Emma Carroll scite author profile

Emma Carroll

3Publications

0Citation Statements Received

179Citation Statements Given

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University of Calgary

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Population genetics of Bull Trout (Salvelinus confluentus) in the upper Athabasca River basin

Carroll

Vamosi

2021

Ecology and Evolution

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Freshwater systems (lakes, ponds, rivers, streams, etc.) cover less than 0.01% of Earth's surface area yet harbour a disproportionate amount of global biodiversity. Estimates suggest that they support >10% of all described species, including ~30% of all vertebrate species and 40% of all fish species (Reid et al., 2020). There is mounting evidence that freshwater species are being lost at significantly higher rates than terrestrial or marine species (WWF, 2018).

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A barcoding approach to phylogenetic classification of Aedini mosquitoes (Aedes, Ochlerotatus)

Glass

Carroll

Curley

et al. 2018

Preprint

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14Traditionally, entomologists have used morphological characteristics for mosquito taxonomy 15 and systematics. However, this approach does not take into consideration the genetic 16 relatedness of species. In 2000, the Aedes genus of mosquitoes in the tribe Aedini was split into 17 two genera (Aedes and Ochlerotatus), thereby elevating Ochlerotatus from subgenus to genus 18 rank, strictly based on morphology of adults. Herein, we use the genetic barcoding marker COI 19 to generate a phylogeny of 65 species of Aedes, Ochlerotatus, and Anopheles outgroup from 20 almost 900 sequences downloaded from BOLD systems. Our results reveal evidence of non-21 random, but polyphyletic clustering of Aedes and Ochlerotatus species, with a monophyletic 22 outgroup. We do find support for the validity of Ochlerotatus as an evolutionary unit, although 23 we find insufficient evidence to support its retention as a genus. We suggest that mosquito 24 phylogenetic analyses incorporate a greater number of genetic markers to help clarify our 25 understanding of Aedini species classifications, but caution that recent assessments based 26 solely on morphology may be insufficient. 27 28 45 Ochlerotatus (Meigen 1818, as cited in Harbach 2016). Through a series of morphology-46 informed phylogenetic studies, Reinert et al. 47 Ochlerotatus to genus status. This decision was based on the analysis of morphological 48 characteristics of 119 Aedini species across all life stages. The resulting morphology-based 49 phylogeny proposed this change to the previous classification that was based solely on adult 50 4 mosquito morphology. These revisions to the genera created instant controversy among 51 researchers and led to many journals that focus on these medically important species to 52 suggest caution with adopting the new designations (Reisen 2016). Because many species 53 within the genus Aedes are of significant medical importance (e.g., Aedes aegypti), 54 redesignation of any species would pose challenges for public health officials in relation to 55 using long standing species names when communicating with the public. In addition, as it has 56 been nearly two decades since Reinert first proposed elevating Ochlerotatus to a genus (Reinert 57 2000), and using a molecular approach to resolving the phylogenetic relationships among these 58 species is long overdue. Indeed, in an editorial about Aedini mosquitoes, Reisen (2016) noted: 59 "As more mosquito sequencing data become available … genetic analyses should be done to 60 confirm these phenotypic groupings." 61 DNA barcoding has been promoted as a universal tool for reliable species identifications 62 (Hebert et al. 2003, Hebert et al. 2004), and also as a tool for helping to resolve phylogenetic 63 relationships among species (Hajibabaei et al. 2007, Erpenbeck et al. 2007). The 648 base-pair 64 mitochondrial cytochrome c oxidase 1 gene (COI) is regarded as the standardized barcode gene 65 for species identification (iBOL 2018). Thus far, there is a mixed record of success of using COI...

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Population genetics of Bull Trout (Salvelinus confluentus) in the Upper Athabasca river basin

Carroll

Vamosi

2019

Preprint

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Across its native range, Bull Trout (Salvelinus confluentus) extent and abundance are in decline due to historic overharvest and habitat degradation. Because Bull Trout are dependent on extensively connected, cold, clean headwater habitats, fragmentation from land use changes causes difficulty when determining the true extent and health of their populations, with Bull Trout of Alberta's Eastern Slope region being no exception. Across this region, 431 Bull Trout from 20 sites were sampled from the Athabasca and Saskatchewan River basins and compared using 10 microsatellite loci to characterize within-and among-population genetic variation. The Saskatchewan and Athabasca River basins contained similar levels of heterozygosity but were differentiated from one another.Within the Athabasca River basin, five genetically differentiated clusters were found.Additionally, no isolation-by-distance pattern was observed between these sites. These results suggest these populations have ample genetic diversity, but genetic differentiation should be considered when deciding whether and how to alter connectivity between populations.

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Emma Carroll

Population genetics of Bull Trout (Salvelinus confluentus) in the upper Athabasca River basin

A barcoding approach to phylogenetic classification of Aedini mosquitoes (Aedes, Ochlerotatus)

Population genetics of Bull Trout (Salvelinus confluentus) in the Upper Athabasca river basin

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