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iCAMP (version 1.5.12)

Infer Community Assembly Mechanisms by Phylogenetic-Bin-Based Null Model Analysis

Description

To implement a general framework to quantitatively infer Community Assembly Mechanisms by Phylogenetic-bin-based null model analysis, abbreviated as 'iCAMP' (Ning et al 2020) . It can quantitatively assess the relative importance of different community assembly processes, such as selection, dispersal, and drift, for both communities and each phylogenetic group ('bin'). Each bin usually consists of different taxa from a family or an order. The package also provides functions to implement some other published methods, including neutral taxa percentage (Burns et al 2016) based on neutral theory model and quantifying assembly processes based on entire-community null models ('QPEN', Stegen et al 2013) . It also includes some handy functions, particularly for big datasets, such as phylogenetic and taxonomic null model analysis at both community and bin levels, between-taxa niche difference and phylogenetic distance calculation, phylogenetic signal test within phylogenetic groups, midpoint root of big trees, etc. Version 1.3.x mainly improved the function for 'QPEN' and added function 'icamp.cate()' to summarize 'iCAMP' results for different categories of taxa (e.g. core versus rare taxa).

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install.packages('iCAMP')

Monthly Downloads

682

Version

1.5.12

License

GPL-2

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Repository

https://github.com/DaliangNing/iCAMP1

Maintainer

Daliang Ning

Last Published

June 1st, 2022

Functions in iCAMP (1.5.12)

Calculate beta net relatedness index (betaNRI) for each phylogenetic bin under multiple metacommunities

Calculate modified Roup-Crick index based on Bray-Curtis similarity for each phylogenetic bin under multiple metacommunities

Modified Raup-Crick index based on Bray-Curtis similarity under multiple metacommunities

Calculate net relatedness index (NRI) under multiple metacommunities

Calculate net relatedness index (NRI) by parallel computing.

Calculate modified Roup-Crick index based on Bray-Curtis similarity for each phylogenetic bin

Calculate beta net relatedness index (betaNRI) for each phylogenetic bin

Calculate nearest taxon index (NTI) under multiple metacommunities

Calculate nearest taxon index (NTI) with parallel computing

Modified Raup-Crick index based on Bray-Curtis similarity

beta mean nearest taxon distance (betaMNTD)

Calculate beta nearest taxon index (betaNTI) for each phylogenetic bin under multiple metacommunities

Calculate beta nearest taxon index (betaNTI) for each phylogenetic bin

Calculate beta net relatedness index with parallel computing under multiple metacommunities

Calculate beta net relatedness index with parallel computing

Beta nearest taxon index (betaNTI) from big data and under multiple metacommunities

Beta nearest taxon index (betaNTI) from big data

Infer community assembly mechanism by phylogenetic-bin-based null model analysis

Summarize iCAMP result in each bin

Calculate beta nearest taxon index (betaNTI) with parallel computing

Infer Community Assembly Mechanisms by Phylogenetic-bin-based null model analysis

A simple example dataset for test

Calculate beta nearest taxon index (betaNTI) with parallel computing under multiple metacommunities

Transform distance matrix to 3-column matrix

Cohen's d effect size

beta mean nearest taxon distance (betaMNTD) from big data

Calculate niche difference between species

Convert a list of dist (or matrixes) to a matrix

Beta mean pairwise distance (betaMPD)

change.sigindex

Change significance index option in iCAMP analysis

Find maximum value in a big matrix

Check and ensure the consistency of IDs in different objects.

Mean nearest taxon distance (MNTD)

midpoint.root.big

Midpoint root a large phylogeny

Check the consistency of the first two columns of different matrixes

Mean pairwise distance (MPD)

Example output of function icamp.big

Infer community assembly mechanism by phylogenetic-bin-based null model analysis under multiple metacommunities

Normality test for null values

Phylogenetic-bin-based null model analysis under different metacommunity settings for phylogenetic and taxonomic null models

taxa.binphy.big

Phylogenetic binning based on phylogenetic tree

Summary and comparison of QPEN results based on bootstrapping

Test within-bin phylogenetic signal

Quantifying assembly processes based on entire-community null model analysis

Quantifying assembly processes based on entire-community null model analysis under multiple metacommunities

Calculate relative importance of community assembly processes

Bootstrapping analysis of icamp results

Distance from root to tip(s) and node(s) on phylogenetic tree

Pairwise phylogenetic distance matrix from big tree

Summarize iCAMP result for different categories of taxa

Pairwise phylogenetic distance matrix from small tree

List nodes and edge lengthes from root to each tip and/or node

Estimation of neutral taxa percentae and dispersal rate