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Load required package DAISIE
Load the phylogenetic data for Eleutherodacylus frogs from the island of Hispaniola (used in Etienne et al. 2020). This dataset contains times of colonization and branching times for all species of Eleutherodactylus frogs found on the island. The data was extracted from the dated molecular phylogeny of Dugo-Cota et al 2019 (Ecology Letters 22:884–893). The dataset includes 65 extant species, which are the result of five independent colonisation events of the island of Hispaniola.
You can load your own data in a table/tibble format, making sure the table headers match the ones in the example.
Clade_name | Status | Missing_species | Branching_times |
---|---|---|---|
Clade1 | Endemic | 0 | 22.090381975,19.03474267,17.558899475,16.551943175,15.163574647,12.539890494,12.418166302,11.224140324,9.356313022,8.838345923,7.763917546,6.976872428,6.225535797,6.128306647,5.891490086,5.534313767,5.268246402,4.325862315,4.130254551,3.876175449,3.576820015,2.700899509,1.988973569,0.609739668,0.16651871,0.149491685,0.138726728,0.038275342 |
Clade2 | Endemic | 0 | 13.746625455,8.647464943,8.334079223,7.411910463,6.861782812,6.516839176,5.584497643,4.839004311,4.549481508,4.254369184,4.188654945,3.73901781,3.667503378,3.593658733,3.460220365,3.419754656,3.30938242,2.883634139,2.387378752,1.77824651,0.568917703 |
Clade3 | Endemic | 0 | 11.032464497,0.224004413,0.102526748 |
Clade4 | Endemic | 0 | 8.430721468,4.130831021,1.420117489,1.171228154,0.231664348,0.197599408,0.075831995,0.040222432 |
Clade5 | Endemic | 0 | 8.852578907,4.93343221,3.230048172,1.259294338,0.235900375 |
Clade_name
- Name of the clade/lineage on the island
(e.g. clade code, genus name)Status
- Endemicity status of the clade. Can be the
following Endemic
; Non_endemic
;
Endemic_MaxAge
, Non_Endemic_MaxAge
The latter
two options are for cases when the time of colonisation is believed to
be an overestimate. In these cases, DAISIE will assume colonisation
happened any time between the colonisation time given in
Branching_times
and the present, or between the
colonisation time given in Branching_times
and the age of
the first cladogenesis event in the lineage (if any). The MaxAge options
can also be used when the colonization time is unknown, specifying “NA”
in the column Branching_times
, in which case DAISIE will
assume that colonisation happened any time between the age of the island
and the present.Missing_species
- Number of extant species that belong
to the clade but are not included in the phylogeny.Branching_times
- First element is the colonisation
time, subsequent elements are branching times within the island if there
are any. e.g. c(colonisation_time, branching_time1; branching_time2). If
colonisation time is unknown, ‘NA’ can be specified. If branching times
are unknown, do not replace them with ‘NA’ - just add the corresponding
number of missing species to the column
Missing_species
.
In this case we are assuming an island age of 30 million years for Hispaniola and a mainland pool size of 300 species (this is the number of species that may colonize the island).
Just type:
The DAISIE datalist includes the data from the table
frogs
in the format of a DAISIE object that can be read in
the subsequent maximum likelihood functions (e.g DAISIE_ML
,
DAISIE_ML_IW
). It includes the age of the island, the
number of mainland species that are not currently present on the island
and a list with all extant independent colonisation events, including
their colonization and branching times.
This plot shows the different colonization events, their times of colonization and branching times (horizontal ticks). Dashed line shows the age of the island. n=number of species; m= number of species missing.
If you skipped step 1, first load the Hispaniola Eleutherodactylus datalist.
_
We will fit five different DAISIE models to the phylogenetic data
contained in frogs_datalist
:
Inf
.We use the DAISIE_ML
and DAISIE_ML_IW
functions to optimise the likelihood. These are the most important
settings to specify in these functions:
datalist
- The name of the DAISIE datalist (in this
case frogs_datalist
)initparsopt
- these are the initial values from the
parameters for which the likelihood will be optimised. In the examples
below we will use parameters similar to the maximum likelihood
parameters from the corresponding models in Etienne et al 2020. However,
we recommend you try a variety of initial starting parameters to ensure
the optimum is found. Note that certain combinations of initial starting
values may fail, as parameters must be feasible (e.g. a K’ value lower
than the number of species found in the data will not run). In DAISIE
the parameters have the following position:
idparsopt
- The position of the parameters to optimise
(e.g. to optimize cladogenesis and anagenesis only c(1,5).parsfix
- If parameters are being fixed, specify here
the value (e.g. if fixing K’ to Inf and fixing anagenesis to 0 -
c(Inf,0).idparsfix
- The position of the paratemers fixed
(e.g. to fix K’ and anagenesis c(3,5)).ddmodel
- Set 0 for diversity-independent models; 11
for diversity-dependent models (IW and CS) where cladogenesis and
colonisation decline linearly with diversity. There are other
options.? DAISIE_ML
The IW models (IW and IW_no_ana) use the island-wide version of DAISIE, which is computationally demanding. They require high memory and long run times. We recommend these are run on a cluster. The CS models can be run on a regular computer or laptop.
This model contains 4 parameters:
1 - cladogenesis
2 - extinction
4 - colonisation
5 - anagenesis
K’ is fixed to Inf
Set ddmodel=0
DAISIE_ML(
datalist = frogs_datalist,
initparsopt = c(0.18,0.03,0.0006,2),
idparsopt = c(1,2,4,5),
ddmodel = 0,
parsfix = Inf,
idparsfix = 3
)
#> lambda_c mu K gamma lambda_a loglik df conv
#> 1 0.1789218 0.02509053 Inf 0.0006259365 1568.88 -209.8634 4 0
This model contains 5 parameters:
1 - cladogenesis
2 - extinction
3 - K’
4 - colonisation
5 - anagenesis
Set ddmodel=11
DAISIE_ML(
datalist = frogs_datalist,
initparsopt = c(0.44,0.11,36.44,0.0007,2),
idparsopt = c(1,2,3,4,5),
ddmodel = 11,
parsfix = NULL,
idparsfix = NULL
)
Output not shown here.
This model contains 4 parameters:
1 - cladogenesis
2 - extinction
3 - K’
4 - colonisation
Set ddmodel=11
DAISIE_ML(
datalist = frogs_datalist,
initparsopt = c(0.44,0.11,36.44,0.0007),
idparsopt = c(1,2,3,4),
ddmodel = 11,
parsfix = 0,
idparsfix = 5
)
Output not shown here.
This model contains 5 parameters:
1 - cladogenesis
2 - extinction
3 - K’
4 - colonisation
5 - anagenesis
Set ddmodel=11
DAISIE_ML_IW(
datalist = frogs_datalist,
initparsopt = c(0.41, 0.17, 131.7, 0.0012, 2),
idparsopt = c(1,2,3,4,5),
ddmodel = 11,
parsfix = NULL,
idparsfix = NULL
)
Output not shown here (recommended to be run on a cluster).
This model contains 4 parameters:
1 - cladogenesis
2 - extinction
3 - K’
4 - colonisation
Set ddmodel=11
DAISIE_ML_IW(
datalist = frogs_datalist,
initparsopt = c(0.40, 0.17, 131.83, 0.0012),
idparsopt = c(1,2,3,4),
ddmodel = 11,
parsfix = 0,
idparsfix = 5
)
Output not shown here (recommended to be run on a cluster).
We use the DAISIE_sim
function, which simulates
diversity dynamics on an island from island birth until a specificied
island age, based on a given set of parameters (cladogenesis,
extinction, carrying-capacity (K’), colonisation, anagenesis). These are
the most important settings to specify in DAISIE_sim
function:
pars
- The values of the 5 parameters in the following
order
replicates
- Number of replicates to simulatetime
- Time to run the simulation, for example 20
million yearsM
- Number species in the mainland pooldivdepmodel
- set CS
for clade-specific
diversity-dependence; or IW
for island-wide
diversity-dependenceSimulate a CS model for 30 million years, 100 replicates:
set.seed(1)
frog_sims_CS <- DAISIE_sim_cr(
time=30,
M=300,
pars=c(0.44,0.11,36.44,0.0007,0),
divdepmodel = "CS",
replicates= 100,
plot_sims = FALSE)
#> Island replicate 1
#> Island replicate 2
#> Island replicate 3
#> Island replicate 4
#> Island replicate 5
#> Island replicate 6
#> Island replicate 7
#> Island replicate 8
#> Island replicate 9
#> Island replicate 10
#> Island replicate 11
#> Island replicate 12
#> Island replicate 13
#> Island replicate 14
#> Island replicate 15
#> Island replicate 16
#> Island replicate 17
#> Island replicate 18
#> Island replicate 19
#> Island replicate 20
#> Island replicate 21
#> Island replicate 22
#> Island replicate 23
#> Island replicate 24
#> Island replicate 25
#> Island replicate 26
#> Island replicate 27
#> Island replicate 28
#> Island replicate 29
#> Island replicate 30
#> Island replicate 31
#> Island replicate 32
#> Island replicate 33
#> Island replicate 34
#> Island replicate 35
#> Island replicate 36
#> Island replicate 37
#> Island replicate 38
#> Island replicate 39
#> Island replicate 40
#> Island replicate 41
#> Island replicate 42
#> Island replicate 43
#> Island replicate 44
#> Island replicate 45
#> Island replicate 46
#> Island replicate 47
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#> Island replicate 49
#> Island replicate 50
#> Island replicate 51
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#> Island replicate 53
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#> Island replicate 57
#> Island replicate 58
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Simulate an IW model for 30 million years, 100 replicates:
set.seed(1)
frog_sims_CS <- DAISIE_sim_cr(
time=30,
M=300,
pars=c(0.40,0.17,131.83,0.0012,0),
divdepmodel = "IW",
replicates= 100,
plot_sims = FALSE)
#> Island replicate 1
#> Island replicate 2
#> Island replicate 3
#> Island replicate 4
#> Island replicate 5
#> Island replicate 6
#> Island replicate 7
#> Island replicate 8
#> Island replicate 9
#> Island replicate 10
#> Island replicate 11
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These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.