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. 2000 Dec;6(S1):196-210.
doi: 10.1046/j.1365-2486.2000.06021.x. Epub 2002 Jan 5.

Controls over carbon storage and turnover in high-latitude soils

Sarah E Hobbie  1 Joshua P Schimel  2 Susan E Trumbore  3 James R Randerson  4
Affiliations
Free article

Controls over carbon storage and turnover in high-latitude soils

Sarah E Hobbie et al. Glob Chang Biol. 2000 Dec.
Free article

Abstract

Despite the importance of Arctic and boreal regions in the present carbon cycle, estimates of annual high-latitude carbon fluxes vary in sign and magnitude. Without accurate estimates of current carbon fluxes from Arctic and boreal ecosystems, predicting the response of these systems to global change is daunting. A number of factors control carbon turnover in high-latitude soils, but because they are unique to northern systems, they are mostly ignored by biogeochemical models used to predict the response of these systems to global change. Here, we review those factors. First, many northern systems are dominated by mosses, whose extremely slow decomposition is not predicted by commonly used indices of litter quality. Second, cold temperature, permafrost, waterlogging, and substrate quality interact to stabilize soil organic matter, but the relative importance of these factors, and how they respond to climate change, is unknown. Third, recent evidence suggests that biological activity occurring over winter can contribute significantly to annual soil carbon fluxes. However, the controls over this winter activity remain poorly understood. Finally, processes at the landscape scale, such as fire, permafrost dynamics, and drainage, control regional carbon fluxes, complicating the extrapolation of site-level measurements to regional scales.

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References

    1. Berg, B & Ekbohm, G 1991 Litter mass-loss rates and decomposition patterns in some needle and leaf litter types. Long-term decomposition in a Scots pine forest. VII. Canadian Journal of Botany, 69, 1449-1456.
    1. Berg, B, McClaugherty, C & Johansson, M-B 1993 Litter mass-loss rates in late stages of decomposition at some climatically and nutritionally different pine sites. Long-term decomposition in a Scots pine forest. VIII. Canadian Journal of Botany, 71, 680-692.
    1. Billings, WD, Luken, JO, Mortensen, DA & Peterson, KM 1982 Arctic tundra: a source or sink for atmospheric carbon dioxide in a changing environment? Oecologia, 53, 7-11.
    1. Brooks, PD, Williams, MW & Schmidt, SK 1996 Microbial activity under alpine snowpacks, Niwot Ridge, Colorado. Biogeochemistry, 32, 93-113.
    1. Chapin, Fs III, Hobbie, SE, Bret-Harte, MS & Bonan, G 1995 Causes and consequences of plant functional diversity in arctic ecosystems. In: Arctic and Alpine Biodiversity: Patterns, Causes and Ecosystem Consequences (eds Chapin, Fs III & Körner, C), pp. 225-237. Springer, Berlin.