Tetrapods on the EDGE: Overcoming data limitations to identify phylogenetic conservation priorities

Gumbs, Rikki; Gray, Claudia L.; Wearn, Oliver R.; Owen, Nisha

doi:10.1371/journal.pone.0194680

Cited by 82 publications

(65 citation statements)

References 82 publications

(167 reference statements)

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“…EDGE ranks species by combining their extinction risk with their evolutionary distinctiveness, determined from their position in a phylogenetic tree and number of close relatives. This approach has been applied to numerous animal groups (Gumbs, Gray, Wearn, & Owen, 2018;Isaac, Redding, Meredith, & Safi, 2012;Stein et al, 2018), but few plant groups and no fungi to date (Forest et al, 2018;Hills, Bachman, Forest, Moat, & Wilkin, 2019;Li, Gale, Kumar, Zhang, & Fischer, 2018;Yessoufou, Daru, Tafirei, Elansary, & Rampedi, 2017). Further metrics, inspired by EDGE, integrate evolution and extinction risks for conservation of species and areas (Farooq et al, 2020;Nunes, Turvey, & Rosindell, 2015;Pearse et al, 2015;Pimiento et al, 2020).…”

Section: Phylogenetic Signal In Extinction Risk and Edgementioning

confidence: 99%

Extinction risk and threats to plants and fungi

Lughadha

Bachman

Leão

et al. 2020

Plants People Planet

263

218

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Section: Phylogenetic Signal In Extinction Risk and Edgementioning

confidence: 99%

Extinction risk and threats to plants and fungi

Lughadha

Bachman

Leão

et al. 2020

Plants People Planet

263

218

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“…Intact ecosystems with a high proportion of endemic species form the basis for High Biodiversity Wilderness Areas. EDGE areas show critical areas where phylogenetically unique and globally threatened species occur [49,50,105].…”

Section: Methodological Frameworkmentioning

confidence: 99%

“…Whereas most of the proactive schemes only focus on low vulnerability and do not account for any irreplaceability measures, except from the High Biodiversity Wilderness Areas (HBWA) [43,84]. Furthermore, in order to meet the requirement concerning the different levels of biodiversity, conservation schemes are included into the risk map that highlight areas that harbor phylogenetically different species [49,50,105] or species with an important gene pool [51]. [34,35,44,68,69,86,88].…”

Section: State Of the Art And Research Gapsmentioning

confidence: 99%

Conceptual Framework for Biodiversity Assessments in Global Value Chains

2019

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Land use and land use change are among the main drivers of the ongoing loss of biodiversity at a global-scale. Although there are already Life Cycle Impact Assessment (LCIA) methods to measure this impact, they are still rarely used by companies and municipalities in the life cycle assessment of products and processes. Therefore, this paper highlights four main requirements for a biodiversity methodological framework within LCIA in order to facilitate biodiversity assessments: first, to consider the global uneven distribution of biodiversity and its risks with respect to vulnerability and irreplaceability; second, to account for the need to regionalize the impacts of land use; third, to consider the specific impacts that different land use types have on biodiversity; and fourth, to analyze the biodiversity impacts of different land use management parameters and their influence on the intensity of land use. To this end, we provided a review of existing methods in respect to conformity and research gaps. The present publication describes the development of a new methodological framework that builds on these requirements in a three-level hierarchical framework, which enables the assessment of biodiversity in LCA at a global-scale. This publication reveals research gaps regarding the inclusion of proactive and reactive conservation concepts as well as methods of land management into LCIA methodology. The main objective of this concept paper is therefore to describe a new methodological framework for the assessment of biodiversity in the LCA that could fill some of the research gaps, including compilation and suggestion of suitable data sets. The conclusion discusses both the benefits and limitations of this framework.

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“…Taxonomic uniqueness was listed for each species, by deriving Evolutionary Distinctiveness (ED) scores and Evolutionary Distinct and Globally Endangered (EDGE) scores [12] ; the higher the score, the higher a species’ conservation priority ( Table 4 ). We also predicted taxonomic uniqueness by counting the number of species per genus; a monotypic genus, which consists of only one representative, has a higher conservation priority Table 5 .…”

Section: Datamentioning

confidence: 99%

Species characteristics of felids and canids, and the number of articles published for each species between 2013 and 2017

Tensen

2018

Data in Brief

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The data presented are related to the research article entitled “Biases in wildlife and conservation research, using felids and canids as a case study” available at https://doi.org/10.1016/j.gecco.2018.e00423. This data article lists species characteristics of two families of the order Carnivora, the Felidae and Canidae, and quantitatively categorizes research output for each species. The species characteristics that were included in the dataset are body size (in kg), geographic range size, IUCN species status, population trend, likelihood of being a keystone species, number of species per genus, the Evolutionary Distinctiveness (ED) score, and the Evolutionary Distinct and Globally Endangered (EDGE) score. All scientific articles that were published on felid and canid species between 2013 and 2017 were listed and subdivided into the following research topics: (1) ecology and behaviour, (2) conservation and wildlife management, (3) anatomy and physiology, (4) diseases and other health issues, (5) captive housing and artificial reproduction, (6) genetic diversity and phylogenetic structure, and (7) taxonomy and palaeoecology. All the data is made publically available.

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Tetrapods on the EDGE: Overcoming data limitations to identify phylogenetic conservation priorities

Cited by 82 publications

References 82 publications

Extinction risk and threats to plants and fungi

Extinction risk and threats to plants and fungi

Conceptual Framework for Biodiversity Assessments in Global Value Chains

Species characteristics of felids and canids, and the number of articles published for each species between 2013 and 2017

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