Effects of taxon sampling and tree reconstruction methods on phylodiversity metrics

Jantzen, Johanna R.; Whitten, W. Mark; Neubig, Kurt M.; Majure, Lucas C.; Soltis, Douglas E.; Soltis, Pamela S.

doi:10.1002/ece3.5425

Cited by 30 publications

(46 citation statements)

References 67 publications

(138 reference statements)

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“…However, case studies have demonstrated that mode of phylogenetic inference has little influence on phylodiversity metrics. In other words, equivalent results have been obtained from purpose‐built and synthetic trees (Allen et al., 2019; Jantzen et al., 2019; Li, Trotta, et al, 2019). Nevertheless, the impact of limited sampling in a regional phylogeny on divergence times, using either a purpose‐built or pruned tree, compared to a global phylogeny remains to be assessed directly.…”

Section: Ages Derived From the Chinese Regional Phylogeny Do Not Biasmentioning

confidence: 71%

Noise does not equal bias in assessing the evolutionary history of the angiosperm flora of China: A response to Qian (2019)

Peng

et al. 2020

Journal of Biogeography

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In response to our paper on the evolutionary history of the Chinese flora, Qian suggests that certain features of the divergence time estimation employed might have led to biased conclusions in Lu et al (2018). Here, we consider Qian's specific criticisms, explore the extent of uncertainty in the data and demonstrate that (i) no systematic bias toward dates that are too young or too old is detected in Lu et al.; (ii) constraint of the crown age of angiosperms does not bias the generic ages estimated by Lu et al.; and (iii) ages derived from the Chinese regional phylogeny do not bias the conclusions reported by Lu et al. All these analyses confirm that the conclusions reported previously are robust. We argue that, like many large-scale biodiversity analyses, sources of noise in divergence time estimation are to be expected, but these should not be confused with bias. In response to our paper on the evolutionary history of the flora of China, Qian (2019) suggests that the molecular-based estimates of divergence times may have substantially biased our conclusions (Lu et al., 2018). Although Qian (2019) notes some issues in divergence time estimation that the community also has raised (e.g. discordance between molecular estimates and the fossil record; the influence of incomplete phylogeny on divergence time estimation), some of his statements are misleading, and there is no evidence supporting his statement that the conclusions in Lu et al. (2018) are biased. Here, we consider Qian's specific criticisms, explore the potential uncertainty in our data, reanalyse the data with different constraints and address Qian's concerns on three major aspects below.

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Section: Ages Derived From the Chinese Regional Phylogeny Do Not Biasmentioning

confidence: 71%

Noise does not equal bias in assessing the evolutionary history of the angiosperm flora of China: A response to Qian (2019)

Peng

et al. 2020

Journal of Biogeography

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“…This is a welcome simplification, especially when dealing with hard to determine taxa. Second, phylogenetic diversity estimation using the clade indices requires less effort, expertise, and cost, as there is no need to obtain molecular data, performs a phylogenetic analysis and molecular dating (the latter is not necessary when phylograms are used, i.e., branch lengths in units substitutions per site; but see Jantzen et al, 2019 for discussion of how phylogenetic diversity measures can be affected by using either phylograms or dated phylogenies). As discussed in Li et al (2019), researchers have to decide what markers (Which genes to select?)…”

Section: Discussionmentioning

confidence: 99%

“…What fossil constraints for molecular dating?). All these difficult methodological decisions can be also avoided using phylogenies pruned from supertrees, for example, Daphne (Durka & Michalski, 2012) or the Open Tree of Life (Hinchliff et al, 2015), which have been shown to provide estimates of phylogenetic diversity well correlated to those derived from purpose‐built phylogenies (Li et al, 2019) and, additionally, have broader taxon sampling coverage that is important to correctly estimate phylogenetic diversity (Jantzen et al, 2019; Park et al, 2018). On the other hand, for many taxonomic groups, supertrees are poorly sampled and unavailable (e.g., Daphne covers only a part of the European flora) or do not include branch lengths (Open Tree of Life) that need to be additionally calculated (Li et al, 2019).…”

Section: Discussionmentioning

confidence: 99%

“…Simulation workflow was specifically designed to cover several aspects that can affect phylogenetic diversity estimation, that is, taxon sampling (Park et al, 2018), the number of taxa included in the regional phylogeny (Jantzen et al, 2019) or species richness of a community (Sandel, 2018; Swenson, 2014). Thus, these factors could also affect fit accuracy of the clade indices for all dimensions of phylogenetic diversity.…”

Section: Methodsmentioning

confidence: 99%

“…To construct dated phylogenies requires considerable effort, and the whole process is affected by methodological biases and subjective decisions (Jantzen et al, 2019; Li et al, 2019). Further, calculated phylogenetic diversity metrics depend on the attributes of phylogenies, such as the degree of balance, diversification rate, resolution, taxon sampling, or tree reconstruction methods (Jantzen et al, 2019; Park, Worthington, & Xi, 2018; Swenson, 2009; Vellend et al, 2011). Here, we propose and evaluate an approach based on the idea of considering species phylogeny as a categorical variable (i.e., affiliation to a phylogenetic clade) rather than continuous (i.e., phylogenetic distances among species).…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Clade composition of a plant community indicates its phylogenetic diversity

Bitomský

Mládková

Pakeman

et al. 2020

Ecology and Evolution

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Phylogenetic diversity quantification is based on indices computed from phylogenetic distances among species, which are derived from phylogenetic trees. This approach requires phylogenetic expertise and available molecular data, or a fully sampled synthesis-based phylogeny. Here, we propose and evaluate a simpler alternative approach based on taxonomic coding. We developed metrics, the clade indices, based on information about clade proportions in communities and species richness of a community or a clade, which do not require phylogenies. Using vegetation records from herbaceous plots from Central Europe and simulated vegetation plots based on a megaphylogeny of vascular plants, we examined fit accuracy of our proposed indices for all dimensions of phylogenetic diversity (richness, divergence, and regularity).For real vegetation data, the clade indices fitted phylogeny-based metrics very accurately (explanatory power was usually higher than 80% for phylogenetic richness, almost always higher than 90% for phylogenetic divergence, and often higher than 70% for phylogenetic regularity). For phylogenetic regularity, fit accuracy was habitat and species richness dependent. For phylogenetic richness and divergence, the clade indices performed consistently. In simulated datasets, fit accuracy of all clade indices increased with increasing species richness, suggesting better precision in species-rich habitats and at larger spatial scales. Fit accuracy for phylogenetic divergence and regularity was unreliable at large phylogenetic scales, suggesting inadvisability of our method in habitats including many distantly related lineages. The clade indices are promising alternative measures for all projects with a phylogenetic framework, which can trade-off a little precision for a significant speed-up and simplification, such as macroecological analyses or where phylogenetic data is incomplete. K E Y W O R D Sbiodiversity, clade index, phylogenetic divergence, phylogenetic regularity, phylogenetic richness

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Underground carbohydrate stores and storage organs in fire‐maintained longleaf pine savannas in Florida, USA

Díaz‐Toribio

Putz

2021

American J of Botany

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Many perennial herbaceous plants develop underground storage organs (USOs) that store carbohydrates, water, and minerals. The resprouting ability of plants is influenced by the availability of these materials and by the type of underground organ and number of viable buds. In this study, we illustrate the diversity of longleaf pine savanna species and their nonstructural carbohydrate (NSC) pools and concentrations. We also determined whether NSC concentrations by USO are good predictors of NSC pools in species with different types of underground structures. METHODS: We excavated in their entirety 1-4 individuals of each of 100 ground-layer pine savanna species, classified their USO types, and measured their NSC concentrations and NSC pools. RESULTS: The NSC concentrations in underground organs varied widely among the 100 species sampled. Surprisingly, the fibrous roots of Pityopsis graminifolia stored higher concentrations of NSCs than many species with USOs. The relationship between NSC concentrations and NSC pools was strong after controlling for underground biomass. CONCLUSIONS: Our results revealed the high diversity of underground organs in pine savannas. It also showed that NSC concentrations in species with USOs reach high levels. Predictions of NSC pool sizes from NSC concentrations are interpretable, when corrections for underground biomass are considered. Research on underground organs would benefit from inclusion of morphological-anatomical analyses and phylogenetic controls to promote use of the data in broad-scale analyses.

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Effects of taxon sampling and tree reconstruction methods on phylodiversity metrics

Cited by 30 publications

References 67 publications

Noise does not equal bias in assessing the evolutionary history of the angiosperm flora of China: A response to Qian (2019)

Noise does not equal bias in assessing the evolutionary history of the angiosperm flora of China: A response to Qian (2019)

Clade composition of a plant community indicates its phylogenetic diversity

Underground carbohydrate stores and storage organs in fire‐maintained longleaf pine savannas in Florida, USA

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