In wallaceEcoMod/wallace: A Modular Platform for Reproducible Modeling of Species Niches and Distributions
```{asis, echo = {{penvs_userBgExtent_knit}}, eval = {{penvs_userBgExtent_knit}}, include = {{penvs_userBgExtent_knit}}}
Process environmental data
Sampling of {{bgPtsNum_rmd}} background points and corresponding environmental data using a user provided background extent with a {{userBgBuf_rmd}} degree buffer.
```r}, include = {{penvs_userBgExtent_knit}}}
# Load the user provided shapefile or csv file with the desired extent.
##User must input the path to shapefile or csv file and the file name
# Define path
bgPath_{{spAbr}} <- ""
bgExt_{{spAbr}} <- penvs_userBgExtent(
bgShp_path = paste0(bgPath_{{spAbr}}, "{{bgShp_name_rmd}}", ".shp"),
bgShp_name = paste0("{{bgShp_name_rmd}}", c(".shp", ".shx", ".dbf")),
userBgBuf = {{userBgBuf_rmd}},
occs = occs_{{spAbr}})
# Mask environmental data to provided extent
bgMask_{{spAbr}} <- penvs_bgMask(
occs = occs_{{spAbr}},
envs = envs_{{spAbr}},
bgExt = bgExt_{{spAbr}})
# Sample background points from the provided area
bgSample_{{spAbr}} <- penvs_bgSample(
occs = occs_{{spAbr}},
bgMask = bgMask_{{spAbr}},
bgPtsNum = {{bgPtsNum_rmd}})
# Extract values of environmental layers for each background point
bgEnvsVals_{{spAbr}} <- as.data.frame(raster::extract(bgMask_{{spAbr}}, bgSample_{{spAbr}}))
##Add extracted values to background points table
bgEnvsVals_{{spAbr}} <- cbind(scientific_name = paste0("bg_", "{{spName}}"), bgSample_{{spAbr}},
occID = NA, year = NA, institution_code = NA, country = NA,
state_province = NA, locality = NA, elevation = NA,
record_type = NA, bgEnvsVals_{{spAbr}})
wallaceEcoMod/wallace documentation built on March 24, 2024, 5:15 p.m.
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```{asis, echo = {{penvs_userBgExtent_knit}}, eval = {{penvs_userBgExtent_knit}}, include = {{penvs_userBgExtent_knit}}}
Process environmental data
Sampling of {{bgPtsNum_rmd}} background points and corresponding environmental data using a user provided background extent with a {{userBgBuf_rmd}} degree buffer.
```r}, include = {{penvs_userBgExtent_knit}}} # Load the user provided shapefile or csv file with the desired extent. ##User must input the path to shapefile or csv file and the file name # Define path bgPath_{{spAbr}} <- "" bgExt_{{spAbr}} <- penvs_userBgExtent( bgShp_path = paste0(bgPath_{{spAbr}}, "{{bgShp_name_rmd}}", ".shp"), bgShp_name = paste0("{{bgShp_name_rmd}}", c(".shp", ".shx", ".dbf")), userBgBuf = {{userBgBuf_rmd}}, occs = occs_{{spAbr}}) # Mask environmental data to provided extent bgMask_{{spAbr}} <- penvs_bgMask( occs = occs_{{spAbr}}, envs = envs_{{spAbr}}, bgExt = bgExt_{{spAbr}}) # Sample background points from the provided area bgSample_{{spAbr}} <- penvs_bgSample( occs = occs_{{spAbr}}, bgMask = bgMask_{{spAbr}}, bgPtsNum = {{bgPtsNum_rmd}}) # Extract values of environmental layers for each background point bgEnvsVals_{{spAbr}} <- as.data.frame(raster::extract(bgMask_{{spAbr}}, bgSample_{{spAbr}})) ##Add extracted values to background points table bgEnvsVals_{{spAbr}} <- cbind(scientific_name = paste0("bg_", "{{spName}}"), bgSample_{{spAbr}}, occID = NA, year = NA, institution_code = NA, country = NA, state_province = NA, locality = NA, elevation = NA, record_type = NA, bgEnvsVals_{{spAbr}})
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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