southern LIS position, we counterintuitively demonstrate that between 17.6 and 11.3 ka, ice advanced during times of northern‐hemisphere warming and retreated during times of northern‐hemisphere cooling. Here we propose a cyclical feedback: Meltwater from ice retreat cooled the northern hemisphere by weakening the Atlantic Meridional Overturning Circulation (AMOC). This eventually lead to ice‐sheet readvance, which reduced and rerouted meltwater discharge, and thereby allowed the AMOC to strengthen and the northern hemisphere to warm. Our data suggest that this antiphased ice–climate interaction, paced by ice‐sheet response time, was initiated by synchronous warming and ice retreat ∼18.7–17.6 ka (corresponding to the Erie “Interstade”) and reached its apex during the Younger Dryas. |
| format | Article |
| id | doaj-art-ebbf8936d67149d6880efef554d6de0e |
| institution | Directory of Open Access Journals |
| issn | 0094-8276 1944-8007 |
| language | English |
| publishDate | 2023-05-01 |
| publisher | Wiley |
| record_format | Article |
| spelling | doaj-art-ebbf8936d67149d6880efef554d6de0e2025-08-20T00:21:31ZengWileyGeophysical Research Letters0094-82761944-80072023-05-015010n/an/a10.1029/2022GL100391Marine‐Calibrated Chronology of Southern Laurentide Ice Sheet Advance and Retreat: ∼2,000‐Year Cycles Paced by Meltwater–Climate FeedbackAndrew D. Wickert0Carlie Williams1Lauren J. Gregoire2Kerry L. Callaghan3Ruža F. Ivanović4Paul J. Valdes5Lael Vetter6Carrie E. Jennings7Saint Anthony Falls Laboratory University of Minnesota Minneapolis MN USACollege of Marine Sciences University of South Florida St. Petersburg FL USASchool of Earth and Environment University of Leeds Leeds UKSaint Anthony Falls Laboratory University of Minnesota Minneapolis MN USASchool of Earth and Environment University of Leeds Leeds UKSchool of Geographical Sciences University of Bristol Bristol UKDepartment of Geosciences University of Arizona Tucson AZ USADepartment of Earth & Environmental Sciences University of Minnesota Minneapolis MN USAAbstract Climatic warming following the Last Glacial Maximum caused the southern Laurentide Ice Sheet (LIS) to begin ∼2,000‐year cycles of retreat and readvance whose cause remains ambiguous. By developing a marine‐calibrated chronology of southern LIS position, we counterintuitively demonstrate that between 17.6 and 11.3 ka, ice advanced during times of northern‐hemisphere warming and retreated during times of northern‐hemisphere cooling. Here we propose a cyclical feedback: Meltwater from ice retreat cooled the northern hemisphere by weakening the Atlantic Meridional Overturning Circulation (AMOC). This eventually lead to ice‐sheet readvance, which reduced and rerouted meltwater discharge, and thereby allowed the AMOC to strengthen and the northern hemisphere to warm. Our data suggest that this antiphased ice–climate interaction, paced by ice‐sheet response time, was initiated by synchronous warming and ice retreat ∼18.7–17.6 ka (corresponding to the Erie “Interstade”) and reached its apex during the Younger Dryas.https://doi.org/10.1029/2022GL100391deglaciationocean circulationNorth Americaice sheetpaleoclimate |
| spellingShingle | Andrew D. Wickert Carlie Williams Lauren J. Gregoire Kerry L. Callaghan Ruža F. Ivanović Paul J. Valdes Lael Vetter Carrie E. Jennings Marine‐Calibrated Chronology of Southern Laurentide Ice Sheet Advance and Retreat: ∼2,000‐Year Cycles Paced by Meltwater–Climate Feedback deglaciation ocean circulation North America ice sheet paleoclimate |
| title | Marine‐Calibrated Chronology of Southern Laurentide Ice Sheet Advance and Retreat: ∼2,000‐Year Cycles Paced by Meltwater–Climate Feedback |
| title_full | Marine‐Calibrated Chronology of Southern Laurentide Ice Sheet Advance and Retreat: ∼2,000‐Year Cycles Paced by Meltwater–Climate Feedback |
| title_fullStr | Marine‐Calibrated Chronology of Southern Laurentide Ice Sheet Advance and Retreat: ∼2,000‐Year Cycles Paced by Meltwater–Climate Feedback |
| title_full_unstemmed | Marine‐Calibrated Chronology of Southern Laurentide Ice Sheet Advance and Retreat: ∼2,000‐Year Cycles Paced by Meltwater–Climate Feedback |
| title_short | Marine‐Calibrated Chronology of Southern Laurentide Ice Sheet Advance and Retreat: ∼2,000‐Year Cycles Paced by Meltwater–Climate Feedback |
| title_sort | marine calibrated chronology of southern laurentide ice sheet advance and retreat ∼2 000 year cycles paced by meltwater climate feedback |
| topic | deglaciation ocean circulation North America ice sheet paleoclimate |
| url | https://doi.org/10.1029/2022GL100391 |
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