Analyzing mixing systems using a new generation of Bayesian tracer mixing models

TitleAnalyzing mixing systems using a new generation of Bayesian tracer mixing models
Publication TypeJournal Article
Year of Publication2018
AuthorsStock B.C, Jackson A.L, Ward E.J, Parnell A.C, Phillips D.L, Semmens B.X
JournalPeerj
Volume6
Date Published2018/06
Type of ArticleArticle
ISBN Number2167-8359
Accession NumberWOS:000435833300008
Keywordsassessment; bayesian; behavior; compositional data; diet; Fatty adds; mixing models; MixSIR; predator; prior information; Science & Technology - Other Topics; seasonal-changes; SIAR; stable isotopes; stable-isotope analysis; statistics; stock; trophic ecology; uncertainty; Zooplankton
Abstract

The ongoing evolution of tracer mixing models has resulted in a confusing array of software tools that differ in terms of data inputs, model assumptions, and associated analytic products. Here we introduce MixSIAR, an inclusive, rich, and flexible Bayesian tracer (e.g., stable isotope) mixing model framework implemented as an open-source R package. Using MixSIAR as a foundation, we provide guidance for the implementation of mixing model analyses. We begin by outlining the practical differences between mixture data error structure formulations and relate these error structures to common mixing model study designs in ecology. Because Bayesian mixing models afford the option to specify informative priors on source proportion contributions, we outline methods for establishing prior distributions and discuss the influence of prior specification on model outputs. We also discuss the options available for source data inputs (raw data versus summary statistics) and provide guidance for combining sources. We then describe a key advantage of MixSIAR over previous mixing model software-the ability to include fixed and random effects as covariates explaining variability in mixture proportions and calculate relative support for multiple models via information criteria. We present a case study of Alligator mississippiensis diet partitioning to demonstrate the power of this approach. Finally, we conclude with a discussion of limitations to mixing model applications. Through MixSIAR, we have consolidated the disparate array of mixing model tools into a single platform, diversified the set of available parameterizations, and provided developers a platform upon which to continue improving mixing model analyses in the future.

DOI10.7717/peerj.5096
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