fitgom: Fits Grade of membership models for biogeographic...
In phyloregion: Biogeographic Regionalization and Macroecology
fitgom R Documentation
Fits Grade of membership models for biogeographic regionalization
Description
Generates grade of membership, “admixture”, “topic”
or “Latent Dirichlet Allocation” models, by representing sampling units
as partial memberships in multiple groups. It can group regions
based on phylogenetic information or functional traits.
Usage
fitgom(
x,
trait = NULL,
cut = NULL,
phy = NULL,
bin = 10,
na.rm = FALSE,
K,
shape = NULL,
initopics = NULL,
tol = 0.1,
bf = TRUE,
kill = 2,
ord = TRUE,
verb = 1,
...
)
Arguments
x
A community data in long format with one column representing
sites labeled “grids” and another column representing species
labeled “species”.
trait
A data frame or matrix object with the first column
labeled “species” containing the taxonomic groups to be
evaluated whereas the remaining columns have the various functional
traits. The variables must be a mix of numeric and categorical values.
cut
The slice time for the phylogenetic tree.
phy
is a dated phylogenetic tree with branch lengths stored
as a phylo object (as in the ape package).
bin
The desired number of clusters or bins.
na.rm
Logical, whether NA values should be removed or not.
K
The number of latent topics. If length(K)>1,
topics will find the Bayes factor (vs a null single topic model)
for each element and return parameter estimates for the highest
probability K.
shape
Optional argument to specify the Dirichlet prior
concentration parameter as shape for topic-phrase probabilities.
Defaults to 1/(K*ncol(counts)). For fixed single K, this can also
be a ncol(counts) by K matrix of unique shapes for each topic element.
initopics
Optional start-location for
[\theta_1, \ldots, \theta_K], the
topic-phrase probabilities. Dimensions must accord with the smallest
element of K. If NULL, the initial estimates are built by incrementally
adding topics.
tol
An indicator for whether or not to calculate the Bayes factor
for univariate K. If length(K)>1, this is ignored and Bayes factors are
always calculated.
bf
An indicator for whether or not to calculate the Bayes factor
for univariate K. If length(K)>1, this is ignored and Bayes factors are
always calculated.
kill
For choosing from multiple K numbers of topics (evaluated
in increasing order), the search will stop after kill consecutive drops
in the corresponding Bayes factor. Specify kill=0 if you want Bayes factors
for all elements of K.
ord
If TRUE, the returned topics (columns of theta) will
be ordered by decreasing usage (i.e., by decreasing colSums(omega)).
verb
A switch for controlling printed output. verb > 0 will
print something, with the level of detail increasing with verb.
...
Further arguments passed to or from other methods.
Details
Mapping phylogenetic regions (phyloregions) involves successively slicing
the phylogenetic tree at various time depths (e.g., from 1, 2, 3, 4, to 5
million years ago (Ma)), collapsing nodes and ranges that originated at
each time depth, and generating a new community matrix based on the presence
or absence of each lineage in a grid cell. A grade of membership model is
then fitted to the reduced community matrix. To map functional trait regions
(traitregions), the function uses k-means to cluster species based on their
functional traits, often for mixed-type data including categorical and
numeric functional traits. The ranges for each species in each resulting
cluster are collapsed to generate a new community matrix based on the
presence or absence of cluster representative in a grid cell. A grade of
membership model is then fitted to the new reduced community matrix. Mapping
bioregions for taxonomic diversity is based on fitting a grade of
membership model directly to the original community matrix that is often
represented with species in the columns and sites as rows.
Value
An topics object list with entries
-
K The number of latent topics estimated. If input
length(K)>1, on output this is a single value corresponding to
the model with the highest Bayes factor.
-
theta The ncolcounts by K matrix of estimated
topic-phrase probabilities.
-
omega The nrowcounts by K matrix of estimated
document-topic weights.
-
BF The log Bayes factor for each number of topics
in the input K, against a null single topic model.
-
D Residual dispersion: for each element of K, estimated
dispersion parameter (which should be near one for the multinomial),
degrees of freedom, and p-value for a test of whether the true dispersion
is >1.
-
X The input community matrix as a sparse matrix.
Examples
library(terra)
data(africa)
names(africa)
p <- vect(system.file("ex/sa.json", package = "phyloregion"))
m <- fitgom(x=sparse2long(africa$comm), K=3)
COLRS <- phyloregion:::hue(m$K)
plot_pie(m$omega, pol = p, col=COLRS)
phyloregion documentation built on Aug. 15, 2023, 9:07 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
| fitgom | R Documentation |
Fits Grade of membership models for biogeographic regionalization
Description
Generates grade of membership, “admixture”, “topic” or “Latent Dirichlet Allocation” models, by representing sampling units as partial memberships in multiple groups. It can group regions based on phylogenetic information or functional traits.
Usage
fitgom(
x,
trait = NULL,
cut = NULL,
phy = NULL,
bin = 10,
na.rm = FALSE,
K,
shape = NULL,
initopics = NULL,
tol = 0.1,
bf = TRUE,
kill = 2,
ord = TRUE,
verb = 1,
...
)
Arguments
x |
A community data in long format with one column representing sites labeled “grids” and another column representing species labeled “species”. |
trait |
A data frame or matrix object with the first column labeled “species” containing the taxonomic groups to be evaluated whereas the remaining columns have the various functional traits. The variables must be a mix of numeric and categorical values. |
cut |
The slice time for the phylogenetic tree. |
phy |
is a dated phylogenetic tree with branch lengths stored as a phylo object (as in the ape package). |
bin |
The desired number of clusters or bins. |
na.rm |
Logical, whether NA values should be removed or not. |
K |
The number of latent topics. If length(K)>1, topics will find the Bayes factor (vs a null single topic model) for each element and return parameter estimates for the highest probability K. |
shape |
Optional argument to specify the Dirichlet prior concentration parameter as shape for topic-phrase probabilities. Defaults to 1/(K*ncol(counts)). For fixed single K, this can also be a ncol(counts) by K matrix of unique shapes for each topic element. |
initopics |
Optional start-location for
|
tol |
An indicator for whether or not to calculate the Bayes factor for univariate K. If length(K)>1, this is ignored and Bayes factors are always calculated. |
bf |
An indicator for whether or not to calculate the Bayes factor for univariate K. If length(K)>1, this is ignored and Bayes factors are always calculated. |
kill |
For choosing from multiple K numbers of topics (evaluated in increasing order), the search will stop after kill consecutive drops in the corresponding Bayes factor. Specify kill=0 if you want Bayes factors for all elements of K. |
ord |
If |
verb |
A switch for controlling printed output. verb > 0 will print something, with the level of detail increasing with verb. |
... |
Further arguments passed to or from other methods. |
Details
Mapping phylogenetic regions (phyloregions) involves successively slicing the phylogenetic tree at various time depths (e.g., from 1, 2, 3, 4, to 5 million years ago (Ma)), collapsing nodes and ranges that originated at each time depth, and generating a new community matrix based on the presence or absence of each lineage in a grid cell. A grade of membership model is then fitted to the reduced community matrix. To map functional trait regions (traitregions), the function uses k-means to cluster species based on their functional traits, often for mixed-type data including categorical and numeric functional traits. The ranges for each species in each resulting cluster are collapsed to generate a new community matrix based on the presence or absence of cluster representative in a grid cell. A grade of membership model is then fitted to the new reduced community matrix. Mapping bioregions for taxonomic diversity is based on fitting a grade of membership model directly to the original community matrix that is often represented with species in the columns and sites as rows.
Value
An topics object list with entries
-
KThe number of latent topics estimated. If inputlength(K)>1, on output this is a single value corresponding to the model with the highest Bayes factor. -
thetaThe ncolcounts by K matrix of estimated topic-phrase probabilities. -
omegaThe nrowcounts by K matrix of estimated document-topic weights. -
BFThe log Bayes factor for each number of topics in the input K, against a null single topic model. -
DResidual dispersion: for each element of K, estimated dispersion parameter (which should be near one for the multinomial), degrees of freedom, and p-value for a test of whether the true dispersion is >1. -
XThe input community matrix as a sparse matrix.
Examples
library(terra)
data(africa)
names(africa)
p <- vect(system.file("ex/sa.json", package = "phyloregion"))
m <- fitgom(x=sparse2long(africa$comm), K=3)
COLRS <- phyloregion:::hue(m$K)
plot_pie(m$omega, pol = p, col=COLRS)
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.