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Burn, C R (2000) The thermal regime of a retrogressive thaw slump near Mayo, Yukon Territory. Canadian Journal of Earth Sciences, 37 (7) 967-981 doi:10.1139/e00-017

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Reference TypeJournal (article/letter/editorial)
TitleThe thermal regime of a retrogressive thaw slump near Mayo, Yukon Territory
JournalCanadian Journal of Earth Sciences
AuthorsBurn, C RAuthor
Year2000 (July 1)Volume37
Issue7
PublisherCanadian Science Publishing
DOIdoi:10.1139/e00-017Search in ResearchGate
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Mindat Ref. ID483402Long-form Identifiermindat:1:5:483402:5
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Full ReferenceBurn, C R (2000) The thermal regime of a retrogressive thaw slump near Mayo, Yukon Territory. Canadian Journal of Earth Sciences, 37 (7) 967-981 doi:10.1139/e00-017
Plain TextBurn, C R (2000) The thermal regime of a retrogressive thaw slump near Mayo, Yukon Territory. Canadian Journal of Earth Sciences, 37 (7) 967-981 doi:10.1139/e00-017
In(2000, July) Canadian Journal of Earth Sciences Vol. 37 (7) Canadian Science Publishing
Abstract/Notes The development of a retrogressive thaw slump near Mayo, Yukon Territory, has been traced from initiation by bank erosion (~1949) of the Stewart River to stabilization in 1993-1994. The stabilized headwall of the slump is 450 m from the river, and the slope of the slump floor is 3°. A transect of the slump from the river to the stabilized headwall was drilled in July 1995, to determine the extent and rate of permafrost degradation in the slump floor. Thermistors were placed in access tubes to 12 m depth at five sites, four near the transect and one in undisturbed terrain, to determine the magnitude of thermal disturbance due to slump development. Data loggers at the sites recorded the ground temperature at 1 m depth for two years from August 1995. The annual mean ground temperatures measured by the data loggers varied between 1.2° and 1.8°C in the slump, compared with -2.4°C in undisturbed ground, indicating a disturbance of about 4°C due to slumping. The depth of thaw in the slump floor is consistent with the Stefan solution for thawing of permafrost. Conduction is the dominant mode of heat transfer in the slump, where the soil is fine grained and there is almost no organic horizon. Winter ground temperatures at 1 m depth were nearly 6°C warmer in the slump than in the surrounding forest, even though snow depths were similar, due to the release of latent heat during prolonged frost penetration. These data demonstrate the importance of subsurface conditions on near-surface ground temperatures in winter.

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Kotler, E, Burn, C R (2000) Cryostratigraphy of the Klondike "muck" deposits, west-central Yukon Territory. Canadian Journal of Earth Sciences, 37 (6) 849-861 doi:10.1139/e00-013
Burn, C. R., Michel, F. A., Smith, M. W. (1986) Stratigraphic, isotopic, and mineralogical evidence for an early Holocene thaw unconformity at Mayo, Yukon Territory. Canadian Journal of Earth Sciences, 23 (6) 794-803 doi:10.1139/e86-081
Karunaratne, K C, Burn, C R (2004) Relations between air and surface temperature in discontinuous permafrost terrain near Mayo, Yukon Territory. Canadian Journal of Earth Sciences, 41 (12) 1437-1451 doi:10.1139/e04-082
Burn, C. R., Michel, F. A. (1988) Evidence for recent temperature-induced water migration into permafrost from the tritium content of ground ice near Mayo, Yukon Territory, Canada. Canadian Journal of Earth Sciences, 25 (6) 909-915 doi:10.1139/e88-087
Froese, D G, Barendregt, R W, Enkin, R J, Baker, J (2000) Paleomagnetic evidence for multiple Late Pliocene - Early Pleistocene glaciations in the Klondike area, Yukon Territory. Canadian Journal of Earth Sciences, 37 (6) 863-877 doi:10.1139/e00-014
Jackson, D E, Lenz, A C (2000) Some graptolites from the late Tremadoc and early Arenig of Yukon, Canada. Canadian Journal of Earth Sciences, 37 (8) 1177-1193 doi:10.1139/e00-030
Burn, C R (1998) The response (1958-1997) of permafrost and near-surface ground temperatures to forest fire, Takhini River valley, southern Yukon Territory. Canadian Journal of Earth Sciences, 35 (2) 184-199 doi:10.1139/e97-105
Fraser, T. A., Burn, C. R. (1997) On the nature and origin of "muck" deposits in the Klondike area, Yukon Territory. Canadian Journal of Earth Sciences, 34 (10) 1333-1344 doi:10.1139/e17-106
Burn, C. R. (1988) The development of near-surface ground ice during the Holocene at sites near Mayo, Yukon Territory, Canada. Journal of Quaternary Science, 3 (1). 31-38 doi:10.1002/jqs.3390030106
Lantuit, H., Pollard, W.H. (2008) Fifty years of coastal erosion and retrogressive thaw slump activity on Herschel Island, southern Beaufort Sea, Yukon Territory, Canada. Geomorphology, 95 (1) 84-102 doi:10.1016/j.geomorph.2006.07.040
Preece, Shari J, Westgate, John A, Alloway, Brent V, Milner, Michael W (2000) Characterization, identity, distribution, and source of late Cenozoic tephra beds in the Klondike district of the Yukon, Canada. Canadian Journal of Earth Sciences, 37 (7) 983-996 doi:10.1139/e00-011
 
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