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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

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Reference TypeJournal (article/letter/editorial)
TitleRelations between air and surface temperature in discontinuous permafrost terrain near Mayo, Yukon Territory
JournalCanadian Journal of Earth Sciences
AuthorsKarunaratne, K CAuthor
Burn, C RAuthor
Year2004 (December 1)Volume41
Issue12
PublisherCanadian Science Publishing
DOIdoi:10.1139/e04-082Search in ResearchGate
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Mindat Ref. ID483886Long-form Identifiermindat:1:5:483886:3
GUID0
Full ReferenceKarunaratne, 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
Plain TextKarunaratne, 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
In(2004, December) Canadian Journal of Earth Sciences Vol. 41 (12) Canadian Science Publishing
Abstract/Notes The association of site characteristics with the n-factor, a ratio of air to ground surface temperature, was investigated at five sites in the boreal forest near Mayo, Yukon Territory. Permafrost was in equilibrium with surface conditions at three sites, was degrading at another, and was absent from the fifth. Air and near-surface ground temperatures were recorded by data loggers between September 2000 and April 2002, and mean daily temperatures were accumulated to calculate n-factors for the freezing (nf) and thawing (nt) seasons. Air temperature did not vary between the sites, so inter-site differences in nf and nt were because of variations in surface temperature. Variations in nf between the sites over the two winters were primarily because of differences in snow depth, but at sites with similar snow cover, the surface temperatures were relatively high when the site was underlain by unfrozen ground. During summer, daily mean surface temperatures were initially less than air temperatures. However, once the thawing front had penetrated below the depth of diurnal temperature fluctuation, the air and ground surface temperatures converged. Since the rate of thaw penetration is governed by soil thermal diffusivity, nt varies directly with this property. These results indicate that subsurface conditions, particularly absolute temperature and ground thermal properties, exert considerable influence on n-factors, and, at the Mayo sites, the influence is greater than that of the vegetation.

See Also

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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
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
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
Kokelj, S V, Burn, C R (2005) Geochemistry of the active layer and near-surface permafrost, Mackenzie delta region, Northwest Territories, Canada. Canadian Journal of Earth Sciences, 42 (1) 37-48 doi:10.1139/e04-089
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
Burn, C. R., Smith, M. W. (2006) Development of thermokarst lakes during the holocene at sites near Mayo, Yukon territory. Permafrost and Periglacial Processes, 1 (2). 161-175 doi:10.1002/ppp.3430010207
Burn, C. R. (1991) Permafrost and ground ice conditions reported during recent geotechnical investigations in the Mayo district, Yukon territory. Permafrost and Periglacial Processes, 2 (3). 259-268 doi:10.1002/ppp.3430020310
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
Williams, D. J., Burn, C. R. (1996) Surficial characteristics associated with the occurrence of permafrost near Mayo, Central Yukon Territory, Canada. Permafrost and Periglacial Processes, 7 (2). 193-206 doi:10.1002/(sici)1099-1530(199604)7:2<193::aid-ppp216>3.0.co;2-0
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
Burn, C. R. (1994) Permafrost, tectonics, and past and future regional climate change, Yukon and adjacent Northwest Territories. Canadian Journal of Earth Sciences, 31 (1) 182-191 doi:10.1139/e94-015
 
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