Sturgeons in large rivers: detecting the near-extinct needles in a haystack via eDNA metabarcoding from water samples

Meulenbroek, Paul; Hein, Thomas; Friedrich, Thomas; Valentini, Alice; Erős, Tibor; Michael, Schabuss; Horst, Zornig; Lenhardt, Mirjana; Pekárik, Ladislav; Jean, Pauline; Déjean, Tony; Pont, Didier

doi:10.1007/s10531-022-02459-w

Cited by 5 publications

(14 citation statements)

References 46 publications

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“…Moreover, the presence of sturgeons in all spring and autumn samples may indicate their sufficient abundance, although species affiliation remains questionable. As identification of sturgeon species by classical species‐specific detection is currently challenging, total eDNA analysis with high‐throughput sequencing may be a solution (Meulenbroek et al., 2022; Yang et al., 2023). Thus, our experimental studies contribute to the methodology of free eDNA analysis and expand the potential for monitoring sturgeon fishes of the Ural River basin creating prerequisites for location mapping and quantitative assessment of population status using eDNA.…”

Section: Resultsmentioning

confidence: 99%

“…It is known that under mesocosm conditions, eDNA can be detected for up to 2 or 3 weeks (Dejean et al., 2012; Thomsen, Kielgast, Iversen, Wiuf, et al., 2012), or even 58 days according to one study (Strickler et al., 2015). Target sturgeon eDNA was detected in low numbers (two replicates among 25 eDNA samples) for a single individual from the reservoir within a week after the individual was removed (Meulenbroek et al., 2022; Strickler et al., 2015). For marine systems, a period of up to 48 h has been suggested for optimal processing before eDNA starts to degrade (Collins et al., 2018).…”

Section: Resultsmentioning

confidence: 99%

“…As an alternative to species-specific detection, metabarcoding using universal "teleo" primers amplifying the 12S mtDNA fragment successfully detected Danube sturgeons (Meulenbroek et al, 2022;Pont et al, 2023). This study proposes an efficient eDNA isolation technique and demonstrates the effective use of eDNA as a tool for detecting and obtaining a snapshot of the seasonal distribution of rare and endangered Ural-Caspian sturgeons in the Lower Ural River (~1084 km).…”

Section: Status In Kazakhstanmentioning

confidence: 94%

“…Despite the ongoing development of species-specific primers for sturgeons, their reliable species identification remains questionable. The difficulty in their genetic determination lies in the high degree of similarity between different species of Eurasian sturgeon (for example, only one base differentiates Acipenser stellatus from A. ruthenus) and consequently their frequent interspecific hybridization (Ludwig et al, 2002;Meulenbroek et al, 2022) Specific primers are being developed for the unique mitochondrial haplotypes of the target species within this family. Thus, the existing test systems for distinguishing native (A. sturio and A. oxyrinchus) and non-native (A. baerii, A. gueldenstaedtii, A. ruthenus, and A. stellatus) sturgeon species in Danish marine waters have proven to be efficient in both in silico and in vivo sampling.…”

Section: Status In Kazakhstanmentioning

confidence: 99%

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Environmental DNA reveals the ecology and seasonal migration of a rare sturgeon species in the Ural River

Abileva,

Turzhanova,

Zhamangara

et al. 2024

Environmental DNA

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Environmental DNA (eDNA) technology is an essential tool for monitoring living organisms in ecological research. The combination of eDNA methods with traditional methods of ecological observation can significantly improve the study of the ecology of rare species. Here, we present the development and application of an eDNA approach to identify rare sturgeons in the lower reaches of the Ural River (Zhaiyk) (~1084 km). The presence of representatives of the genus Sturgeon was detected at all sites in spring (nine sites) and autumn (ten sites) while they were absent during the summer period, consistent with their semi‐anadromous ecology. Detection in spring and autumn indicates the passage of spring and winter forms to the lower and upper spawning grounds, respectively. This study confirms the difficulties of species‐specific identification of Eurasian sturgeon and provides the first documented eDNA detection of specimens of the genus Sturgeon in the Ural River. It also provides a biogeographic snapshot of their distribution, experimentally confirming their seasonal migrations in the lower reaches of the river. The successful detection of sturgeon motivates further eDNA surveys of this and other fish species for accurate species identification and population assessment, opening up prospects for the management of these threatened species.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Status In Kazakhstanmentioning

confidence: 94%

Section: Status In Kazakhstanmentioning

confidence: 99%

See 2 more Smart Citations

Environmental DNA reveals the ecology and seasonal migration of a rare sturgeon species in the Ural River

Abileva,

Turzhanova,

Zhamangara

et al. 2024

Environmental DNA

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show abstract

“…abundance and age structure) and dispersal of the translocated fish that must combine various monitoring methods (such as those implemented in the present study) depending on the cost‐effectiveness in both economic and human resources. Species‐specific eDNA monitoring is increasingly used for assessing the distribution of rare or scarce species and has been shown to be more sensitive than conventional electrofishing and optical methods (Beng & Corlett, 2020; Brys et al, 2020; Dimond et al, 2022; Goldberg, Strickler & Fremier, 2018; Meulenbroek et al, 2022; Rojahn et al, 2021; Sepulveda et al, 2019). It should be noted that the presence of the Corfu killifish was confirmed with underwater footage and electrofishing only in the spring area, which was the release site, but these two methods did not detect the species in the mid‐section or lower section of the stream, indicating poor dispersal.…”

Section: Discussionmentioning

confidence: 99%

Designing, implementing and monitoring the translocation of a highly threatened freshwater fish

Kalogianni,

Leris,

Vardakas

et al. 2024

Aquatic Conservation

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Conservation translocations are increasingly applied for the protection of threatened species, but their success depends strongly on pre‐release preparatory work and strict implementation methodology, followed by post‐release monitoring. The aim of this work was to implement a conservation translocation that involved (a) the design and application of a pre‐release feasibility assessment tool for the selection of the translocation water bodies; (b) the translocation of 77 individuals of the highly threatened freshwater Corfu killifish Valencia letourneuxi in 2015, 2016 and 2017; and (c) a 5‐year post‐release monitoring with multiple methods. After initial pre‐screening, a feasibility assessment was conducted on two potential release water bodies (R‐WBs) and on four potential source water bodies (S‐WBs), using a custom‐made feasibility assessment tool that incorporated 14 criteria for the potential R‐WBs, related to the species' habitat requirements, human pressures and technical issues. Two criteria were applied to the potential S‐WBs, on source population availability and on its genetic compatibility to the release area. Post‐release monitoring (2017–2022) was conducted with fish sampling methods, underwater video recording and/or using environmental DNA (eDNA). The feasibility assessment tool gave one R‐WB high, positive score, and one S‐WB met both criteria, thus these selected as the translocation water bodies. Despite the low number of founders, the establishment of a self‐reproducing population was finally confirmed in 2022 in the R‐WB, initially with video recording and subsequently by fish sampling and eDNA. This study highlights the importance of pre‐release feasibility assessment, the use of multiple post‐release monitoring methods and actions to secure the long‐term viability of the translocated population. The feasibility assessment tool and the methodological protocol can easily be modified for successful application to other freshwater fish species, with different habitat requirements, current and future human pressures and genetic constraints.

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A review of the assessment techniques used for population monitoring at different life stages of sturgeons

Haxton,

Gessner,

Friedrich

2023

Environ. Rev.

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Sturgeons are a unique group of species which were historically widespread across the northern hemisphere. According to the latest IUCN Red list assessment, more than 80% of the species globally are threatened with extinction, making it essential to identify the life stages at which they are suffering from impacts the most while at the same time to compare among river systems and populations based upon standardized assessment techniques. Sturgeon all have similar, but not identical, life-history strategies. Therefore, monitoring techniques developed for one sturgeon species would be applicable to most other species. Monitoring can be conducted at each life stage. However, while each life stage will provide different information about the population, not all will necessarily help to assess population trend or status. Life stages that are highly variable prove to be less quantifiable even after expending very high effort. Collectively, these assessments could be very informative on population status, limitations, and trends. However, monitoring at each stage is time consuming and expensive. Clearly defined objectives are therefore required when embarking on an assessment program. The objective of this study was to review the assessment techniques used for the different life stages including eggs, drifting larvae, age-0, juveniles, subadults and adults to provide a common basis for population assessments that can be standardized to some extent and thus facilitate comparisons between the results obtained. For this purpose, this review presented the most common assessment techniques for each life stage, assessed the pros and cons of assessing each life stage, and examined if the methodology was qualitative or quantitative to assist in establishing long-term monitoring initiatives.

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Sturgeons in large rivers: detecting the near-extinct needles in a haystack via eDNA metabarcoding from water samples

Cited by 5 publications

References 46 publications

Environmental DNA reveals the ecology and seasonal migration of a rare sturgeon species in the Ural River

Environmental DNA reveals the ecology and seasonal migration of a rare sturgeon species in the Ural River

Designing, implementing and monitoring the translocation of a highly threatened freshwater fish

A review of the assessment techniques used for population monitoring at different life stages of sturgeons

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