A cornucopia of cryptic species - a DNA barcode analysis of the gobiid fish genus Trimma (Percomorpha, Gobiiformes)

Winterbottom, Richard; Hanner, Robert; Burridge, Mary; Zur, Margaret

doi:10.3897/zookeys.381.6445

Cited by 53 publications

(47 citation statements)

References 18 publications

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“…An extensive DNA barcode study on Microgastrinae wasps demonstrated significant insights into their taxonomy and species discovery [22]. Such cryptic diversity has been uncovered using DNA barcodes in other animal taxa, including crustaceans, diatoms, and fish [23][24][25]. The use of DNA barcodes for the discovery of new species is emerging as a powerful tool to clarify species boundaries and to quantify species diversity [26].…”

Section: Box 1 Building the Dna Barcode Library Using Sanger Sequencingmentioning

confidence: 99%

“…DNA barcodes in conjunction with morphological, biochemical, and ecological information are revealing an outstanding diversity of species previously unrecognized through the analysis of morphological variation alone. During the first 8 months of 2014, the Web of Science recorded 310 publications in which DNA barcoding was used in discovering and describing new species, including algae [78], ferns [79], fungi [80], nematodes [81,82], arthropods [83,84], mollusks [85], fish [25], birds [86], and mammals [87]. Early on, it was expected that a single genetic marker would serve as a universal DNA barcode to identify species across the eukaryotic Tree of Life.…”

Section: Box 1 Building the Dna Barcode Library Using Sanger Sequencingmentioning

confidence: 99%

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DNA barcodes for ecology, evolution, and conservation

Kress

García‐Robledo

Uriarte

et al. 2015

Trends in Ecology & Evolution

414

336

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Section: Box 1 Building the Dna Barcode Library Using Sanger Sequencingmentioning

confidence: 99%

Section: Box 1 Building the Dna Barcode Library Using Sanger Sequencingmentioning

confidence: 99%

DNA barcodes for ecology, evolution, and conservation

Kress

García‐Robledo

Uriarte

et al. 2015

Trends in Ecology & Evolution

414

336

View full text Add to dashboard Cite

“…Initially designed to conduct individual identifications to the species level (Hubert & Hanner, ), this approach also proved to be helpful in performing a preliminary assessment of extremely diverse and poorly known fauna awaiting species delimitation (Janzen, Hajibabaei, & Burns, ; Riedel, Sagata, Suhardjono, Tänzler, & Balke, ; Smith, Fisher, & Hebert, ; Smith, Rodriguez, & Whitfield, ; Smith, Wood, Janzen, Hallwachs, & Hebert, ; Tänzler, Sagata, Surbakti, Balke, & Riedel, ). Recent large‐scale assessments of diverse ichthyofauna confirmed that the use of the cytochrome oxidase I gene successfully capture a large portion of the alpha diversity for well‐known fauna (April, Mayden, Hanner, & Bernatchez, ; Hubert, Hanner, & Holm, ; Ward, Zemlak, Innes, Last, & Hebert, ) but also helped in highlighting unrecognized (i.e., cryptic) diversity (Durand, Hubert, Shen, & Borsa, ; Hubert, Meyer, & Bruggemann, ; Jaafar, Taylor, Mohd Nor, Bruyn, & Carvalho, ; Pereira, Pazian, Hanner, Foresti, & Oliveira, ; Rock, Costa, & Walker, ; Winterbottom, Hanner, Burridge, & Zur, ). Landscape features such as fragmentation, however, proved to be a challenge to accurately delimit species through DNA barcodes (Geiger, Herder, & Monaghan, ; Keskin, Agdamar, & Tarkan, ; Knebelsberger, Dunz, Neumann, & Geiger, ).…”

Section: Introductionmentioning

confidence: 99%

DNA barcoding the ichthyofauna of the Yangtze River: Insights from the molecular inventory of a mega‐diverse temperate fauna

Shen

Hubert

Huang

et al. 2019

Molecular Ecology Resources

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Intensification of inland fisheries and aquatic landscape conversion led to a drastic decline of fish populations in the Yangtze River (YR) during the last decades. This situation urges for the development of a large‐scale molecular assessment of YR ichthyofauna to further develop standardized methods of molecular identification for conservation and fisheries management purposes. We present here the results of a large‐scale campaign to DNA barcode YR freshwater fishes that succeeded in producing 1,424 new DNA barcodes for 123 species. Together with 1,406 sequences mined from BOLD and GenBank, a reference library including 2,830 DNA barcodes for 238 species was compiled. By using four DNA‐based species delimitation methods, RESL, ABGD, mPTP and mGMYC, 230 operational taxonomic units (OTUs) were identified and 195 species displayed OTUs that tightly match species boundaries. No barcoding gap was observed; however, and conflicting cases of species and OTU delimitation were identified. A total of 23 species with maximum intraspecific distances above 2% were detected and null genetic distances to the nearest phylogenetic relatives were detected in 11 species. Among those 23 species, 16 were represented by multiple OTUs amounting to 40 OTUs delineated. Several cases of multiple OTUs confined to species boundaries were detected suggesting the presence of overlooked species. A total of 18 OTUs, however, were shared by several species and particularly so for the Qinghai‐Tibet plateau endemic species. These results are discussed with reference to previous large‐scale DNA barcoding campaign and compared to previous phylogeographic studies in the YR.

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“…ocean basin) to local (i.e. island) scales (Hubert et al 2012, Winterbottom et al 2014, Tornabene et al 2015. Unacknowledged cryptic diversity in Indo-West Pacific reef fish communities hampers our understanding of diversity patterns (Leprieur et al 2012, Mouillot et al 2013, Pellissier et al 2014) and their origin (McCafferty et al 2002, Kuriiwa et al 2007, Drew & Barber 2009, Leray et al 2010, Winters et al 2010, Gaither et al 2011, Borsa et al 2013, Sims et al 2014, Durand & Borsa 2015, Tornabene et al 2015.…”

Section: Introductionmentioning

confidence: 99%

“…A broad assessment of the factors promoting cryptic diversity in coral reef ecosystems is timely, because the exploration of diversity patterns in the Indo-West Pacific is an increasingly debated topic (Jokiel & Martinelli 1992, Briggs 1999, Halas & Winterbottom 2009, Hubert et al 2012, Gaither & Rocha 2013, Tornabene et al 2015. The conservation of coral reefs also requires up-todate checklists of species whose accuracy depends on the approach involved in species delineation (Hubert et al 2012, Winterbottom et al 2014, Pante et al 2015, Tornabene et al 2015.…”

Section: Introductionmentioning

confidence: 99%

Geography and life history traits account for the accumulation of cryptic diversity among Indo-West Pacific coral reef fishes

Hubert¹,

Dettaı̈²,

Pruvost³

et al. 2017

Mar. Ecol. Prog. Ser.

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Indo-West Pacific coral reef fishes form speciose ecological communities. A biogeographically meaningful interpretation of diversity patterns in this region requires accurate inventories of species. Previous studies have suggested that biogeographic scenarios for Indo-West Pacific coral reef fishes are compromised by an unacknowledged yet substantial amount of cryptic diversity. DNA barcoding, the use of a mitochondrial gene as an internal species tag for species identification, has opened new perspectives on global biodiversity. The present study, based on the largest DNA barcode reference library produced to date for Indo-West Pacific coral reef fishes, sheds new light on the extent of cryptic diversity and its evolutionary origin. We analyzed 3174 DNA barcodes for 805 species of coral reef fishes sampled at 3 different locations across the IndoWest Pacific (including 538 new DNA barcodes for 270 species sampled from New Caledonia). Among the 183 species with Indo-West Pacific distribution and multiple specimens analyzed, 78 (42.6%) were represented by 2 or more monophyletic lineages alternatively sorted between the sampling sites in the Indian and Pacific oceans and another 73 (40%) showed evidence of phylogeographic structure. Spatial analyses pointed to a detectable impact of geographic isolation on the emergence of cryptic diversity. The significant correlation of several life history traits to the maximum intraspecific genetic distances suggests that genetic divergence among geographically isolated cryptic lineages accumulated though mutation and genetic drift.

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A cornucopia of cryptic species - a DNA barcode analysis of the gobiid fish genus Trimma (Percomorpha, Gobiiformes)

Cited by 53 publications

References 18 publications

DNA barcodes for ecology, evolution, and conservation

DNA barcodes for ecology, evolution, and conservation

DNA barcoding the ichthyofauna of the Yangtze River: Insights from the molecular inventory of a mega‐diverse temperate fauna

Geography and life history traits account for the accumulation of cryptic diversity among Indo-West Pacific coral reef fishes

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