3. Carbon stock in forest ecosystem

3. Carbon stock in forest ecosystems
Forest vegetation and soils contain about 1240 Pg of C (Dixon et al., 1994), and the C stock varies widely among latitudes. Of the total terrestrial C stock in forest biomes, 37% is in low latitude forests, 14% in mid- latitudes and 49% in high latitudes. The above-ground plant C density increases with decreasing latitude from tundra to tropical rainforest (Fisher, 1995). Typical plant C density ranges from 40 to 60 Mg C/ha in boreal forests, 60 to 130 Mg C/ha in temperate forests and 120 to 194 Mg C/ha in tropical forests (Table 3), with the C density of an undisturbed TRF as high as 250 Mg C/ha. Nonetheless, as much as two-thirds of the terrestrial C in forest ecosystems is contained in soils (Dixon et al., 1994). The soil C stock may comprise as much as 85% of the terrestrial C stock in the boreal forest, 60% in temperate forests and 50% in TRF (Dixon et al., 1994). The ratio of soil:plant C stock may range from 3 to 17 for high latitude, 1.2 to 3 for mid-latitude and 0.9 to 1.2 for low latitude (Table 4). A large part of the total soil organic carbon stock occurs in soils of tundra, pre-tundra and taiga regions. Ping et al. (1997) reported that density of SOC in selected pedons of Alaska ranged from 162 to 1292 Mg C/ha. The SOC stock was 692 Mg C/ha in an arctic coastal marsh pedon, 314–599 Mg C/ha in an arctic tundra pedon, and nearly 1300 Mg C/ha in an organic soil. Boreal forests also have been documen- ted to contain large quantities of soil C (Bonan and Van Cleve, 1992; Rapalee et al., 1998). In the boreal forest ecosystem of West Alberta, Canada, Banfield et al. (2002) reported that the regional average above- ground C stock ranged from 43 to 50 Mg C/ha compared with SOC stock of 83–156 Mg C/ha. Kolchugina and Vinson (1993) estimated that soils of the forest biome of the former Soviet Union (FSU) contained 319 Pg C. They calculated that C stock in the phytomass of the FSU forest biome was 128 Pg, and together the terrestrial C stock (phytomass plus soil) accounted for 16% of the terrestrial C stock of the world. Stolbovoi and Stocks (2002) estimated that soils of Russia contain 373 Pg of SOC and 75 Pg of soil inorganic carbon (SIC) in the 20 cm layer. In addition to differences in the total amount, soils of the northern latitudes (arctic and boreal biomes) may also contain a large proportion of labile C (10–40%) that
could be easily decomposed (Neff and Hooper, 2002). In contrast to high latitudes, soils of TRF are characterized by a low SOC density. For example, tropical soils of Costa Rica contain only 50– 140 Mg C/ha (Powers and Schlesinger, 2002) (Table 5).
The SOC concentration in forest soils may range from 0% in very young soils to as much as 50% (w/w) in some organic or wetland soils (Trettin and Jurgensen, 2003), with most soils containing between 0.3 and 11.5% in the surface 20 cm of mine- ral soil (Perry, 1994). Similar to SOC density, SOC con- centration in mineral soils is lower in tropical forests and higher in montane and boreal forests (Jones, 1989). Whereas deforestation of TRF emits 1.6–1.7 Pg