S. C. Zoltai scite author profile

JSTOR is a not-for-profit service that helps scholars, researchers, and students discover, use, and build upon a wide range of content in a trusted digital archive. We use information technology and tools to increase productivity and facilitate new forms of scholarship. For more information about JSTOR, please contact support@jstor.org.. INSTAAR, University of Colorado andThe Regents of the University of Colorado, a body corporate, contracting on behalf of the University of Colorado at Boulder for the benefit of INSTAAR are collaborating with JSTOR to digitize, preserve and extend access to Arctic and Alpine Research. AbstractVegetation in thermally subsided peatlands (collapse scars) grades from the wettest part near the collapsing peat bank with Sphagnum riparium to successively drier conditions with S. angustifolium and S. fuscum until the peat plateau surface is reached, covered with Picea mariana-lichen woodlands. The same sequence can be found in the peat stratigraphy, where the charred surface of the treed peat plateaus (sylvic peat) is overlain by a sequence of Sphagnum riparium, S. angustifolium, and S. fuscum, capped by sylvic peat. Often several such sequences occur in the peat stratigraphy, indicating periodic permafrost degradation, triggered by fires, and regeneration. Radiocarbon dates show that such cycles can be as short as 600 yr. The earliest incidence of permafrost in the study area was dated at 3700 yr BP, indicating the end of the mid-Holocene warm period and the onset of the current climatic regime. / ARCTIC AND ALPINE RESEARCH

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Litter decomposition rates in Canadian forests

Moore

Trofymow

Taylor³

et al. 1999

Global Change Biology

202

138

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The effect of litter quality and climate on the rate of decomposition of plant tissues was examined by the measurement of mass remaining after 3 years’ exposure of 11 litter types placed at 18 forest sites across Canada. Amongst sites, mass remaining was strongly related to mean annual temperature and precipitation and amongst litter types the ratio of Klason lignin to nitrogen in the initial tissue was the most important litter quality variable. When combined into a multiple regression, mean annual temperature, mean annual precipitation and Klason lignin:nitrogen ratio explained 73% of the variance in mass remaining for all sites and tissues. Using three doubled CO2 GCM climate change scenarios for four Canadian regions, these relationships were used to predict increases in decomposition rate of 4–7% of contemporary rates (based on mass remaining after 3 years), because of increased temperature and precipitation. This increase may be partially offset by evidence that plants growing under elevated atmospheric CO2 concentrations produce litter with high lignin:nitrogen ratios which slows the rate of decomposition, but this change will be small compared to the increased rate of decomposition derived from climatic changes.

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Perennially Frozen Peatlands in the Western Arctic and Subarctic of Canada

Zoltai¹,

Tarnocai²

1975

Can. J. Earth Sci.

180

124

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Perennially frozen peatlands were divided into five morphological types: peat plateaus, polygonal peat plateaus, palsas, fen ridges and lowland polygons. One hundred and eight different peatlands were cored, measured and sampled. The internal structure of all but the lowland polygons suggests that the peat was deposited in wet fens unaffected by permafrost, and that permafrost developed only after a thin layer of Sphagnum covered them. The lowland polygons evolved in a permafrost environment. The study area was divided into four regions oh the basis of predominance of different peatlands forms.

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Disequilibrium response of permafrost in boreal continental western Canada to climate change

1995

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The Bog Landforms of Continental Western Canada in Relation to Climate and Permafrost Patterns

Vitt¹,

Halsey²,

Zoltai³

1994

Arctic and Alpine Research

183

116

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S. C. Zoltai

Cyclic Development of Permafrost in the Peatlands of Northwestern Alberta, Canada

Litter decomposition rates in Canadian forests

Perennially Frozen Peatlands in the Western Arctic and Subarctic of Canada

Disequilibrium response of permafrost in boreal continental western Canada to climate change

The Bog Landforms of Continental Western Canada in Relation to Climate and Permafrost Patterns

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