2017
DOI: 10.1016/j.ecolind.2017.06.056
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From phylogenetic to functional originality: Guide through indices and new developments

Abstract: In biodiversity studies a species is often classified as original when it has few closely related species, a definition\ud that reflects its phylogenetic originality. More recently, studies have focussed on biological or functional traits\ud that reflect the role(s) that species play within communities and ecosystems. This has led many studies to an\ud alternative evaluation of species’ originality: its functional originality. Most indices of species' originality were\ud developed to treat the hierarchical str… Show more

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Cited by 40 publications
(64 citation statements)
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“…The implementation of DNA‐based molecular approaches now enables (in principle) diversity to be measured at a much finer scale—that of DNA sequence variation. Although genetic differentiation might sometimes be decoupled from ecological differences (Pavoine et al, ), multiple reasons render it an appropriate element with which to characterize biological diversity. First, there is a strong link between phylogeny and variation in morphological and functional traits (Felsenstein, ; Nipperess, Faith, & Barton, ).…”
Section: Defining Types For Diversity Quantificationmentioning
confidence: 99%
See 1 more Smart Citation
“…The implementation of DNA‐based molecular approaches now enables (in principle) diversity to be measured at a much finer scale—that of DNA sequence variation. Although genetic differentiation might sometimes be decoupled from ecological differences (Pavoine et al, ), multiple reasons render it an appropriate element with which to characterize biological diversity. First, there is a strong link between phylogeny and variation in morphological and functional traits (Felsenstein, ; Nipperess, Faith, & Barton, ).…”
Section: Defining Types For Diversity Quantificationmentioning
confidence: 99%
“…This methodological shift has changed, or at least complemented, the way we measure biodiversity (Taberlet, Coissac, Pompanon, Brochmann, & Willerslev, ). For example, operational units for measuring diversity are no longer necessarily defined through taxonomic means (Blaxter et al, ), and it is easier than ever to account for the degree of (dis)similarity between the operational units detected in diversity measurement (Pavoine, Bonsall, Dupaix, Jacob, & Ricotta, ).…”
Section: Introductionmentioning
confidence: 99%
“…These nonrandom changes in community functional diversity would be expected to alter how ecosystems function (Cadotte et al, 2018). The resulting shifts of CWM and RTV along an invasion gradient are shown on the right using height as an example for a trait measure captures all the relevant information to assess mechanisms for invader success and impact (e.g., Pavoine, Bonsall, Dupaix, Jacob, & Ricotta, 2017). However, no single functional diversity F I G U R E 1 Proposed effect of an invader on resident species using three trait measures: community-weighted means (CWM), range of trait values (RTV), and distance to invader (DTI), on resident species occurrence and relative abundance.…”
Section: Introductionmentioning
confidence: 99%
“…To address this challenge, we present metrics based on trait values that can be used to estimate the amount of variation in trait characteristics preserved by each species in a given set. Such an approach can improve conservation outcomes by maximizing the functional diversity of a set of species to enhance ecosystem function or the long‐term sustainability of a clade or assemblage (Pavoine, Bonsall, Dupaix, Jacob, & Ricotta, ; Violle et al, ). Our metrics are built on the assumption that trait values are an effective proxy for functions performed by species so that maximizing the variability of such traits will maximize the functional diversity of a community or larger assemblage.…”
Section: Introductionmentioning
confidence: 99%
“…In this paper, we develop similar metrics to evaluate species‐specific contributions to the functional uniqueness of a biota. We follow Pavoine et al () and Violle et al () in the use of mean distance, and follow the terminology of Violle et al for that mean distance, “functional distinctiveness.” For variability in those distances, we use a metric based on Hill numbers (Hill, ), which we term “functional irregularity.” We also define a composite metric that captures both of these properties, which we term “functional singularity.” We present versions of these metrics based solely on functional trait information and based on functional trait information weighted by the relative frequency of occurrence or similar measures such as the relative abundance or proportional biomass. Although we present our metrics with regard to species‐level trait information, the same approach can be used for variation at lower levels in the biological hierarchy such as subspecies, strains or individuals.…”
Section: Introductionmentioning
confidence: 99%