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Ordination
Jim Thorson edited this page Nov 11, 2021
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It is possible to use VAST to conduct "ordination." This process estimates a reduced set of axes that collectively explain variability in a data set. By identifying species that have similar "loadings" for these different axes, ordination can identify species that are similar. As an example, please see code below. At time of writing, this requires installing the development branch of FishStatsUtils, although future releases will include this code in the master branch and I may forget to update this page.
# Download release number 3.0.0; its useful for reproducibility to use a specific release number
devtools::install_github("james-thorson-NOAA/VAST")
# Decide where to run and save results
#setwd( "D:/UW Hideaway (SyncBackFree)/AFSC/2019-04 -- Wrapper function demo for ordination" )
# Load packages
library(VAST)
# load data set
# see `?load_example` for list of stocks with example data
# that are installed automatically with `FishStatsUtils`.
example = load_example( data_set="five_species_ordination" )
# Make settings
settings = make_settings( n_x = 50,
Region = example$Region,
purpose = "ordination",
strata.limits = example$strata.limits,
n_categories = 2 )
# Modify settings to allow model to run faster for demo
settings$FieldConfig['Beta',] = "IID"
settings$FieldConfig['Epsilon',] = 0
settings$RhoConfig[] = 0
# Run model
fit = fit_model( settings = settings,
Lat_i = example$sampling_data[,'Lat'],
Lon_i = example$sampling_data[,'Lon'],
t_i = example$sampling_data[,'Year'],
c_i = as.numeric(example$sampling_data[,"species_number"])-1,
b_i = example$sampling_data[,'Catch_KG'],
a_i = example$sampling_data[,'AreaSwept_km2'],
newtonsteps = 0,
getsd = FALSE )
# Plot results
results = plot( fit,
plot_set = c(3,16,17),
category_names = c("pollock", "cod", "arrowtooth", "snow_crab", "yellowfin") )
# Plot correlations (showing Omega1 as example)
require(corrplot)
Cov_omega1 = fit$Report$L_omega1_cf %*% t(fit$Report$L_omega1_cf)
corrplot( cov2cor(Cov_omega1), method="pie", type="lower")
corrplot.mixed( cov2cor(Cov_omega1) )Example applications:
- Index standardization
- Empirical Orthogonal Functions
- Ordination using joint species distribution model
- End-of-century projections
- Expand length and age-composition samples
- Combine condition and biomass data
- Expand stomach content samples
- Combine presence/absence, counts, and biomass data
- Seasonal and annual variation
- Combine acoustic and bottom trawl data
- Surplus production models
- Multispecies model of biological interactions
- Stream network models
Usage demos:
- Adding covariates
- Visualize covariate response
- Percent deviance explained
- Create a new extrapolation grid
- Custom maps using ggplot
- Modify axes for distribution metrics
- K-fold crossvalidation
- Simulating new data
- Modify defaults for advanced users
Project structure and utilities: