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Appendices
Appendix 1. Literature sources of raw density and carbon
concentration data.
Appendix 2. CWD Absolute density and its uncertainty for each decay
class by species present in the U.S. FIA system.
Appendix 3. CWD relative density and its uncertainty for each decay class by species present in the U.S. FIA system.
Appendix 4. FWD absolute and relative density and their uncertainty for each size class by species present in the U.S. FIA system.
Appendix 5. Specific examples of estimates of the mean and uncertainty
for various levels in the calculation hierarchy.
Appendix 6. Specific examples of estimates of the mean and uncertainty
for various levels in the calculation hierarchy.
Tables
Table 1. Biomass to carbon conversion factors for
CWD based on percent carbon of samples.
Table 2. Biomass to carbon conversion factors for FWD based
on percent carbon of samples.
Figures
Figure
1. Density
of all species sampled by decay class. Each
point represents the mean of a species that has been sampled for
each decay class (CWD).
Figure 2. Density
of hardwood versus softwood by decay class. The mean as well as the
minimum and maximum for each class are displayed (CWD).
Figure 3. Relative
density of all species by decay class. Each point represents
a species that has been sampled for each decay class. The relative
density
is the observed density divided by the initial or green density
(CWD).
Figure 4. Relative
density of hardwood versus softwood by decay class. The mean as well
as the minimum and maximum for each class are displayed (CWD).
Figure 5. Mean relative density for common temperate genera (CWD).
Figure 6. Examples
of the mean, minimum, and maximum relative density for genera that
have been well sampled. The number
of species and total number of samples for each decay class are noted.
A-Abies; B-Picea; C-Pinus; D-Quercus (CWD)
Figure 7. Relative density
reduction patterns. The
mean, minimum, and maximum relative density are presented for each
pattern. A- steady decline (S); B- lag followed by steady decline (LS);
C- super lag followed by steady decline (SLS); D- asymptotic (A); E-
mid-plateau in density (MP); F-minimum and maximum of relative density.
(CWD)
Figure 7a. Mean
relative density for a steady (S) reduction pattern (CWD).
Figure 7b. Mean
relative density for a lag-steady (LS) reduction pattern (CWD).
Figure 7c. Mean
relative density for a super-lag-steady (SLS) reduction pattern (CWD).
Figure 7d. Mean
relative density for a asymptotic (A) reduction pattern (CWD).
Figure 7e. Mean
relative density for a mid-plateau (MP) reduction pattern (CWD).
Figure 8. Distribution of density of undecayed pieces of FWD for three size classes.
Figure 9. Observed ratios of green or undecayed bole to branch density for three size classes.
Figure 10. Density of decayed FWD pieces for three size classes.
Figure 11. Relative density of decayed FWD for three size classes.
Figure 12. Uncertainty
in CWD mass estimates using various relative reduction density patterns. The differences in two
common density reduction patterns relative to that of Douglas-fir in
estimated biomass assuming various volume distributions (uniform, peaked,
negative exponential, and observed).
Figure 13. Uncertainty
in CWD mass estimates based on the ranges expected for a well studied
species, a well studied genus,
and all the species sampled. The volume distributions included uniform,
peaked, negative exponential, and observed.
Figure 14. Possible
changes in FWD relative density caused by pulses of undecayed FWD
of various sizes
relative to background levels. In this case the pulse of FWD was assumed
to disappear at a rate 10% year to a relative density of 0.2. The averaged
relative density for FWD from regular mortality processes was assumed
to be 0.8.
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