Assessing the effectiveness of DNA barcoding for exploring hidden genetic diversity in deep-sea fishes

Teramura, Akinori; Koeda, Keita; Matsuo, Ayumu; Sato, MP; Senou, Hiroshi; Hc, Ho; Suyama, Yoshihisa; Kikuchi, Kiyoshi; Hirase, Shotaro

doi:10.3354/meps14193

Cited by 5 publications

(5 citation statements)

References 58 publications

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“…variation and expand the geographic representation for this marker on GenBank. COI barcodes provided validation for our species identification and will also add to knowledge on intraspecific variation and geographic differentiation, which can facilitate the discovery of cryptic species (Kenchington et al, 2017;Teramura et al, 2022). Importantly, because we barcoded both the COI and 12S markers from the same specimens, we were able to detect species identification discrepancies on GenBank.…”

Section: Dna Barcoding and Reference Librarymentioning

confidence: 96%

“…DNA sequences were blasted against the GenBank database for comparison with publicly available sequences. Matches with 98% identity or greater for at least 90% of the read length were considered species-level identifications (e.g., Kenchington et al, 2017;Teramura et al, 2022). Barcode identifications were compared with morphological identifications.…”

Section: Introductionmentioning

confidence: 99%

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Assessing mesopelagic fish diversity and diel vertical migration with environmental DNA

Govindarajan,

Llopiz,

Caiger

et al. 2023

Front. Mar. Sci.

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Mesopelagic fishes are an important component of the world’s oceans in terms of their abundance, biomass, and ecosystem function. These fishes are important contributors to the biological carbon pump via their feeding and behaviors, whereby they facilitate the transfer of carbon from shallow waters to the deep sea. Several species undertake diel vertical migration, feeding in shallower waters at night and moving to deeper waters during the day. This process actively expedites the downward flux of carbon. However, carbon budgets and climate models require accurate information regarding the depth distributions and migration patterns of these fishes, and environmental DNA (eDNA) analyses can provide this information. Here, we utilize eDNA approaches, generating taxonomically-informative COI and 12S reference barcodes for 80 species of mesopelagic fishes, which can be used for species-level identification of eDNA sequences. Using these, along with a publicly available barcodes database, we compare results from eDNA analysis with traditional net sampling, and explore the ability of eDNA techniques to detect diel vertical migration in fishes from samples collected in Northwest Atlantic Slope Water. We found that eDNA and net samples often resulted in different species identifications, demonstrating that eDNA can detect species that would otherwise be missed with traditional methods. In our eDNA samples, we also detected more species (12) in our shallowest depth category (0 - 100 m) from night samples than from day samples (3). This is consistent with increased diversity in shallow waters at night due to diel vertical migration. Based on the variability observed in sample duplicates, we suggest that future mesopelagic eDNA studies incorporate larger sample volumes and scaled-up sampling efforts. We also note the potential applications of eDNA analysis in addressing ecological questions related to predator-prey relationships identification of foraging hotspots, and carbon flow through the ocean’s midwaters.

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Section: Dna Barcoding and Reference Librarymentioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

Assessing mesopelagic fish diversity and diel vertical migration with environmental DNA

Govindarajan,

Llopiz,

Caiger

et al. 2023

Front. Mar. Sci.

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“…DNA barcoding using mitochondrial DNA sequences may offer an effective approach to identifying cryptic species and characterizing genetic diversities of deep-sea fish species [39]. DNA barcoding of mesopelagic and demersal fish collected around Japan and southern Taiwan.…”

Section: Cryptic Speciesmentioning

confidence: 99%

Population Genetic Structure of Marine Fishes

Gonzalez,

Barria,

Ponce

et al. 2024

Genetics

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Research on population genetics structure of marine fishes is increasing because of new technology based on DNA sequencing. This knowledge is necessary for management and conservation of natural population in marine environment. The aim of the chapter is to discuss about how genetic population structure get from DNA, allows us to know about dynamic of life history of species of Teleosts (Actinopterigii) and Chondrichthyes (Elasmobranchii). The analysis is based on taxonomic point of view. We hope to contribute to apply the new advances to management of natural population of fishes and marine wildlife.

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“…The additive effects of high habitat heterogeneity, on both small and large scales, are known to contribute to a highly diverse deep‐sea fauna (Paulus, 2021). Indeed, current systematics has shown that many meso‐ and bathypelagic fishes with a worldwide distribution have highly divided population structures or include several cryptic species (de Carlos et al, 2020; Teramura et al, 2022).…”

Section: Introductionmentioning

confidence: 99%

Unveiling taxonomic diversity in the deep‐sea fish genus Notacanthus (Notacanthiformes: Notacanthidae) with description of Notacanthus arrontei n. sp.

Bañón,

Barros‐García,

Baldó

et al. 2024

Journal of Fish Biology

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Notacanthid fishes constitute a common part of benthopelagic deep‐sea fish communities on seamounts and continental slopes around the world. However, their highly conserved morphology and the usual lack of information on deep‐water organisms make it difficult to appropriately address their biodiversity. A multidisciplinary approach combining morphological data with a DNA‐based species delimitation analyses was used to explore the taxonomy of Notacanthus species. For this purpose, morphological and molecular data were obtained from 43 individuals, and the resulting information was combined with the available data. The results showed the occurrence of Notacanthus arrontei n. sp. from the Iberian Peninsula and highlighted several taxonomic conundrums regarding the Notacanthus genus. For instance, no significant differences were found between Notacanthus indicus and the recently described Notacanthus laccadiviensis, questioning its taxonomic status. Similarly, the result of the species delimitation molecular analysis coincided with previous DNA barcoding studies supporting the snubnosed spiny eel Notacanthus chemnitzii as a species complex that requires further research. Moreover, two unidentified records from the Indian Ocean were confirmed to belong to an unknown species pending formal description, and barcoding data show for the first time the occurrence of the shortfin spiny eel Notacanthus bonaparte in the Australia‐New Zealand area. This research confirms the existence of important gaps in the knowledge of notacanthid fishes and represents a step forward toward a better understanding of their biological diversity.

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Assessing the effectiveness of DNA barcoding for exploring hidden genetic diversity in deep-sea fishes

Cited by 5 publications

References 58 publications

Assessing mesopelagic fish diversity and diel vertical migration with environmental DNA

Assessing mesopelagic fish diversity and diel vertical migration with environmental DNA

Population Genetic Structure of Marine Fishes

Unveiling taxonomic diversity in the deep‐sea fish genus Notacanthus (Notacanthiformes: Notacanthidae) with description of Notacanthus arrontei n. sp.

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