Paleoclimatic implications of glacial fluctuations in the Sierra Nevada del Cocuy, northern Andes, Colombia, during the Lateglacial and Holocene
Herbert, Jordan N. Bromley, Gordon R. M. Kelly, Meredith A. Doughty, Alice M. Ruiz-Carrascal, Daniel Restrepo-Moreno, Sergio A. Noriega Londoño, Santiago Galloway, Peter Hidy, Alan J.
Herbert, Jordan N.
Bromley, Gordon R. M.
Kelly, Meredith A.
Doughty, Alice M.
Ruiz-Carrascal, Daniel
Restrepo-Moreno, Sergio A.
Noriega Londoño, Santiago
Galloway, Peter
Hidy, Alan J.
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Publication Date
2025-06-05
Type
journal article
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Citation
Herbert, Jordan N., Bromley, Gordon R. M., Kelly, Meredith A., Doughty, Alice M., Ruiz-Carrascal, Daniel, Restrepo-Moreno, Sergio A., et al (2025). Paleoclimatic implications of glacial fluctuations in the Sierra Nevada del Cocuy, northern Andes, Colombia, during the Lateglacial and Holocene. Quaternary Science Reviews, 363, 109458. https://doi.org/10.1016/j.quascirev.2025.109458
Abstract
The reconstruction of former mountain glaciers from geomorphic mapping and cosmogenic-nuclide surface-exposure dating provides a unique opportunity to infer patterns of past terrestrial climate variability. Tropical mountain glaciers are particularly valuable as there are comparatively few terrestrial climate proxies at equatorial latitudes relative to higher latitudes. As the single largest climate zone on Earth, the tropics play an outsized role in mediating global climate via the ocean-atmosphere transfer of latent heat and water vapor. Nonetheless, there remains a persistent gap in our understanding of how the tropics influenced – or were influenced by – the high-magnitude climate shifts of the Late Pleistocene, and whether this high-energy region simply responded to extratropical forcing or was itself a driver of global climatic change. To help address this knowledge gap, we analyzed geologic evidence for past glacial fluctuations in three adjacent valleys in the Sierra Nevada del Cocuy, the highest subrange of the Eastern Cordillera in the Colombian Andes, to provide a terrestrial record of atmospheric temperature during the latter part of Termination 1. Coupled with geomorphic mapping and paleo-snowline reconstructions, our beryllium-10 glacial chronology indicates that glaciers in the humid inner tropics underwent pronounced growth and gradual decay during the Antarctic Cold Reversal (14.5–12.8 ka) and Younger Dryas (12.8–11.7 ka) periods, respectively, following a trend that, according to directly dated moraine records from throughout both polar hemispheres, appears to have been global. While the specific mechanism(s) behind this large-scale behavior remains to be corroborated, we revisit the hypothesis that ocean-atmosphere heat transfer and water vapor flux are key drivers of abrupt Lateglacial temperature fluctuations. Subsequent to the Lateglacial, deglaciation of the Sierra Nevada del Cocuy accelerated during the Early Holocene, a pattern also observed in other tropical glacier records. More recently, the magnitude of snowline rise and glacier retreat over the last two centuries supports the view that modern tropospheric warming is anomalously strong at least relative to the last ∼16,000 years.
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Elsevier
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Attribution 4.0 International