This functions allows to efficiently calculate emission statistics for areas of interest. For each year in the analysis timeframe, the forest losses from Hansen et al. (2013) are overlayed with the respective emission layer from Harris et al. (2021) and area-wise emission statistics are calculated for each year.
Value
A function that returns an indicator tibble with emissions as variable and emitted CO2 equivalent (in Mg) as value.
Examples
# \dontrun{
library(sf)
library(mapme.biodiversity)
outdir <- file.path(tempdir(), "mapme-data")
dir.create(outdir, showWarnings = FALSE)
mapme_options(
outdir = outdir,
verbose = FALSE
)
aoi <- system.file("extdata", "sierra_de_neiba_478140_2.gpkg",
package = "mapme.biodiversity"
) %>%
read_sf() %>%
get_resources(
get_gfw_treecover(version = "GFC-2023-v1.11"),
get_gfw_lossyear(version = "GFC-2023-v1.11"),
get_gfw_emissions()
) %>%
calc_indicators(
calc_treecoverloss_emissions(years = 2016:2017, min_size = 1, min_cover = 30)
) %>%
portfolio_long()
#> Resource 'gfw_treecover' is already available.
#> Resource 'gfw_lossyear' is already available.
#> Resource 'gfw_emissions' is already available.
aoi
#> Simple feature collection with 2 features and 8 fields
#> Geometry type: POLYGON
#> Dimension: XY
#> Bounding box: xmin: -71.80933 ymin: 18.57668 xmax: -71.33201 ymax: 18.69931
#> Geodetic CRS: WGS 84
#> # A tibble: 2 × 9
#> WDPAID ISO3 assetid indicator datetime variable unit value
#> <dbl> <chr> <int> <chr> <dttm> <chr> <chr> <dbl>
#> 1 478140 DOM 1 treecoverloss_e… 2016-01-01 00:00:00 emissio… Mg 4296.
#> 2 478140 DOM 1 treecoverloss_e… 2017-01-01 00:00:00 emissio… Mg 4970.
#> # ℹ 1 more variable: geom <POLYGON [°]>
# }