barrks
offers
multiple ways of model customization. The parameters of a model can be
modified and individual submodels can be combined to create a new model.
Furthermore, it is possible to create phenological events (such as
onset, diapause and mortality) manually to apply a model with observed
or arbitrary data. This vignette illustrates the corresponding
procedures and compares the respective outputs with an unmodified
model.
library(barrks)
library(tidyverse)
library(terra)
# function to unify the appearance of raster plots
my_rst_plot <- function(rst) {
plot(rst, mar = c(0.2, 0.1, 2, 5),
axes = FALSE, box = TRUE, nr = 1,
cex.main = 1.9, plg = list(cex = 1.8))
}
data <- barrks_data()
# calculate phenology without modification for comparison
pheno_std <- phenology('phenips', data)
To modify parameters of individual models the new values should be
passed to model()
. In this example PHENIPS is customized by
setting the daylength threshold for the diapause submodel to 14 hours
(default are 14.5 hours). The parameters available for customization are
found on the model customization manuals which are listed at the
model()
manual.
To combine individual submodels, model_combine()
is
used. As parameters, the individual models are listed. To combine a
model with a specific submodel, pass a list with the keys
model
and submodels
. In the example PHENIPS is
combined with the diapause submodel of PHENIPS-Clim.
To compare the model outputs, the prevailing generations for all calculated models are plotted on four different dates.
# calculate phenology with a customized model
model_custom <- model('phenips', daylength_dia = 14) # `daylength_dia` is 14.5 by default
pheno_custom <- phenology(model_custom, data)
# calculate phenology with a combined model
model_combined <- model_combine('phenips',
list(model = 'phenips-clim',
submodels = 'diapause'))
pheno_combined <- phenology(model_combined, data)
# plot generations
dates <- c('2015-04-15', '2015-06-15', '2015-08-15', '2015-10-15')
get_generations_rst(pheno_std, dates) %>% my_rst_plot()
get_generations_rst(pheno_custom, dates) %>% my_rst_plot()
get_generations_rst(pheno_combined, dates) %>% my_rst_plot()
To create phenological events manually, create_onset()
,
create_diapause()
and create_mortality()
are
used. These functions return multi-layer SpatRasters that can be used as
.onset
, .diapause
or .mortality
parameter for phenology()
. For instance, this practice can
be used to implement personal observations.
As an example, PHENIPS-Clim is applied on the station data delivered
with barrks
and the onset is set to May 1st. The results
are plotted in a development diagram without sister broods to keep it
simple.
# calculate phenology without modification for comparison
pheno_std <- phenology('phenips-clim', barrks_data('stations'))
# calculate phenology with a manually created onset
onset <- create_onset(barrks_data('stations'), c(Freiburg = yday('2011-05-01')))
pheno_manual <- phenology('phenips-clim', barrks_data('stations'), .onset = onset)
# plot for comparison
plot_development_diagram(list(default = pheno_std, manual = pheno_manual),
xlim = as.Date(c('2011-03-01', '2011-12-31')),
.generations = prop_filial_generations(pheno_std),
.lty = c(2, 1),
.lwd = 4,
.legend_lty = list(lwd = 2),
.group = FALSE)