Citation: Valente LM, Phillimore AB, Etienne RS (2015) Equilibrium and non- equilibrium dynamics simultaneously operate in the Galápagos islands. Ecology Letters, 18(8), 844-852. https://doi.org/10.1111/ele.12461.
To load the package:
library(DAISIE)
The function DAISIE_sim
allows simulation of DAISIE
models and plots the results. The user specifies the parameters to be
simulated, the number of replicates, the length of the simulation
(typically the island age), and the number of species in the mainland
pool.
When the plot_sims option is set to the default (TRUE) the function will produce a species- through-time plot showing the accumulation of total, endemic and non-endemic species through time, as well as confidence intervals for the total number of species.
<- 1000
n_mainland_species <- 4 island_age
To shorten the run-time of this vignette, reduce the number of
n_replicates
. For increased accuracy, increase this
number.
<- 10 n_replicates
set.seed(42)
<- 2.550687345 # cladogenesis rate
clado_rate <- 2.683454548 # extinction rate
ext_rate <- Inf # clade-level carrying capacity
clade_carr_cap <- 0.00933207 # immigration rate
imm_rate <- 1.010073119 # anagenesis rate
ana_rate
<- DAISIE_sim_cr(
island_replicates time = island_age,
M = n_mainland_species,
pars = c(clado_rate, ext_rate, clade_carr_cap, imm_rate, ana_rate),
replicates = n_replicates,
plot_sims = FALSE,
verbose = FALSE
)DAISIE_plot_sims(island_replicates = island_replicates)
The object island_replicates
contains the results of the
simulation in DAISIE format. 10 islands are stored in the object, and
each island replicate can be viewed separately. For example, type
island_replicates[[1]]
to view the first replicate.
The element of the list relating to each island contains a table with the number of species through time, as well as branching time information for each independent colonisation event extant at the end of the simulation.
<- 2.550687345 # cladogenesis rate
clado_rate <- 2.683454548 # extinction rate
ext_rate <- 10.0 # clade-level carrying capacity
clade_carr_cap <- 0.00933207 # immigration rate
imm_rate <- 1.010073119 # anagenesis rate
ana_rate
<- DAISIE_sim_cr(
island_replicates_K time = island_age,
M = n_mainland_species,
pars = c(clado_rate, ext_rate, clade_carr_cap, imm_rate, ana_rate),
replicates = n_replicates,
plot_sims = FALSE,
verbose = FALSE
) DAISIE_plot_sims(island_replicates_K)
<- 0.38 # cladogenesis rate
clado_rate_1 <- 0.55 # extinction rate
ext_rate_1 <- Inf # clade-level carrying capacity
clade_carr_cap_1 <- 0.04 # immigration rate
imm_rate_1 <- 1.10 # anagenesis rate
ana_rate_1
<- 0.38 # cladogenesis rate
clado_rate_2 <- ext_rate_1 # extinction rate
ext_rate_2 <- clade_carr_cap_1 # clade-level carrying capacity
clade_carr_cap_2 <- imm_rate_1 # immigration rate
imm_rate_2 <- ana_rate_1 # anagenesis rate
ana_rate_2
<- DAISIE_sim_cr(
island_replicates_2types time = island_age,
M = n_mainland_species,
pars = c(
clado_rate_1, ext_rate_1, clade_carr_cap_1, imm_rate_1, ana_rate_1,
clado_rate_2, ext_rate_2, clade_carr_cap_2, imm_rate_2, ana_rate_2
),replicates = n_replicates,
prop_type2_pool = 0.163,
plot_sims = FALSE,
verbose = FALSE
)DAISIE_plot_sims(island_replicates_2types)
This produces a figure similar to Fig. 2, with three plots: one for the total number of species, one for species of type 1 and one for species of type 2. Accessing each island replicate individually (e.g. island_replicates_2types[[15]]) shows information on branching times and species-through-time tables for total, type 1 species and type 2 species.