Write, Analyze, and Visualize 'BIOM' Data

adiv_stats

R Documentation

Test alpha diversity for associations with metadata.

Description

A convenience wrapper for adiv_table() + stats_table().

Usage

adiv_stats(
  biom,
  regr = NULL,
  stat.by = NULL,
  adiv = "Shannon",
  split.by = NULL,
  trans = "none",
  test = "emmeans",
  fit = "lm",
  at = NULL,
  level = 0.95,
  alt = "!=",
  mu = 0,
  p.adj = "fdr"
)

Arguments

`biom`	An rbiom object, such as from `as_rbiom()`. Any value accepted by `as_rbiom()` can also be given here.
`regr`	Dataset field with the x-axis (independent; predictive) values. Must be numeric. Default: `NULL`
`stat.by`	Dataset field with the statistical groups. Must be categorical. Default: `NULL`
`adiv`	Alpha diversity metric(s) to use. Options are: `"OTUs"`, `"Shannon"`, `"Chao1"`, `"Simpson"`, and/or `"InvSimpson"`. Set `adiv=".all"` to use all metrics. Default: `"Shannon"` Multiple/abbreviated values allowed.
`split.by`	Dataset field(s) that the data should be split by prior to any calculations. Must be categorical. Default: `NULL`
`trans`	Transformation to apply. Options are: `c("none", "rank", "log", "log1p", "sqrt")`. `"rank"` is useful for correcting for non-normally distributions before applying regression statistics. Default: `"none"`
`test`	Method for computing p-values: `'wilcox'`, `'kruskal'`, `'emmeans'`, or `'emtrends'`. Default: `'emmeans'`
`fit`	How to fit the trendline. `'lm'`, `'log'`, or `'gam'`. Default: `'lm'`
`at`	Position(s) along the x-axis where the means or slopes should be evaluated. Default: `NULL`, which samples 100 evenly spaced positions and selects the position where the p-value is most significant.
`level`	The confidence level for calculating a confidence interval. Default: `0.95`
`alt`	Alternative hypothesis direction. Options are `'!='` (two-sided; not equal to `mu`), `'<'` (less than `mu`), or `'>'` (greater than `mu`). Default: `'!='`
`mu`	Reference value to test against. Default: `0`
`p.adj`	Method to use for multiple comparisons adjustment of p-values. Run `p.adjust.methods` for a list of available options. Default: `"fdr"`

Value

A tibble data.frame with fields from the table below. This tibble object provides the ⁠$code⁠ operator to print the R code used to generate the statistics.

Field	Description
.mean	Estimated marginal mean. See `emmeans::emmeans()`.
.mean.diff	Difference in means.
.slope	Trendline slope. See `emmeans::emtrends()`.
.slope.diff	Difference in slopes.
.h1	Alternate hypothesis.
.p.val	Probability that null hypothesis is correct.
.adj.p	`.p.val` after adjusting for multiple comparisons.
.effect.size	Effect size. See `emmeans::eff_size()`.
.lower	Confidence interval lower bound.
.upper	Confidence interval upper bound.
.se	Standard error.
.n	Number of samples.
.df	Degrees of freedom.
.stat	Wilcoxon or Kruskal-Wallis rank sum statistic.
.t.ratio	`.mean` / `.se`
.r.sqr	Percent of variation explained by the model.
.adj.r	`.r.sqr`, taking degrees of freedom into account.
.aic	Akaike Information Criterion (predictive models).
.bic	Bayesian Information Criterion (descriptive models).
.loglik	Log-likelihood goodness-of-fit score.
.fit.p	P-value for observing this fit by chance.

Examples

    library(rbiom) 
    
    biom <- rarefy(hmp50)
      
    adiv_stats(biom, stat.by = "Sex")[,1:6]
      
    adiv_stats(biom, stat.by = "Sex", split.by = "Body Site")[,1:6]
    
    adiv_stats(biom, stat.by = "Body Site", test = "kruskal")

cmmr/rbiom documentation built on April 28, 2024, 6:38 a.m.