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Peat Accumulation in Northern Wetlands

Published online by Cambridge University Press:  20 January 2017

Lynn Ovenden*
Affiliation:
Geological Survey of Canada, 601 Booth Street, Ottawa, Ontario, Canada K1A 0E8

Abstract

Mean long-term rates of peat accumulation are higher in boreal and temperate peat deposits than in subarctic regions of Canada, although peatlands are extensive in the subarctic. Climatic change probably accounts for the development of southern peatlands during the middle to late Holocene and for the late Holocene decline in growth of many subarctic peat deposits. In northwestern peat deposits, peat of wet Sphagnum lawns and treed wetlands tended to accumulate more rapidly than peat of Sphagnum hummocks and sedge fens. Long-term net rates of carbon accumulation in Canadian peatlands typically range from 10 to 35 g C/m2/yr.

Type
Articles
Copyright
University of Washington

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References

Aaby, B. Tauber, H. Rates of peat formation in relation to degree of humification and local environment, as shown by studies of a raised bog in Denmark. Boreas 4 1975 1 17 CrossRefGoogle Scholar
Andrews, J. T. Davis, P. T. Mode, W. N. Nichols, H. Short, S. K. Relative departures in July temperatures in northern Canada for the past 6000 yr. Nature (London) 289 1981 164 167 CrossRefGoogle Scholar
Bartlein, P. J. Webb, T. III Fleri, E. Holocene climatic change in the northern Midwest: Pollen-derived estimates. Quaternary Research 22 1984 361 374 Google Scholar
Billings, W. D. Carbon balance of Alaskan tundra and taiga ecosystems: Past, present and future. Quaternary Science Reviews 6 1987 165 177 CrossRefGoogle Scholar
Billings, W. D. Luken, J. O. Mortensen, D. A. Peterson, K. M. Arctic tundra: A source or sink for atmospheric carbon dioxide in a changing environment?. Oecologia 53 1982 7 11 Google Scholar
Blake, W. Jr. Geological Survey of Canada Radiocarbon Dates, XXV 1985 Geological Survey of Canada, Paper 85-7 Google Scholar
Clymo, R. S. The limits to peat bog growth. Philosophical Transactions, Royal Society of London Series B 303 1984 605 654 Google Scholar
Damman, A. W. H. Geographic patterns in peatland development in eastern North America Proceedings, Symposium on Peat and Peatlands Hyytiala, Finland September 1979 42 57 1979 Google Scholar
Davis, A. M. Ombrotrophic peatlands in Newfoundland, Canada: Their origins, development and trans-Atlantic affinities. Chemical Geology 44 1984 287 309 CrossRefGoogle Scholar
Dredge, L. A. Cowan, W. R. Quaternary geology of the southwestern Canadian Shield Fulton, R. J. Quaternary Geology of Canada and Greenland. Geological Survey of Canada, Geology of Canada, No. 1 1989 (Also, Geological Society of America, The Geology of North America, volume K-1.) Google Scholar
Futyma, R. P. Miller, N. G. Stratigraphy and genesis of the Lake Sixteen peatland. Canadian Journal of Botany 64 1986 3008 3019 Google Scholar
Fyles, J. G. Heginbottom, J. A. Rampton, V. N. Quaternary Geology and Geomorphology, Mackenzie Delta to Hudson Bay XXIV International Geological Congress Montreal, 1972 1972 Excursion A-30 Google Scholar
Geurts, M.-A. Le paysage végétal Holocène dans la région d'Escape Rapids, Territoires du Nord-Ouest. Géographie physique et Quaternaire 39 1985 215 220 CrossRefGoogle Scholar
Glaser, P. H. Wheeler, G. A. Gorham, E. Wright, H. E. The patterned mires of the Red Lake Peatland, northern Minnesota: Vegetation, water chemistry and landforms. Journal of Ecology 69 1981 575 599 Google Scholar
Griffin, K. O. Paleoecological aspects of the Red Lake Peatland, northern Minnesota. Canadian Journal of Botany 55 1977 172 192 Google Scholar
Heinselman, M. L. Forest sites, bog processes, and peatland types in the Glacial Lake Agassiz region, Minnesota. Ecological Monographs 33 1963 327 374 CrossRefGoogle Scholar
Kay, P. A. Multivariate statistical estimates of Holocene vegetation and climate change, foresttundra transition zone, N.W.T., Canada. Quaternary Research 11 1979 125 140 CrossRefGoogle Scholar
Kershaw, G. P. Gill, D. Growth and decay of palsas and peat plateaus in the MacMillan Pass—Tsichu River area, Northwest Territories, Canada. Canadian Journal of Earth Sciences 16 1979 1362 1374 CrossRefGoogle Scholar
Laprise, D. Payette, S. Évolution récente d'une tourbière a palses (Québec subarctique): Analyse cartographique et dendrochronologique. Canadian Journal of Botany 66 1988 2217 2227 Google Scholar
MacDonald, G. M. Holocene vegetation history of the upper Natla River area, Northwest Territories, Canada. Arctic and Alpine Research 15 1983 169 180 Google Scholar
Mackay, J. R. Dating the Horton River break-through, District of Mackenzie Current Research. Geological Survey of Canada, Paper 81-1B 1981 129 132 Part B Google Scholar
Mackay, J. R. Terasmae, J. Pollen diagrams in the Mackenzie Delta area, N.W.T.. Arctic 16 1963 228 238 CrossRefGoogle Scholar
Marland, G. Fossil Fuels CO2 Emissions 1989 United States Dept. of Energy, Oak Ridge National Laboratory 1 3 CDIAC Communications, Winter 1989 Google Scholar
Miller, N. G. Futyma, R. P. Paleohydrological implications of Holocene peatland development in northern Michigan. Quaternary Research 27 1987 297 311 Google Scholar
National Wetlands Working Group Wetland regions of Canada Canada's Wetlands. Map Folio, Energy 1986 Mines and Resources Canada and Environment Canada Ottawa Google Scholar
National Wetlands Working Group Wetlands of Canada. Ecological Land Classification Series, No. 24 1988 Sustainable Development Branch, Environment Canada Ottawa 452 and Polyscience Publications Inc., Montreal, Quebec. Google Scholar
Nichols, H. The post-glacial history of vegetation and climate at Ennadai Lake, Keewatin, and Lynn Lake, Manitoba, Canada. Eiszeitalter und Gegenwart 18 1967 176 197 Google Scholar
Nichols, H. Summary of the palynological evidence for late-Quaternary vegetation and climatic change in the central and eastern Canadian arctic Vasari, Y. Hyvarinen, H. Hicks, S. Climatic Changes in Arctic Areas during the Last Ten-Thousand Years. Acta Universitatis Ouluensis, Series A 1972 309 339 Scientiae Rerum Naturalium No. 3, Geologica No. 1 Google Scholar
Nichols, H. Palynological and Paleoclimatic Study of the Late Quaternary Displacement of the Boreal Forest-Tundra Ecotone in Keewatin and Mackenzie, N.W.T., Canada 1975 Institute of Arctic and Alpine Research, University of Colorado Occasional Paper 15 Google Scholar
Ovenden, L. Hydroseral Histories of the Old Crow Peatlands, Northern Yukon. Ph.D. thesis 1985 University of Toronto Google Scholar
Ovenden, L. Holocene Proxy-Climate Data from the Canadian Arctic 1988 Geological Survey of Canada, Paper 88-22 CrossRefGoogle Scholar
Payette, S. Peat inception and climatic change in northern Quebec Morner, N.-A. Karlen, W. Climatic Changes on a Yearly to Millennial Basis 1984 D. Reidel Dordrecht, The Netherlands 173 179 Google Scholar
Reader, R. J. Stewart, J. M. The relationship between net primary production and accumulation for a peatland in southeastern Manitoba. Ecology 53 1972 1024 1037 Google Scholar
Ritchie, J. C. The late-Quaternary vegetational history of the western interior of Canada. Canadian Journal of Botany 54 1976 1793 1818 Google Scholar
Ritchie, J. C. Past and Present Vegetation of the Far Northwest of Canada 1984 University of Toronto Press Toronto Google Scholar
Schell, D. M. Ziemann, P. J. Accumulation of peat carbon in the Alaska arctic coastal plain and its role in biological productivity Permafrost, Fourth International Conference 1983 National Academy Press Washington, DC 1105 1110 Google Scholar
Tarnocai, C. Genesis of organic soils in Manitoba and the Northwest Territories Mahaney, W. C. Quaternary Soils 1978 453 470 Google Scholar
Tarnocai, C. Peat Resources of Canada 1984 National Research Council of Canada, Peat Energy Program 17 NRCC No. 24140 Google Scholar
Tarnocai, C. Wetlands in Canada: Distribution and characteristics Schiff, H. I. Barrie, L. A. Global Change, Canadian Wetlands Study, Workshop Report and Research Plan 1988 Canadian Institute for Research in Atmospheric Chemistry, York University North York 21 25 Google Scholar
Thie, J. Distribution and thawing of permafrost in the southern part of the discontinuous permafrost zone in Manitoba. Arctic 27 1974 189 200 CrossRefGoogle Scholar
Tolonen, K. Peat as a renewable resource: Long-term accumulation rates in north European mires Classification of Peat and Peatlands 1979 International Peat Society Helsinki 282 296 Google Scholar
Tolonen, K. Natural history of raised bogs and forest vegetation in the Lammi area, southern Finland, studied by stratigraphical methods. Geologica-Geographica 144 1987 46 Annales Academiae Scientiarum Fennicae, Series A, III Google Scholar
Winkler, M. G. Effect of climate on development of two Sphagnum bogs in south-central Wisconsin. Ecology 69 1988 1032 1043 Google Scholar
Zoltai, S. C. Johnson, J. D. Development of a treed bog island in a minerotrophic fen. Canadian Journal of Botany 63 1985 1076 1085 Google Scholar
Zoltai, S. C. Tarnocai, C. Mills, G. F. Veldhuis, H. Wetlands of subarctic Canada Wetlands of Canada 1988 Environment Canada Ottawa 55 96 National Wetlands Working Group Google Scholar