inst/shiny/modules/model_bioclim.md
In wallaceEcoMod/wallace: A Modular Platform for Reproducible Modeling of Species Niches and Distributions
Module: BIOCLIM
BACKGROUND
BIOCLIM is one of the simplest techniques for estimating a species' niche and distribution. It characterizes the species' observed environments (upper and lower limits of the training localities) for each axis independently, thereby delimiting its environmental envelope (or n-dimensional hypervolume of Hutchinson; Booth et al. 2014). To do so and indicate conditions that are successively more commonly inhabited (inferred higher suitability), BIOCLIM generates a percentile distribution for each environmental predictor variable, considering the values associated with all occurrence localities. It then evaluates the ranking of environmental values for occurrence localities and other grid cells in the study region based on where they fall on these distributions (Hijmans and Graham 2006). The closer to the median percentile value, the more suitable an environmental value is considered, with both tails of the distribution interpreted identically. The minimum percentile score (full range of observed conditions) for any predictor variable is displayed on the map in Module: Map Prediction in Component: Visualize Model Results (see below).
IMPLEMENTATION
This model uses the R package dismo to build BIOCLIM models, and evaluates them with custom code modified from the R package ENMeval (Muscarella et al. 2014).
Wallace offers the BIOCLIM implementation available in dismo. BIOCLIM models are built and evaluated using the partitions assigned in Component Partition Occurrence Data. The rows in the results table correspond to evaluation statistics calculated, and the "Bin" columns refer to the different partitions. Users can download a .csv file of the evaluation statistics table. Further, the model results can be viewed graphically in Component: Visualize Model Results with Module: BIOCLIM Envelope Plots.
REFERENCES
Booth, T.H., Nix, H.A., Busby J.R., & Hutchinson, M.F. (2014). BIOCLIM: The first species distribution modelling package, its early applications and relevance to most current MaxEnt studies. Diversity and Distributions, 20(1), 1-9. DOI: 10.1111/ddi.12144
Hijmans, R. J., & Graham, C.H. (2006). The ability of climate envelope models to predict the effect of climate change on species distributions. Global Change Biology, 12(12), 2272-2281. DOI: 10.1111/j.1365-2486.2006.01256.x
Muscarella, R., Galante, P.J., Soley-Guardia, M., Boria, R.A., Kass, J.M., Uriarte, M., & Anderson, R.P. (2014). ENMeval: An R package for conducting spatially independent evaluations and estimating optimal model complexity for Maxent ecological niche models. Methods in Ecology and Evolution, 5(11), 1198-1205. DOI: 10.1111/2041-210X.12261
wallaceEcoMod/wallace documentation built on March 24, 2024, 5:15 p.m.
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Module: BIOCLIM
BACKGROUND
BIOCLIM is one of the simplest techniques for estimating a species' niche and distribution. It characterizes the species' observed environments (upper and lower limits of the training localities) for each axis independently, thereby delimiting its environmental envelope (or n-dimensional hypervolume of Hutchinson; Booth et al. 2014). To do so and indicate conditions that are successively more commonly inhabited (inferred higher suitability), BIOCLIM generates a percentile distribution for each environmental predictor variable, considering the values associated with all occurrence localities. It then evaluates the ranking of environmental values for occurrence localities and other grid cells in the study region based on where they fall on these distributions (Hijmans and Graham 2006). The closer to the median percentile value, the more suitable an environmental value is considered, with both tails of the distribution interpreted identically. The minimum percentile score (full range of observed conditions) for any predictor variable is displayed on the map in Module: Map Prediction in Component: Visualize Model Results (see below).
IMPLEMENTATION
This model uses the R package dismo to build BIOCLIM models, and evaluates them with custom code modified from the R package ENMeval (Muscarella et al. 2014).
Wallace offers the BIOCLIM implementation available in dismo. BIOCLIM models are built and evaluated using the partitions assigned in Component Partition Occurrence Data. The rows in the results table correspond to evaluation statistics calculated, and the "Bin" columns refer to the different partitions. Users can download a .csv file of the evaluation statistics table. Further, the model results can be viewed graphically in Component: Visualize Model Results with Module: BIOCLIM Envelope Plots.
REFERENCES
Booth, T.H., Nix, H.A., Busby J.R., & Hutchinson, M.F. (2014). BIOCLIM: The first species distribution modelling package, its early applications and relevance to most current MaxEnt studies. Diversity and Distributions, 20(1), 1-9. DOI: 10.1111/ddi.12144
Hijmans, R. J., & Graham, C.H. (2006). The ability of climate envelope models to predict the effect of climate change on species distributions. Global Change Biology, 12(12), 2272-2281. DOI: 10.1111/j.1365-2486.2006.01256.x
Muscarella, R., Galante, P.J., Soley-Guardia, M., Boria, R.A., Kass, J.M., Uriarte, M., & Anderson, R.P. (2014). ENMeval: An R package for conducting spatially independent evaluations and estimating optimal model complexity for Maxent ecological niche models. Methods in Ecology and Evolution, 5(11), 1198-1205. DOI: 10.1111/2041-210X.12261
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