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R build status CRAN_Status_Badge Total_Downloads aqp Manual

Algorithms for Quantitative Pedology (aqp) package for R

aqp hexsticker (Paxton, Montauk, Woodbridge, Ridgebury, Whitman, Catden soil series dendogram)

The Algorithms for Quantitative Pedology (AQP) project was started in 2009 to organize a loosely-related set of concepts and source code on the topic of soil profile visualization, aggregation, and classification into this package (aqp). Over the past 8 years, the project has grown into a suite of related R packages that enhance and simplify the quantitative analysis of soil profile data. Central to the AQP project is a new vocabulary of specialized functions and data structures that can accommodate the inherent complexity of soil profile information; freeing the scientist to focus on ideas rather than boilerplate data processing tasks doi:10.1016/j.cageo.2012.10.020. These functions and data structures have been extensively tested and documented, applied to projects involving hundreds of thousands of soil profiles, and deeply integrated into widely used tools such as SoilWeb https://casoilresource.lawr.ucdavis.edu/soilweb-apps/. Components of the AQP project (aqp, soilDB, sharpshootR, soilReports packages) serve an important role in routine data analysis within the USDA-NRCS Soil Science Division. The AQP suite of R packages offer a convenient platform for bridging the gap between pedometric theory and practice.

Installation

Get the stable version from CRAN:

install.packages('aqp', dep=TRUE)

Get the development version from Github, after installing the CRAN version + dependencies:

remotes::install_github("ncss-tech/aqp", dependencies=FALSE, upgrade=FALSE, build=FALSE)

Website

http://ncss-tech.github.io/AQP/

Examples

library(aqp)

# example data from three official series descriptions
data("osd")

# simulate 2 copies of each
# using horizon boundary distinctness offsets
set.seed(10101)
x <- perturb(osd, n = 2, boundary.attr = 'hzd', min.thickness = 5)

# tighter margins
par(mar = c(0, 0, 1, 0))

# adjust default style
# depict truncation at 175cm with ragged bottom
plotSPC(
  x, 
  name.style = 'center-center', 
  cex.names = 1,
  width = 0.33,
  cex.id = 0.9,
  hz.distinctness.offset = 'hzd', 
  max.depth = 175, 
  depth.axis = FALSE, 
  hz.depths = TRUE
)

Install Suggested Packages

p <- c("colorspace", "ape", "soilDB", "latticeExtra", "tactile", "compositions", 
"sharpshootR", "markovchain", "xtable", "testthat", "Gmedian", 
"farver", "Hmisc", "tibble", "RColorBrewer", "scales", "digest", 
"MASS", "mpspline2", "soiltexture", "knitr", "rmarkdown")

install.packages(p)

Citation

citation("aqp")
#> 
#> To cite aqp in publications use:
#> 
#>   Beaudette, D., Roudier, P., Brown, A. (2023). aqp: Algorithms for
#>   Quantitative Pedology. R package version 2.0.
#>   <https://CRAN.R-project.org/package=aqp>
#> 
#>   Beaudette, D.E., Roudier, P., O'Geen, A.T. Algorithms for
#>   quantitative pedology: A toolkit for soil scientists, Computers &
#>   Geosciences, Volume 52, March 2013, Pages 258-268, ISSN 0098-3004,
#>   http://dx.doi.org/10.1016/j.cageo.2012.10.020.
#> 
#> To see these entries in BibTeX format, use 'print(<citation>,
#> bibtex=TRUE)', 'toBibtex(.)', or set
#> 'options(citation.bibtex.max=999)'.

Related Packages

Vignettes

Tutorials

Related Presentations / Posters

aqp in the Wild