Nomenclature and resolution in Holocene glacial chronologies
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| Authors: | Clague, JJ; Menounos, B; Osborn, G; Luckman, BH; Koch, J |
| Year: | 2009 |
| Journal: | Quat. Sci. Rev. 28: 2231-2238 Article Link (DOI) |
| Title: | Nomenclature and resolution in Holocene glacial chronologies |
| Abstract: | Most Quaternary research in Canada during the first half of the twentieth century focused on Pleistocene glaciation. Given the dramatic shifts in climate during the Pleistocene, it is not surprising that the Holocene was viewed as a time of benign climate. Holocene climate variability was first recognized around the middle of the century when paleoecologists found evidence that the early part of the epoch was warmer and drier than the later part. In 1970s and 1980s, another generation of geologists, geographers, and botanists began to recognize more complexity in Holocene climate and vegetation in western Canada. Several millennial-scale glacier "advances" postdating the early Holocene warm interval were defined, including the Garibaldi Phase (6.9-5.6 ka), the Tiedemann-Peyto Advance (3.5-1.9 ka), and the Little Ice Age (AD 1200-1900). Subsequently, application of dendrochronological techniques and stratigraphic studies in glacier forefields showed that the Little Ice Age was itself more complex than previously thought. During that 700-year period, glaciers repeatedly advanced and retreated in response to climatic variability on time scales ranging from centuries to decades. Recent work shows that the glacier record of the Garibaldi Phase and the Tiedemann and Peyto advances are similar in complexity to the Little Ice Age, with multiple advances of glaciers separated by intervals of more restricted ice cover. Researchers have also identified other times in the Holocene when glaciers expanded from restricted positions - 8.20, 4.90-3.80, and 1.70-1.40 ka. Continued research undoubtedly will reveal additional complexities, but with what is currently known the appropriateness of terms such as "Tiedemann Advance Peyto Advance," and "Little Ice Age" can be questioned. Only short periods of time separate these episodes as currently defined, and it seems likely that intervals of restricted glacier cover within each of these millennial-length intervals are just as long as the intervals separating them. (C) 2008 Elsevier Ltd. All rights reserved. |
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