Carbon fluxes from coarse woody debris in southern taiga forests of the Valdai Upland


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Abstract

Studies in three typical forest biotopes of the Valdai Upland were performed to evaluate the stocks and surface area of coarse woody debris from spruce and birch (in linear transects), its colonization by xylotrophic fungi (during reconnaissance surveys), and CO2 emission (by a chamber method). The stock and surface area were minimum in a paludal birch forest (46.4 m3/ha and 960 m2/ha) and maximum in a decay area of spruce forest (256.1 m3/ha and 3761 m2/ha, respectively). The assemblages of wood-decay fungi had a composition typically found in southern taiga forests. The total CO2 flux varied from 145 kg C-CO2/ha per year in the paludal birch forest to 462 kg C-CO2/ha per year in small herb–green moss spruce forest. It is concluded that air temperature is an informative predictor of seasonal C-CO2 flux rate from coarse woody debris.

About the authors

M. L. Gitarskiy

Institute of Global Climate and Ecology

Author for correspondence.
Email: m.gitarskiy@gmail.com
Russian Federation, Moscow, 107258

D. G. Zamolodchikov

Center for Forest Ecology and Productivity; Moscow State University

Email: m.gitarskiy@gmail.com
Russian Federation, Moscow, 117997; Moscow, 119234

V. A. Mukhin

Institute of Plant and Animal Ecology, Ural Branch

Email: m.gitarskiy@gmail.com
Russian Federation, Yekaterinburg, 620144

V. A. Grabar

Institute of Global Climate and Ecology

Email: m.gitarskiy@gmail.com
Russian Federation, Moscow, 107258

D. K. Diyarova

Institute of Plant and Animal Ecology, Ural Branch

Email: m.gitarskiy@gmail.com
Russian Federation, Yekaterinburg, 620144

A. I. Ivashchenko

Moscow State University

Email: m.gitarskiy@gmail.com
Russian Federation, Moscow, 119234

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