Please use this identifier to cite or link to this item: https://doi.org/10.1029/2007JG000504
Title: Arctic patterned-ground ecosystems: A synthesis of field studies and models along a North American Arctic transect
Authors: Walker, D.A.
Epstein, H.E.
Romanovsky, V.E.
Ping, C.L.
Michaelson, G.J.
Daanen, R.P.
Shur, Y.
Peterson, R.A.
Krantz, W.B. 
Raynolds, M.K.
Gould, W.A.
Gonzalez, G.
Nicolsky, D.J.
Vonlanthen, C.M.
Kade, A.N.
Kuss, P.
Kelley, A.M.
Munger, C.A.
Tarnocai, C.T.
Matveyeva, N.V.
Daniëls, F.J.A.
Issue Date: 28-Sep-2008
Source: Walker, D.A., Epstein, H.E., Romanovsky, V.E., Ping, C.L., Michaelson, G.J., Daanen, R.P., Shur, Y., Peterson, R.A., Krantz, W.B., Raynolds, M.K., Gould, W.A., Gonzalez, G., Nicolsky, D.J., Vonlanthen, C.M., Kade, A.N., Kuss, P., Kelley, A.M., Munger, C.A., Tarnocai, C.T., Matveyeva, N.V., Daniëls, F.J.A. (2008-09-28). Arctic patterned-ground ecosystems: A synthesis of field studies and models along a North American Arctic transect. Journal of Geophysical Research G: Biogeosciences 113 (3) : -. ScholarBank@NUS Repository. https://doi.org/10.1029/2007JG000504
Abstract: Arctic landscapes have visually striking patterns of small polygons, circles, and hummocks. The linkages between the geophysical and biological components of these systems and their responses to climate changes are not well understood. The "Biocomplexity of Patterned Ground Ecosystems" project examined patterned-ground features (PGFs) in all five Arctic bioclimate subzones along an 1800-km trans-Arctic temperature gradient in northern Alaska and northwestern Canada. This paper provides an overview of the transect to illustrate the trends in climate, PGFs, vegetation, n-factors, soils, active-layer depth, and frost heave along the climate gradient. We emphasize the thermal effects of the vegetation and snow on the heat and water fluxes within patterned-ground systems. Four new modeling approaches build on the theme that vegetation controls microscale soil temperature differences between the centers and margins of the PGFs, and these in turn drive the movement of water, affect the formation of aggradation ice, promote differential soil heave, and regulate a host of system properties that affect the ability of plants to colonize the centers of these features. We conclude with an examination of the possible effects of a climate warming on patterned-ground ecosystems. Copyright 2008 by the American Geophysical Union.
Source Title: Journal of Geophysical Research G: Biogeosciences
URI: http://scholarbank.nus.edu.sg/handle/10635/63511
ISSN: 01480227
DOI: 10.1029/2007JG000504
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