Abstract

Canada's forests play an important role in the global carbon (C) cycle because of their large and dynamic C stocks. Detailed monitoring of C exchange between forests and the atmosphere and improved understanding of the processes that affect the net ecosystem exchange of C are needed to improve our understanding of the terrestrial C budget. We estimated the C budget of Canada's 2.3 10 6 km 2 managed forests from 1990 to 2008 using an empirical modelling approach driven by detailed forestry datasets. We estimated that average net primary production (NPP) during this period was 809 AE 5 Tg C yr 1 (352 g C m 2 yr 1 ) and net ecosystem production (NEP) was 71 AE 9 Tg C yr 1 (31 g C m 2 yr 1 ). Harvesting transferred 45 AE 4 Tg C yr 1 out of the ecosystem and 45 AE 4 Tg C yr 1 within the ecosystem (from living biomass to dead organic matter pools). Fires released 23 AE 16 Tg C yr 1 directly to the atmosphere, and fires, insects and other natural disturbances transferred 52 AE 41 Tg C yr 1 from biomass to dead organic matter pools, from where C will gradually be released through decomposition. Net biome production (NBP) was only 2 AE 20 Tg C yr 1 (1 g C m 2 yr 1 ); the low C sequestration ratio (NBP/NPP 5 0.3%) is attributed to the high average age of Canada's managed forests and the impact of natural disturbances. Although net losses of ecosystem C occurred during several years due to large fires and widespread bark beetle outbreak, Canada's managed forests were a sink for atmospheric CO 2 in all years, with an uptake of 50 AE 18 Tg C yr 1 [net ecosystem exchange (NEE) of CO 2 522 g C m 2 yr 1 ].