Planetary and Space Science 5 r
and mid-latitude surface processes 10Ma ago. Conditions favoring an active layer are not predicted to be common in the next 10Ma. The much higher obliquity excursions 1973; Pewe, 1991), where the year-average surface tem-perature is below the water freezing point (e.g., Williams hundreds of meters t...
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Format: | Text |
Language: | English |
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Online Access: | http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.623.3691 http://people.bu.edu/marchant/Dave_FullText_Papers/Kreslavsky_PSS_2008.pdf |
Summary: | and mid-latitude surface processes 10Ma ago. Conditions favoring an active layer are not predicted to be common in the next 10Ma. The much higher obliquity excursions 1973; Pewe, 1991), where the year-average surface tem-perature is below the water freezing point (e.g., Williams hundreds of meters thick (e.g., Brown, 1970). The upper meter(s)-thick layer of the ground in permafrost regions can undergo a yearly freezing and thawing cycle; this is ARTICLE IN PRESSknown as the active layer (Fig. 1) (Miller and Black, 2003). In the spring, a thawing wave propagates downwards into the permafrost and in the fall and early winter, a freezing |
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