The effect of single biome occupancy on the estimation of biome shifts and the detection of biome conservatism.

Biome conservatism is often regarded as common in diversifying lineages, based on the detection of low biome shift rates or high phylogenetic signal. However, many studies testing biome conservatism utilise a single-biome-per-species approach, which may influence the detection of biome conservatism....

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Main Authors: Esther E Dale, Matthew J Larcombe, William G Lee
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2021-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0248839
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spelling doaj-095a2bb1322e4ccc96690bd06fcd79d82021-04-10T04:30:38ZengPublic Library of Science (PLoS)PLoS ONE1932-62032021-01-01163e024883910.1371/journal.pone.0248839The effect of single biome occupancy on the estimation of biome shifts and the detection of biome conservatism.Esther E DaleMatthew J LarcombeWilliam G LeeBiome conservatism is often regarded as common in diversifying lineages, based on the detection of low biome shift rates or high phylogenetic signal. However, many studies testing biome conservatism utilise a single-biome-per-species approach, which may influence the detection of biome conservatism. Meta-analyses show that biome shift rates are significantly lower (less than a tenth), when single biome occupancy approaches are adopted. Using New Zealand plant lineages, estimated biome shifts were also significantly lower (14-67% fewer biome shifts) when analysed under the assumption of a single biome per species. Although a single biome approach consistently resulted in lower biome shifts, it detected fewer instances of biome conservatism. A third of clades (3 out of 9) changed status in biome conservatism tests between single and multiple biome occupancy approaches, with more instances of significant biome conservatism when using a multiple biome occupancy approach. A single biome approach may change the likelihood of finding biome conservatism because it assumes biome specialisation within species, falsely recognises some biome shift types and fails to include other biome shift types. Our results indicate that the degree of biome fidelity assumed has a strong influence on analyses assessing biome shift rates, and biome conservatism testing. We advocate analyses that allow species to occupy multiple biomes.https://doi.org/10.1371/journal.pone.0248839
collection DOAJ
language English
format Article
sources DOAJ
author Esther E Dale
Matthew J Larcombe
William G Lee
spellingShingle Esther E Dale
Matthew J Larcombe
William G Lee
The effect of single biome occupancy on the estimation of biome shifts and the detection of biome conservatism.
PLoS ONE
author_facet Esther E Dale
Matthew J Larcombe
William G Lee
author_sort Esther E Dale
title The effect of single biome occupancy on the estimation of biome shifts and the detection of biome conservatism.
title_short The effect of single biome occupancy on the estimation of biome shifts and the detection of biome conservatism.
title_full The effect of single biome occupancy on the estimation of biome shifts and the detection of biome conservatism.
title_fullStr The effect of single biome occupancy on the estimation of biome shifts and the detection of biome conservatism.
title_full_unstemmed The effect of single biome occupancy on the estimation of biome shifts and the detection of biome conservatism.
title_sort effect of single biome occupancy on the estimation of biome shifts and the detection of biome conservatism.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2021-01-01
description Biome conservatism is often regarded as common in diversifying lineages, based on the detection of low biome shift rates or high phylogenetic signal. However, many studies testing biome conservatism utilise a single-biome-per-species approach, which may influence the detection of biome conservatism. Meta-analyses show that biome shift rates are significantly lower (less than a tenth), when single biome occupancy approaches are adopted. Using New Zealand plant lineages, estimated biome shifts were also significantly lower (14-67% fewer biome shifts) when analysed under the assumption of a single biome per species. Although a single biome approach consistently resulted in lower biome shifts, it detected fewer instances of biome conservatism. A third of clades (3 out of 9) changed status in biome conservatism tests between single and multiple biome occupancy approaches, with more instances of significant biome conservatism when using a multiple biome occupancy approach. A single biome approach may change the likelihood of finding biome conservatism because it assumes biome specialisation within species, falsely recognises some biome shift types and fails to include other biome shift types. Our results indicate that the degree of biome fidelity assumed has a strong influence on analyses assessing biome shift rates, and biome conservatism testing. We advocate analyses that allow species to occupy multiple biomes.
url https://doi.org/10.1371/journal.pone.0248839
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