Abstract
The availability of almost 180 cosmogenic-radionuclide (CRN) surface-exposure ages from moraine boulders and glacially polished bedrock surfaces makes possible an assessment of the timing and character of the local Last Glacial Maximum (LLGM) and subsequent deglaciation in the Colorado Rocky Mountains. A review of glacial chronologies and numerical modeling results indicates that although glaciers across Colorado responded broadly synchronously, apparent differences in the timing and magnitude of glacier retreat following the LLGM suggest that spatially variable regional forcing, possibly precipitation related, played a role in glacier behavior along with more spatially uniform hemispheric or global forcing. Glaciers in the five ranges examined reached their greatest LLGM extents before ~19.5 ka and abandoned their outermost LLGM moraines between ~23.5 and 19.5 ka. Detailed deglaciation chronologies are available for glaciers in four of the ranges. In the Sawatch Range and Sangre de Cristo Mountains, glaciers were near their LLGM extents at 17-16 ka, before retreating rapidly. In the San Juan Mountains and the Front Range, glaciers may have begun their post-LLGM recession earlier, although early deglaciation is indicated by only a few ages on polished bedrock that potentially contains pre-LLGM CRN inheritance, and thus may be too old. Regardless of the timing of the onset of deglaciation, the equilibrium-line rise associated with deglaciation was earlier and significantly larger in the San Juan Mountains than elsewhere in Colorado. This suggests that the San Juan Mountains, located well to the southwest of the other ranges, may have experienced enhanced precipitation during the LLGM, as did areas farther to the south and west, while LLGM conditions may have been drier in the northern and eastern Colorado ranges. A breakdown in this pattern after the LLGM, with precipitation decreasing in the south and west and increasing in the north and east, may have led to the range-to-range differences evident across Colorado. Deglaciation was nearly complete in all four ranges by 15-13 ka. While some proxy records indicate a later Younger Dryas-age cooling in the Colorado mountains, there is not clear moraine evidence of glacier readvance at that time.
Highlights
Timing and patterns of climate change during and following the Last Glacial Maximum (LGM) have been the subject of intensive study over the last several decades
We review recent developments in our understanding of late Pleistocene glacial chronology and climate in the Colorado Rocky Mountains, focusing on the interval of deglaciation following the LLGM
CRN surface-exposure ages indicate that in the five ranges discussed in this review, and at most individual glaciers studied in those ranges, maximum ice extent of the LLGM
Summary
Timing and patterns of climate change during and following the Last Glacial Maximum (LGM) have been the subject of intensive study over the last several decades. Mid-latitude mountain glacier systems tend to be small and to have fairly short response times. Their response to climate is relatively easy to model and it is possible to utilize their histories to understand the character of climate changes to which they have responded. Recent studies have documented apparent synchronies and asynchronies in glacier behavior across the Rocky Mountain/Great Basin region of the western United States (Fig. 1) and have proposed explanations involving climate forcings at a variety of spatial scales, from global to sub-regional (Hostetler and Clark, 1997; Licciardi et al, 2001; 2004; Munroe et al, 2006; Licciardi and Pierce, 2008; Thackray, 2008; Refsnider et al, 2008; Laabs et al, 2009; Young et al, 2011; Shakun et al, 2015). We review and synthesize deglaciation chronologies and modeling studies from the southern
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