The goal of biomasscan is to provide an easy, programmatic way of
computing biomass from a tree list. The functions of this package were
designed to mimic the functionality of Natural Resources Canada’s online
tool, available
here.
You can install the development version of biomasscan from
GitHub with:
# install.packages("devtools")
devtools::install_github("tesera/biomasscan")Biomass can be estimated for a single tree, by passing the relevant attributes. For example, for a Jack pine, 15.2 meters tall and with a diameter of 21 centimeters at breast height, we get:
library(biomasscan)
compute_biomass_single_tree(height = 15.2, diameter = 21,
species = 'Jack pine')
#> # A tibble: 4 × 3
#> Species Component biomass
#> <chr> <chr> <dbl>
#> 1 Jack pine Bark 9.29
#> 2 Jack pine Branches 14.2
#> 3 Jack pine Foliage 7.51
#> 4 Jack pine Wood 101.As we can see, we get estimates of biomass (in kilograms) for four
different components. We can turn this into a wide dataset by passing
wide = TRUE:
compute_biomass_single_tree(height = 15.2, diameter = 21,
species = 'Jack pine', wide = TRUE)
#> # A tibble: 1 × 5
#> Species Bark Branches Foliage Wood
#> <chr> <dbl> <dbl> <dbl> <dbl>
#> 1 Jack pine 9.29 14.2 7.51 101.We can also get the biomass estimates for a whole tree list:
library(tibble)
test_df <- tribble(
~spec, ~diam, ~ht,
'Jack pine', 21, 15.2,
'Trembling aspen', 32.1, 28,
'Black spruce', 31, 22.6,
'Black spruce', 21, 20.8,
'Eucaplyptus', 14, 10.2
)
test_df
#> # A tibble: 5 × 3
#> spec diam ht
#> <chr> <dbl> <dbl>
#> 1 Jack pine 21 15.2
#> 2 Trembling aspen 32.1 28
#> 3 Black spruce 31 22.6
#> 4 Black spruce 21 20.8
#> 5 Eucaplyptus 14 10.2
compute_biomass(test_df, species = 'spec', diameter = 'diam',
height = 'ht')
#> # A tibble: 5 × 8
#> spec diam ht Bark Branches Foliage Wood Total
#> <chr> <dbl> <dbl> <dbl> <dbl> <dbl> <dbl> <dbl>
#> 1 Jack pine 21 15.2 9.29 14.2 7.51 101. 132.
#> 2 Trembling aspen 32.1 28 78.1 43.9 7.36 402. 531.
#> 3 Black spruce 31 22.6 34.3 32.8 20.0 282. 369.
#> 4 Black spruce 21 20.8 16.5 10.6 8.29 132. 167.
#> 5 Eucaplyptus 14 10.2 NA NA NA NA NA- Lambert, M.-C., C.-H. Ung, and F. Raulier (2005). Canadian national biomass equations. Can. J. For. Res 35: 1996-2018.
- Ung, C.-H., Bernier, P., Guo, X.-J. (2008). Canadian national biomass equations: new parameter estimates that include British Columbia data. Can. J. For. Res 38:1123-2232.