cladogeneticTraitCont: Simulate Cladogenetic Trait Evolution
In dwbapst/paleotree: Paleontological and Phylogenetic Analyses of Evolution
View source: R/cladogeneticTraitCont.R
cladogeneticTraitCont R Documentation
Simulate Cladogenetic Trait Evolution
Description
This function simulates trait evolution at each speciation/branching event
in a matrix output from simFossilRecord, after transformation with
fossilRecord2fossilTaxa.
Usage
cladogeneticTraitCont(taxa, rate = 1, meanChange = 0, rootTrait = 0)
Arguments
taxa
A five-column matrix of taxonomic data, as output by
fossilRecord2fossilTaxa after simulation with simFossilRecord
(or via the deprecated function simFossilTaxa)
rate
rate of trait change; variance of evolutionary change
distribution per speciation event
meanChange
Mean change per speciation event. Default is 0; change to
simulate 'active' speciational trends, where the expected change at each
speciational event is non-zero.
rootTrait
The trait value of the first taxon in the dataset; set to 0
by default.
Details
This function simulates continuous trait evolution where change occurs under
a Brownian model, but only at events that create new distinct morphotaxa
(i.e. species as recognized in the fossil record), either branching events
or anagenesis (pseudospeciation). These are the types of morphological
differentiation which can be simulated in the function simFossilRecord. This
is sometimes referred to as cladogenetic or speciation trait evolution and
is related to Punctuated Equilibrium theory. Anagenetic shifts are not
cladogenetic events per se (no branching!), so perhaps the best way to this
of this function is it allows traits to change anytime simFossilRecord created
a new 'morphotaxon' in a simulation.
Importantly, trait changes only occur at the base of 'new' species, thus
allowing cladogenetic trait evolution to be asymmetrical at branching
points: i.e. only one branch actually changes position in trait-space, as
expected under a budding cladogenesis model. This distinction is important
as converting the taxa matrix to a phylogeny and simulating the trait
changes under a 'speciational' tree-transformation would assume that
divergence occurred on both daughter lineages at each node. (This has been
the standard approach for simulating cladogenetic trait change on trees).
Cryptic taxa generated with prop.cryptic in simFossilRecord will not differ at
all in trait values. These species will all be identical.
See this link for additional details:
https://nemagraptus.blogspot.com/2012/03/simulating-budding-cladogenetictrait.html
Value
Returns a vector of trait values for each taxon, with value names
being the taxa IDs (column 1 of the input) with a 't' pasted (as with rtree
in the ape library).
Author(s)
David W. Bapst
See Also
simFossilRecord,
This function is similar to Brownian motion simulation functions such as
rTraitCont in ape, sim.char in geiger and fastBM in
phytools.
See also unitLengthTree in this package and
speciationalTree in the package geiger. These are tree transformation
functions; together with BM simulation functions, they would be expected to
have a similar effect as this function (when cladogenesis is 'bifurcating'
and not 'budding'; see above).
Examples
set.seed(444)
record <- simFossilRecord(
p = 0.1, q = 0.1,
nruns = 1,
nTotalTaxa = c(30, 1000),
plot = TRUE)
taxa <- fossilRecord2fossilTaxa(record)
trait <- cladogeneticTraitCont(taxa)
tree <- taxa2phylo(taxa)
plotTraitgram(trait, tree,
conf.int = FALSE)
#with cryptic speciation
record <- simFossilRecord(
p = 0.1, q = 0.1,
prop.cryptic = 0.5,
nruns = 1,
nTotalTaxa = c(30, 1000),
plot = TRUE)
taxa <- fossilRecord2fossilTaxa(record)
trait <- cladogeneticTraitCont(taxa)
tree <- taxa2phylo(taxa)
plotTraitgram(trait, tree,
conf.int = FALSE)
dwbapst/paleotree documentation built on Aug. 30, 2022, 6:44 a.m.
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View source: R/cladogeneticTraitCont.R
| cladogeneticTraitCont | R Documentation |
Simulate Cladogenetic Trait Evolution
Description
This function simulates trait evolution at each speciation/branching event
in a matrix output from simFossilRecord, after transformation with
fossilRecord2fossilTaxa.
Usage
cladogeneticTraitCont(taxa, rate = 1, meanChange = 0, rootTrait = 0)
Arguments
taxa |
A five-column matrix of taxonomic data, as output by
|
rate |
rate of trait change; variance of evolutionary change distribution per speciation event |
meanChange |
Mean change per speciation event. Default is 0; change to simulate 'active' speciational trends, where the expected change at each speciational event is non-zero. |
rootTrait |
The trait value of the first taxon in the dataset; set to 0 by default. |
Details
This function simulates continuous trait evolution where change occurs under
a Brownian model, but only at events that create new distinct morphotaxa
(i.e. species as recognized in the fossil record), either branching events
or anagenesis (pseudospeciation). These are the types of morphological
differentiation which can be simulated in the function simFossilRecord. This
is sometimes referred to as cladogenetic or speciation trait evolution and
is related to Punctuated Equilibrium theory. Anagenetic shifts are not
cladogenetic events per se (no branching!), so perhaps the best way to this
of this function is it allows traits to change anytime simFossilRecord created
a new 'morphotaxon' in a simulation.
Importantly, trait changes only occur at the base of 'new' species, thus allowing cladogenetic trait evolution to be asymmetrical at branching points: i.e. only one branch actually changes position in trait-space, as expected under a budding cladogenesis model. This distinction is important as converting the taxa matrix to a phylogeny and simulating the trait changes under a 'speciational' tree-transformation would assume that divergence occurred on both daughter lineages at each node. (This has been the standard approach for simulating cladogenetic trait change on trees).
Cryptic taxa generated with prop.cryptic in simFossilRecord will not differ at
all in trait values. These species will all be identical.
See this link for additional details: https://nemagraptus.blogspot.com/2012/03/simulating-budding-cladogenetictrait.html
Value
Returns a vector of trait values for each taxon, with value names
being the taxa IDs (column 1 of the input) with a 't' pasted (as with rtree
in the ape library).
Author(s)
David W. Bapst
See Also
simFossilRecord,
This function is similar to Brownian motion simulation functions such as
rTraitCont in ape, sim.char in geiger and fastBM in
phytools.
See also unitLengthTree in this package and
speciationalTree in the package geiger. These are tree transformation
functions; together with BM simulation functions, they would be expected to
have a similar effect as this function (when cladogenesis is 'bifurcating'
and not 'budding'; see above).
Examples
set.seed(444) record <- simFossilRecord( p = 0.1, q = 0.1, nruns = 1, nTotalTaxa = c(30, 1000), plot = TRUE) taxa <- fossilRecord2fossilTaxa(record) trait <- cladogeneticTraitCont(taxa) tree <- taxa2phylo(taxa) plotTraitgram(trait, tree, conf.int = FALSE) #with cryptic speciation record <- simFossilRecord( p = 0.1, q = 0.1, prop.cryptic = 0.5, nruns = 1, nTotalTaxa = c(30, 1000), plot = TRUE) taxa <- fossilRecord2fossilTaxa(record) trait <- cladogeneticTraitCont(taxa) tree <- taxa2phylo(taxa) plotTraitgram(trait, tree, conf.int = FALSE)
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