dissimilarity: Compute dissimilarity metrics (beta-diversity) between sites...
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View source: R/dissimilarity.R
dissimilarity R Documentation
Compute dissimilarity metrics (beta-diversity) between sites based on
species composition
Description
This function generates a data.frame where each row provides one or
several dissimilarity metrics between pairs of sites, based on a
co-occurrence matrix with sites as rows and species as columns.
Usage
dissimilarity(comat, metric = "Simpson", formula = NULL, method = "prodmat")
Arguments
comat
A co-occurrence matrix with sites as rows and species as
columns.
metric
A character vector or a single character string specifying
the metrics to compute (see Details). Available options are "abc", "ABC",
"Jaccard", "Jaccardturn", "Sorensen", "Simpson", "Bray",
"Brayturn", and "Euclidean". If "all" is specified, all metrics will
be calculated. Can be set to NULL if formula is used.
formula
A character vector or a single character string specifying
custom formula(s) based on the a, b, c, A, B, and C quantities
(see Details). The default is NULL.
method
A character string specifying the method to compute abc
(see Details). The default is "prodmat", which is more efficient but
memory-intensive. Alternatively, "loops" is less memory-intensive but
slower.
Details
With a the number of species shared by a pair of sites, b species only
present in the first site and c species only present in the second site.
Jaccard = (b + c) / (a + b + c)
Jaccardturn = 2min(b, c) / (a + 2min(b, c)) (Baselga, 2012)
Sorensen = (b + c) / (2a + b + c)
Simpson = min(b, c) / (a + min(b, c))
If abundances data are available, Bray-Curtis and its turnover component
can also be computed with the following equation:
Bray = (B + C) / (2A + B + C)
Brayturn = min(B, C)/(A + min(B, C)) (Baselga, 2013)
with A the sum of the lesser values for common species shared by a pair of
sites. B and C are the total number of specimens counted at both sites
minus A.
formula can be used to compute customized metrics with the terms
a, b, c, A, B, and C. For example
formula = c("pmin(b,c) / (a + pmin(b,c))", "(B + C) / (2*A + B + C)")
will compute the Simpson and Bray-Curtis dissimilarity metrics, respectively.
Note that pmin is used in the Simpson formula because a, b, c, A,
B and C are numeric vectors.
Euclidean computes the Euclidean distance between each pair of sites.
Value
A data.frame with the additional class
bioregion.pairwise.metric, containing one or several dissimilarity
metrics between pairs of sites. The first two columns represent the pairs of
sites. There is one column per similarity metric provided in metric and
formula, except for the abc and ABC metrics, which are stored in three
separate columns (one for each letter).
Author(s)
Maxime Lenormand (maxime.lenormand@inrae.fr)
Pierre Denelle (pierre.denelle@gmail.com)
Boris Leroy (leroy.boris@gmail.com)
References
Baselga, A. (2012) The Relationship between Species Replacement,
Dissimilarity Derived from Nestedness, and Nestedness.
Global Ecology and Biogeography, 21(12), 1223–1232.
Baselga, A. (2013) Separating the two components of abundance-based
dissimilarity: balanced changes in abundance vs. abundance gradients.
Methods in Ecology and Evolution, 4(6), 552–557.
See Also
For more details illustrated with a practical example,
see the vignette:
https://biorgeo.github.io/bioregion/articles/a3_pairwise_metrics.html.
Associated functions:
similarity dissimilarity_to_similarity
Examples
comat <- matrix(sample(0:1000, size = 50, replace = TRUE,
prob = 1 / 1:1001), 5, 10)
rownames(comat) <- paste0("Site", 1:5)
colnames(comat) <- paste0("Species", 1:10)
dissim <- dissimilarity(comat,
metric = c("abc", "ABC", "Simpson", "Brayturn"))
dissim <- dissimilarity(comat, metric = "all",
formula = "1 - (b + c) / (a + b + c)")
bioregion documentation built on April 12, 2025, 9:13 a.m.
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View source: R/dissimilarity.R
| dissimilarity | R Documentation |
Compute dissimilarity metrics (beta-diversity) between sites based on species composition
Description
This function generates a data.frame where each row provides one or
several dissimilarity metrics between pairs of sites, based on a
co-occurrence matrix with sites as rows and species as columns.
Usage
dissimilarity(comat, metric = "Simpson", formula = NULL, method = "prodmat")
Arguments
comat |
A co-occurrence |
metric |
A |
formula |
A |
method |
A |
Details
With a the number of species shared by a pair of sites, b species only
present in the first site and c species only present in the second site.
Jaccard = (b + c) / (a + b + c)
Jaccardturn = 2min(b, c) / (a + 2min(b, c)) (Baselga, 2012)
Sorensen = (b + c) / (2a + b + c)
Simpson = min(b, c) / (a + min(b, c))
If abundances data are available, Bray-Curtis and its turnover component can also be computed with the following equation:
Bray = (B + C) / (2A + B + C)
Brayturn = min(B, C)/(A + min(B, C)) (Baselga, 2013)
with A the sum of the lesser values for common species shared by a pair of
sites. B and C are the total number of specimens counted at both sites
minus A.
formula can be used to compute customized metrics with the terms
a, b, c, A, B, and C. For example
formula = c("pmin(b,c) / (a + pmin(b,c))", "(B + C) / (2*A + B + C)")
will compute the Simpson and Bray-Curtis dissimilarity metrics, respectively.
Note that pmin is used in the Simpson formula because a, b, c, A,
B and C are numeric vectors.
Euclidean computes the Euclidean distance between each pair of sites.
Value
A data.frame with the additional class
bioregion.pairwise.metric, containing one or several dissimilarity
metrics between pairs of sites. The first two columns represent the pairs of
sites. There is one column per similarity metric provided in metric and
formula, except for the abc and ABC metrics, which are stored in three
separate columns (one for each letter).
Author(s)
Maxime Lenormand (maxime.lenormand@inrae.fr)
Pierre Denelle (pierre.denelle@gmail.com)
Boris Leroy (leroy.boris@gmail.com)
References
Baselga, A. (2012) The Relationship between Species Replacement, Dissimilarity Derived from Nestedness, and Nestedness. Global Ecology and Biogeography, 21(12), 1223–1232.
Baselga, A. (2013) Separating the two components of abundance-based dissimilarity: balanced changes in abundance vs. abundance gradients. Methods in Ecology and Evolution, 4(6), 552–557.
See Also
For more details illustrated with a practical example, see the vignette: https://biorgeo.github.io/bioregion/articles/a3_pairwise_metrics.html.
Associated functions: similarity dissimilarity_to_similarity
Examples
comat <- matrix(sample(0:1000, size = 50, replace = TRUE,
prob = 1 / 1:1001), 5, 10)
rownames(comat) <- paste0("Site", 1:5)
colnames(comat) <- paste0("Species", 1:10)
dissim <- dissimilarity(comat,
metric = c("abc", "ABC", "Simpson", "Brayturn"))
dissim <- dissimilarity(comat, metric = "all",
formula = "1 - (b + c) / (a + b + c)")
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