Combined Use of eDNA Metabarcoding and Bottom Trawling for the Assessment of Fish Biodiversity in the Zhoushan Sea

Zhou, Shaolin; Fan, Chenrong; Xia, Haoming; Zhang, Jian; Yang, Wei; Ji, Dengjie; Wang, Lei; Chen, Li; Liu, Nannan

doi:10.3389/fmars.2021.809703

Cited by 14 publications

(7 citation statements)

References 63 publications

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“…Previous studies had detected E. akaara eDNA throughout its distribution range with eDNA metabarcoding, including East China Sea, Yellow Sea and the Sea of Japan (Ahn et al, 2020; Kenji et al, 2022; Kim, 2020; Lin et al, 2022). However, no eDNA metabarcoding study in the South China Sea ever recorded the presence of E. akaara , especially in Guangdong Province of China where E. akaara fishery was once prevalent (Cheang et al, 2020; Liu & Sadovy De Mitcheson, 2009; Zhang et al, 2024; Zhou et al, 2022; Chung et al, 2024). Hence, we suggest E. akaara in Hong Kong and South China Sea region as a whole could be currently suffering the worst population devastation compared to other populations across its distribution range.…”

Section: Discussionmentioning

confidence: 99%

“…akaara, especially in Guangdong Province of China where E. akaara fishery was once prevalent (Cheang et al, 2020;Liu & Sadovy De Mitcheson, 2009;Zhang et al, 2024;Zhou et al, 2022;Chung et al, 2024). Hence, we suggest E. akaara in Hong Kong and South China Sea region as a whole could be currently suffering the worst population devastation compared to other populations across its distribution range.…”

Section: Implication For Conservation and Monitoringmentioning

confidence: 99%

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Novel assay for endangered Hong Kong grouper (Epinephelus akaara) to assess eDNA shedding, decay, and population status

Chung,

Kam,

Schunter

2024

Preprint

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Overexploitation is a major threat to marine ecosystems, causing collapse of numerous fisheries since the 19th century. The Hong Kong Grouper (Epinephelus akaara) is a commercial fish species that suffered at least 50-80% population declines in the past 40 years throughout its distribution range. Yet there has been minimal research or specific management, resulting in insufficient data on abundance, reproduction and habitat utilization. Here we aim to develop a novel species-specific quantitative PCR (qPCR) assay to detect potential occurrence of E. akaara through non-invasive environmental water samples. We developed a qPCR assay amplifying 71 bps of the mitochondrial ND2 gene which offers high sensitivity and specificity. To quantify the E. akaara population with the emerging environmental DNA (eDNA) tool, however, species-specific shedding and decay rates are crucial. The decay rate of E. akaara was similar to that of reported values of other marine fish species. However, the shedding rate of E. akaara was found to be few orders of magnitude lower which may be related to the relatively low activity and energy use from solitary and sedentary behavior of groupers. This highlights the importance of empirically determining species or taxon-specific shedding and decay rates to inform accurate abundance estimates with modelling tools for eDNA concentrations. Only 6 out of 88 water samples (6.81%) collected across 4 sampling seasons and 11 sites around Hong Kong showed positive signals at a concentration below limit of detection of the assay, implying its rarity in Hong Kong nowadays. Overall, we demonstrate that eDNA with our qPCR assay is efficient and sensitive in detecting the target species and is a promising tool in documenting endangered species for species management and conservation.

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Section: Discussionmentioning

confidence: 99%

Section: Implication For Conservation and Monitoringmentioning

confidence: 99%

Novel assay for endangered Hong Kong grouper (Epinephelus akaara) to assess eDNA shedding, decay, and population status

Chung,

Kam,

Schunter

2024

Preprint

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“…Studies using marine water eDNA metabarcoding to assess fish diversity based on 12S rRNA perform taxonomic assignment in a variety of ways. Some authors assign taxonomy by directly querying GenBank (e.g., Lamy et al, 2021; Sato et al, 2021; Zhou et al, 2022), which might result in erroneous assignments due to the presence of problematic records (Li et al, 2018). Others rely on filtered versions of GenBank containing only the target barcode of the sequences from the species of interest.…”

Section: Introductionmentioning

confidence: 99%

“…However, because eDNA extracted from water samples contains traces of many abundant organisms other than fish, the use of COI metazoan universal primers results in over-amplification of non-target taxa (Collins et al, 2019;Fraija-Fernández et al, 2020), and fish-specific primers have been developed, mostly based on the 12S rRNA gene, such as those amplifying the teleo (Valentini et al, 2016) or MiFish (Miya et al, 2015) regions Studies using marine water eDNA metabarcoding to assess fish diversity based on 12S rRNA perform taxonomic assignment in a variety of ways. Some authors assign taxonomy by directly querying GenBank (e.g., Lamy et al, 2021;Sato et al, 2021;Zhou et al, 2022), which might result in erroneous assignments due to the presence of problematic records (Li et al, 2018). Others rely on filtered versions of GenBank containing only the target barcode of the sequences from the species of interest.…”

Section: Introductionmentioning

confidence: 99%

An automated workflow to assess completeness and curate GenBank for environmental DNA metabarcoding: The marine fish assemblage as case study

Claver¹,

Canals²,

Amezaga³

et al. 2023

Environmental DNA

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“…Some authors assign taxonomy by directly querying GenBank (e.g. Lamy, Pitz et al (2021); Sato, Inoue et al (2021); Zhou, Fan et al (2022)). Others rely on filtered versions of GenBank containing only the target barcode of the sequences from the species of interest.…”

Section: Introductionmentioning

confidence: 99%

An automated workflow to assess completeness and curate GenBank for eDNA metabarcoding: the marine fish assemblage as case study

Claver

Canals

Amezaga

et al. 2022

Preprint

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Expectations are high regarding the potential of eDNA metabarcoding for diversity monitoring. To make this approach suitable for this purpose, the completeness and accuracy of reference databases used for taxonomic assignment of eDNA sequences are among the challenges to be tackled. Yet, despite ongoing efforts to increase coverage of reference databases, sequences for key species are lacking, and incorrect records in widely used repositories such as GenBank have been reported. This compromises eDNA metabarcoding studies, especially for high diverse groups such as marine fishes. Here, we have developed a workflow that evaluates the completeness and accuracy of GenBank. For a given combination of species and barcodes a gap analysis is performed, and potentially erroneous sequences are identified. Our gap analysis based on the four most used genes (cytochrome c oxidase subunit 1, 12S rRNA, 16S rRNA and cytochrome b) for fish eDNA metabarcoding found that COI, the universal choice for metazoans, is the gene covering the highest number of Northeast Atlantic marine fishes (70%), while 12S rRNA, the preferred region for fish-targeting studies, only covered about 50% of the species. The presence of too close and too distant barcode sequences as expected by their taxonomic classification confirms presence of erroneous sequences in GenBank that our workflow can detect and eliminate. Comparing taxonomic assignments of real marine eDNA samples with raw and clean reference databases for the most used 12S rRNA barcodes (teleo and MiFish), we found that both barcodes perform differently, and demonstrated that the application of the database cleaning workflow can result in drastic changes in community composition. Besides providing an automated tool for reference database curation, this study confirms the need to increase 12S rRNA reference sequences for European marine fishes, encourages the use of a multi-marker approach for better community composition assessment, and evidences the dangers of taxonomic assignments by directly querying GenBank.

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Combined Use of eDNA Metabarcoding and Bottom Trawling for the Assessment of Fish Biodiversity in the Zhoushan Sea

Cited by 14 publications

References 63 publications

Novel assay for endangered Hong Kong grouper (Epinephelus akaara) to assess eDNA shedding, decay, and population status

Novel assay for endangered Hong Kong grouper (Epinephelus akaara) to assess eDNA shedding, decay, and population status

An automated workflow to assess completeness and curate GenBank for environmental DNA metabarcoding: The marine fish assemblage as case study

An automated workflow to assess completeness and curate GenBank for eDNA metabarcoding: the marine fish assemblage as case study

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