Environmental DNA analysis as a non‐invasive quantitative tool for reproductive migration of a threatened endemic fish in rivers

Maruyama, Atsushi; Sugatani, Kousuke; Watanabe, Kenji; Yamanaka, Hiroki; Imamura, Akio

doi:10.1002/ece3.4653

Cited by 44 publications

(43 citation statements)

References 43 publications

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“…In addition, eDNA concentrations can reflect the relative abundance of target species in aquatic environments (Eichmiller et al, ; Mizumoto, Urabe, Kanbe, Fukushima, & Araki, ; Takahara, Minamoto, Yamanaka, Doi, & Kawabata, ; Yates, Fraser, & Derry, ), even in streams (Doi et al, ; Lacoursière‐Roussel, Côté, Leclerc, & Bernatchez, ; Pilliod, Goldberg, Arkle, Waits, & Richardson, ; Tillotson et al, ). This technique is also useful for detecting the seasonal habitat changes of migratory fishes (Laramie, Pilliod, & Goldberg, ; Maruyama, Sugatani, Watanabe, Yamanaka, & Imamura, ; Yamanaka & Minamoto, ).…”

Section: Introductionmentioning

confidence: 99%

Environmental DNA monitoring for short‐term reproductive migration of endemic anadromous species, Shishamo smelt (Spirinchus lanceolatus)

et al. 2019

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Monitoring reproductive migration is essential for the conservation of anadromous species. Shishamo smelt (Spirinchus lanceolatus) is endemic to Hokkaido, the northernmost large island in Japan. S. lanceolatus is an anadromous species that is known to migrate into rivers for a very short period in early winter. While this species has a special value for local fisheries, the catch amount has drastically declined in the last few decades. Information about S. lanceolatus reproductive migration dynamics is limited, which prevents them from being efficiently managed as a resource. In this study, we used environmental DNA (eDNA) methods as a noninvasive molecular tool for estimating presence/absence and abundance/biomass of S. lanceolatus during their migration into rivers. We developed a species‐specific qPCR system for S. lanceolatus, examining (a) temporal variation in S. lanceolatus eDNA concentrations compared with catch data gathered by traditional methods and (b) variability of migratory patterns among river systems. In a core river for their spawning migration, we consistently detected S. lanceolatus eDNA throughout the spawning season, and the temporal distribution of eDNA concentration was consistent with that of the number of migrating S. lanceolatus estimated by catch survey data. In addition, we were able to detect S. lanceolatus eDNA even from rivers without any official record of their migration. Among rivers with eDNA detection, the relative eDNA concentrations varied, indicating that the population biomass differs largely among the river populations. Our study suggests that eDNA detection systems are useful for tracking reproductive migration of S. lanceolatus at fine spatio‐temporal scales.

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Section: Introductionmentioning

confidence: 99%

Environmental DNA monitoring for short‐term reproductive migration of endemic anadromous species, Shishamo smelt (Spirinchus lanceolatus)

et al. 2019

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“…Tank experiments in our previous study (Mizumoto et al, 2018) revealed a high sensitivity of the Sakhalin taimen eDNA detection system and its potential for biomass estimation in flowing waters. In general, however, the detectability of eDNA from aquatic organisms is affected by both biotic and abiotic factors such as the range from the target species, sizes and density of them, water temperature, pH, water current, flow volume and so on (e.g., Barnes et al, 2014;Song et al, 2017; Maruyama et al, 2018;Kasai et al, 2020). Therefore, actual detectability of Sakhalin taimen's eDNA in the natural river systems would rather be limited, and we are almost certain that we missed eDNA detections from some river systems, especially from large rivers or areas with low density of Sakhalin taimen.…”

Section: Discussionmentioning

confidence: 99%

“…These techniques have many advantages for detecting target species in the field, such as objectivity, high detectability, and reduced sampling effort. They have been shown to be especially useful for monitoring endangered species that are otherwise difficult to capture or observe (Fukumoto et al, 2015;Laramie et al, 2015;Pfleger et al, 2016;Carlsson et al, 2017;Maruyama et al, 2018;Atkinson et al, 2019;Iwai et al, 2019). However, the previous studies tended to apply the eDNA techniques to specific freshwater/saltwater systems or to relatively small geographical regions.…”

Section: Introductionmentioning

confidence: 99%

An Environmental DNA Survey on Distribution of an Endangered Salmonid Species, Parahucho perryi, in Hokkaido, Japan

Mizumoto

Mitsuzuka²,

Araki

2020

Front. Ecol. Evol.

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For protecting endangered species, precise understanding of their distribution is crucial. However, it is often very difficult to estimate at a large scale with conventional methods (e.g., casting nets or electrofishing for aquatic species) because of their low densities in the wild. Sakhalin taimen (Parahucho perryi) is one of the largest and most critically endangered freshwater salmonid fishes in the world. In this study, we applied an environmental DNA (eDNA) detection system for this species to 120 rivers in Hokkaido, the second largest main island of Japan. We successfully detected eDNA from Sakhalin taimen in seven rivers (5.8%). Although these rivers were widely distributed across the island, > 95% of the total amounts of eDNA were detected from region-A and-I, indicating that local populations in the other regions of Hokkaido are very small and on the brink of extinction. In addition, principal component analyses based on the eDNAbased estimation of Sakhalin taimen distribution and GIS revealed their distribution determinants including limited topographic relief of watershed as well as presence of wetlands and lagoons. Our results suggest that eDNA-based detection systems are an efficient means of monitoring the population status of endangered freshwater species at large scales.

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“…Recently, the use of environmental DNA (eDNA), which is the trace amounts of DNA discharged by organisms via excretion of urine, feces, body cells, eggs, etc., enables the non-invasive detection of species and their approximate relative quantification 6 – 9 . Whole fish communities can be characterized from eDNA using high throughput sequencing or specific amplicons—a process known as eDNA metabarcoding 10 – 14 .…”

Section: Introductionmentioning

confidence: 99%

Aquatic suspended particulate matter as source of eDNA for fish metabarcoding

Díaz

Wege

Tang

et al. 2020

Sci Rep

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The use of environmental DNA (eDNA) for monitoring aquatic macrofauna allows the non-invasive species determination and measurement of their DNA abundance and typically involves the analysis of eDNA captured from water samples. In this proof-of-concept study, we focused on the novel use of eDNA extracted from archived suspended particulate matter (SPM) for identifying fish species using metabarcoding, which benefits from the prospect of retrospective monitoring and also analysis of fish communities through time. We used archived SPM samples of the German Environmental Specimen Bank (ESB), which were collected using sedimentation traps from different riverine points in Germany. Environmental DNA was extracted from nine SPM samples differing in location, organic content, and porosity (among other factors) using four different methods for the isolation of high-quality DNA. Application of the PowerSoil DNA Isolation Kit with an overnight incubation in lysis buffer, resulted in DNA extraction with the highest purity and eDNA metabarcoding of these eDNA fragments was used to detect a total of 29 fish taxa among the analyzed samples. Here we demonstrated for the first time that SPM is a promising source of eDNA for metabarcoding analysis, which could provide valuable retrospective information (when using archived SPM) for fish monitoring, complementing the currently used approaches. Suspended particulate matter (SPM) is one of the fundamental elements in aquatic ecosystems (in addition to the water phase and the sediment) and, because it can act as a source and transport mechanism for aquatic particles, is useful for assessing the contamination of surface water 1. As such, SPM monitoring is an important consideration under the Water Framework Directive 2000/60/EC (WFD) 2 and is used in European regulatory chemical monitoring programs (e.g. in Germany 3 and Netherlands 4). Among the other quality elements monitored under the WFD is the state of the aquatic macrofauna (e.g. fish communities), which provide a good measure for the biological and chemical status of the water bodies. SPM monitoring for this context is yet to be explored. Traditionally, the response of biotic communities to human-induced stressors are assessed using taxonomic approaches (e.g. electrofishing), but these are typically limited by their scalability, restricted temporal and spatial resolution, invasiveness, and the high level of expertise required to identify the species 5. Moreover, rare taxa (e.g. invasive species-Neogobius melanostomus, or migratory species-Salmo salar, Anguilla anguilla, Alosa alosa) are especially difficult to monitor because they require an intensive survey effort. DNA-based tools can overcome many of the above-mentioned problems and could complement traditional approaches and biomonitoring strategies 6. Recently, the use of environmental DNA (eDNA), which is the trace amounts of DNA discharged by organisms via excretion of urine, feces, body cells, eggs, etc., enables the non-invasive detection of species and their approxima...

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Environmental DNA analysis as a non‐invasive quantitative tool for reproductive migration of a threatened endemic fish in rivers

Cited by 44 publications

References 43 publications

Environmental DNA monitoring for short‐term reproductive migration of endemic anadromous species, Shishamo smelt (Spirinchus lanceolatus)

Environmental DNA monitoring for short‐term reproductive migration of endemic anadromous species, Shishamo smelt (Spirinchus lanceolatus)

An Environmental DNA Survey on Distribution of an Endangered Salmonid Species, Parahucho perryi, in Hokkaido, Japan

Aquatic suspended particulate matter as source of eDNA for fish metabarcoding

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