Degradation and Local Survival of Permafrost Through the Last Interglaciation in Interior Alaska and Yukon Territory

Permafrost in northern North America is warming, and recent modeling efforts have predicted the widespread disappearance of permafrost through much of the northern hemisphere over the next century. However, little is known of the impacts of past sustained warm intervals on permafrost dynamics, antiquity, and distribution due to difficulties in establishing reliable chronologies. Permafrost thus remains the last element of the Arctic cryosphere for which there is poor understanding of its adaptability to past warmer-than-present climate. Here we present observations from three sites in the region of interior Alaska and Yukon Territory that remained ice-free during Plio-Pleistocene glaciations, which collectively demonstrate the variable nature of the response of permafrost to warming during the last interglaciation. Chronology for all sites is based on identification of Old Crow tephra (OCt; 140±10 ka) by glass major element composition. Throughout the study region, OCt is consistently associated with organic-rich sediments that represent the last interglaciation on the basis of pollen, insect, and macrofossil assemblages. At the Palisades site on the Yukon River, 250 km west of Fairbanks, OCt is 1.5-3.5 m below thick (>1m) organic-rich silts and peats that are locally rich in beaver-chewed wood and large wood stumps, some of which are in growth position. In contrast, placer mining at Thistle Creek in central Yukon Territory exposes a dramatic thaw unconformity that is presumably related to local, but incomplete, permafrost degradation during the last interglaciation. In upslope positions at Thistle Creek, OCt is incorporated into a steeply dipping, 30 cm thick, organic-rich silt horizon that truncates at least one intact, relict ice wedge. The steeply dipping organic- rich horizon grades downslope into organic-rich silt with dense accumulations of wood fragments, including tree stems up to 2 m long. Evidence for similar permafrost degradation during the last interglaciation is present at Ch'ijee's Bluff in northern Yukon Territory. At multiple sites along the bluff, OCt underlies a 10-20 cm thick organic-rich silt horizon that grades laterally into wedge-shaped accumulations of deformed organic-rich silt and woody debris, including large stumps and tree stems. These wedge-shaped accumulations consistently truncate OCt and represent melting and subsequent infilling of ice wedge networks. The exposures at these three sites, separated by nearly 1000 km, illustrate the variable response of permafrost to climate warming during the last interglaciation that probably reflects the importance of local site factors (ie. aspect, slope, vegetation cover) in determining the extent of permafrost degradation. Significantly, relict ice below OCt indicates that permafrost survived peak warmth of the last interglaciation at Thistle Creek, despite the dramatic melting suggested by the steeply dipping thaw unconformity. It is commonly assumed that permafrost disappeared from interior Alaska during the last interglaciation and that peak warmth was likely 3°C higher than present, based on the apparent absence of massive ice bodies underlying OCt in the Fairbanks region. Our observations suggest that reports of the death of permafrost in interior Alaska and Yukon during the last interglaciation may be greatly exaggerated, and that deep permafrost is likely to persist in the discontinuous permafrost zone, at least locally, despite future global warming.