This repository hosts an R package that is actively being developed for
estimating biodiversity and the components of its change. The key innovations of
this R package over other R packages that also carry out rarefaction (e.g.,
vegan
, iNext
) is that mobr
is focused on 1) making empirical comparisons between
treatments or gradients, and 2) our framework emphasizes how changes in
biodiversity are linked to changes in community structure: the SAD, total
abundance, and spatial aggregation.
The concepts and methods behind this R package are described in three publications.
McGlinn, D.J., S.A. Blowes, M. Dornelas, T. Engel, I.S. Martins, H. Shimadzu, N.J. Gotelli, A. Magurran, B.J. McGill, and J.M. Chase. accepted. Disentangling non-random structure from random placement when estimating β-diversity through space or time. Ecosphere. https://doi.org/10.1101/2023.09.19.558467
McGlinn, D.J. X. Xiao, F. May, N.J Gotelli, T. Engel, S.A Blowes, T.M. Knight, O. Purschke, J.M Chase, and B.J. McGill. 2019. MoB (Measurement of Biodiversity): a method to separate the scale-dependent effects of species abundance distribution, density, and aggregation on diversity change. Methods in Ecology and Evolution. 10:258–269. https://doi.org/10.1111/2041-210X.13102
McGlinn, D.J. T. Engel, S.A. Blowes, N.J. Gotelli, T.M. Knight, B.J. McGill, N. Sanders, and J.M. Chase. 2020. A multiscale framework for disentangling the roles of evenness, density, and aggregation on diversity gradients. Ecology. https://doi.org/10.1002/ecy.3233
Chase, J.M., B. McGill, D.J. McGlinn, F. May, S.A. Blowes, X. Xiao, T. Knight. 2018. Embracing scale-dependence to achieve a deeper understanding of biodiversity and its change across communities. Ecology Letters. 21: 1737–1751. https://doi.org/10.1111/ele.13151
Please cite mobr
. Run the following to get the appropriate citation for the version you're using:
citation(package = "mobr")
install.packages('mobr')
Or, install the Github version
install.packages('remotes')
Now that remotes
is installed you can install mobr
using the following R code:
remotes::install_github('MoBiodiv/mobr')
The package vignette provides a useful walk-through the package tools, but below is some example code that uses the two key analyses and related graphics.
library(mobr)
library(dplyr)
data(tank_comm)
data(tank_plot_attr)
indices <- c('N', 'S', 'S_n', 'S_C', 'S_PIE')
tank_div <- tibble(tank_comm) %>%
group_by(group = tank_plot_attr$group) %>%
group_modify(~ calc_comm_div(.x, index = indices, effort = 5,
extrapolate = TRUE))
plot(tank_div)
tank_mob_in <- make_mob_in(tank_comm, tank_plot_attr, coord_names = c('x', 'y'))
tank_deltaS <- get_delta_stats(tank_mob_in, 'group', ref_level='low',
type='discrete', log_scale=TRUE, n_perm = 5)
plot(tank_deltaS, 'b1')
- Please report any issues or bugs.
- License: MIT
- Get citation information for
mobr
in R doingcitation(package = 'mobr')
- Please note that this project is released with a Contributor Code of Conduct. By participating in this project you agree to abide by its terms.
- Gregor Seyer for providing a constructive review of our CRAN submission
- Kurt Hornik for helping us keep up with CRAN changes.