8 -  Thermokarst

Beschreibung

University finals GEOG3004 (8 - thermokrast) Notiz am 8 -  Thermokarst, erstellt von samflint93 am 06/11/2013.
samflint93
Notiz von samflint93, aktualisiert more than 1 year ago
samflint93
Erstellt von samflint93 vor etwa 11 Jahre
550
0

Zusammenfassung der Ressource

Seite 1

Methane bubbling in Siberia: Ebullition accounts for 95% of methane emissions. N Siberian lakes are underlain by Yedoma - organically rich Loess deposits from late Pleistocene. Organic matter underlying thermokarst lakes in the yedoma thaws enhancing the methane production. N Siberia has seen a 58% increase of lake methane emissions aided by thaw lake expansion.

Lake orientation in Alaska: Generally perpendicular to the prevailing wind direction. the cause has remained constant over time, determined by looking at the orientation of drained lake beds.

Holocene evolution of tundra landscapes: Most active stage 8-9 kyr BP. Annual temp estimated at 2-3 degrees higher than present. Second thermokarst stage at 5-4 kyr BP Low alas's and yedomas are most unstable and therefore active in current conditions.

Shape metric summary: the only similarity between lakes and dry thaw lake beds is long axis orientation. Lakes are more common on the arctic coastal plain  and more regularly shaped. basin coverage decreases with age of surface lake and DTLB density increase inland. Lake and DTLB become more dissimilar inland.

Walter et al. 2006

Cote & Burn 2002

Veremeeva & Gubin 2009

Hinkel et al. 2005

Zusammenfassung anzeigen Zusammenfassung ausblenden

ähnlicher Inhalt

6 - Ice Wedges
samflint93
Supplementary reading L2
samflint93
11 - Frost Shattering
samflint93
9 - Arctic rivers
samflint93
French Ch. 5
samflint93
Lecture 3 extra
samflint93
13 - debris transfer
samflint93
Lecture 1 - Introduction
samflint93
Lecture 4 core
samflint93
Frost heaving/hillslope processes
samflint93
7a - additional reading
samflint93