Fig 1.
Distribution of aboveground biomass in virtually intact forests, by forest type.
Source: Authors’ elaboration based on aboveground biomass measured by Baccini et al [15]. The outer bars show the 95% range of the biomass data while the box with the line in the middle show the 25th, 50th, and 75th percentiles of the biomass data. The number in parenthesis after the forest type name indicates how many nearly intact pixels were used to calculate the biomass percentiles.
Fig 2.
Map of Soil Organic Carbon density in Bolivia.
Source: Authors’ elaboration based on data from the Harmonized World Soil Database, FAO et al. [16]
Fig 3.
Above ground carbon regeneration curves, by forest type.
Source: Authors’ elaboration based on parameters listed in Table E of the S5 Supporting Information file.
Table 1.
Central estimates of net CO2 emissions from land use change in Bolivia, 1990–2000 and 2000–2010.
Fig 4.
Annual net CO2 emissions from land use change, 1990–2000 (tCO2/km2/year).
Source: Authors’ elaboration.
Fig 5.
Annual net CO2 emissions from land use change, 2000–2010 (tCO2/km2/year).
Source: Authors’ elaboration.
Table 2.
Average annual net CO2 emissions from land use change, by department.
Table 3.
Average annual net CO2 emissions from land use change, per capita and per unit of GDP, by department.
Fig 6.
Average per capita CO2 emissions from land use change, 1990–2000, by municipality.
Source: Authors’ elaboration.
Fig 7.
Average per capita CO2 emissions from land use change, 2000–2010, by municipality.
Source: Authors’ elaboration.
Table 4.
Sensitivity analysis of CO2 emissions from land use change in Bolivia, 2000–2010.
Table 5.
Sensitivity analysis of CO2 emissions from lands that did not change use, 2000–2010.
Table 6.
"Tier 1" estimates of CO2 emissions from land use change in Bolivia, 1990–2000 and 2000–2010.