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Main Authors: van der Veen, Bert, O'Hara, Robert Brian
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2408.05333
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author van der Veen, Bert
O'Hara, Robert Brian
author_facet van der Veen, Bert
O'Hara, Robert Brian
contents Mixed-effects models are among the most commonly used statistical methods for the exploration of multispecies data. In recent years, also Joint Species Distribution Models and Generalized Linear Latent Variale Models have gained in popularity when the goal is to incorporate residual covariation between species that cannot be explained due to measured environmental covariates. Few software implementations of such models exist that can additionally incorporate phylogenetic information, and those that exist tend to utilize Markov chain Monte Carlo methods for estimation, so that model fitting takes a long time. In this article we develop new methods for quickly and flexibly fitting phylogenetic mixed-effects models, potentially incorporating residual covariation between species using latent variables, with the possibility to estimate the strength of phylogenetic structuring in species responses per environmental covariate, and while incorporating correlation between different covariate effects. By combining Variational approximations, a sparse approximation to the phylogenetic precision matrix, and parallel computation, phylogenetic mixed-effects models can be fitted much more quickly than the current state-of-the-art. Two simulation studies demonstrate that the proposed combination of approximations is fast and enjoys high accuracy. We explore sensitivity of the approximation to the ordering of species with a real world dataset of wood-decaying fungi.
format Preprint
id arxiv_https___arxiv_org_abs_2408_05333
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Fast fitting of phylogenetic mixed-effects models
van der Veen, Bert
O'Hara, Robert Brian
Computation
Mixed-effects models are among the most commonly used statistical methods for the exploration of multispecies data. In recent years, also Joint Species Distribution Models and Generalized Linear Latent Variale Models have gained in popularity when the goal is to incorporate residual covariation between species that cannot be explained due to measured environmental covariates. Few software implementations of such models exist that can additionally incorporate phylogenetic information, and those that exist tend to utilize Markov chain Monte Carlo methods for estimation, so that model fitting takes a long time. In this article we develop new methods for quickly and flexibly fitting phylogenetic mixed-effects models, potentially incorporating residual covariation between species using latent variables, with the possibility to estimate the strength of phylogenetic structuring in species responses per environmental covariate, and while incorporating correlation between different covariate effects. By combining Variational approximations, a sparse approximation to the phylogenetic precision matrix, and parallel computation, phylogenetic mixed-effects models can be fitted much more quickly than the current state-of-the-art. Two simulation studies demonstrate that the proposed combination of approximations is fast and enjoys high accuracy. We explore sensitivity of the approximation to the ordering of species with a real world dataset of wood-decaying fungi.
title Fast fitting of phylogenetic mixed-effects models
topic Computation
url https://arxiv.org/abs/2408.05333