An Rshiny app for modelling environmental DNA data: accounting for false positive and false negative observation error

Diana, Alex; Matechou, Eleni; Griffin, Jim E.; Buxton, Andrew S.; Griffiths, Richard A.

doi:10.1101/2020.12.09.417600

Cited by 11 publications

(19 citation statements)

References 12 publications

(21 reference statements)

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“…We used the single-species, single-season occupancy model proposed by Griffin et al, (2020) using the freely available eDNA Shiny app (https://seak.shiny apps.io/eDNA/) (Diana et al, 2020). This model allows estimating multiple parameters, including the probability that a site is occupied by a species (occupancy, ѱ), the probability of eDNA capture in the environmental samples (capture, θ), and the probability of detection of a species in PCR assays (detectability, p) (Ficetola et al, 2014;Griffin et al, 2020;Guillera-Arroita et al, 2017;Lahoz-Monfort et al, 2016;Schmidt et al, 2013).…”

Section: Edna Metabarcoding Occupancy Detection At Sampling Stages and Error Estimation: Hierarchical Occupancy Analysismentioning

confidence: 99%

Integrating eDNA metabarcoding and simultaneous underwater visual surveys to describe complex fish communities in a marine biodiversity hotspot

Valdivia-Carrillo

Rocha‐Olivares

Reyes‐Bonilla

et al. 2021

Molecular Ecology Resources

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Marine biodiversity can be surveyed using underwater visual censuses and recently with eDNA metabarcoding. Although a promising tool, eDNA studies have shown contrasting results related to its detection scale and the number of species identified compared to other survey methods. Also, its accuracy relies on complete reference databases used for taxonomic assignment and, as other survey methods, species detection may show false-negative and false-positive errors. Here, we compared results from underwater visual censuses and simultaneous eDNA metabarcoding fish surveys in terms of observed species and community composition. We also assess the effect of a custom reference database in the taxonomic assignment, and evaluate occupancy, capture and detection probabilities, as well as error rates of eDNA survey data.We amplified a 12S rRNA fish barcode from 24 sampling sites in the gulf of California.More species were detected with eDNA metabarcoding than with UVC. Because each survey method largely detected different sets of species, the combined approach doubled the number of species registered. Both survey methods recovered a known biodiversity gradient and a biogeographic break, but eDNA captured diversity over a broader geographic and bathymetric scale. Furthermore, the use of a modest-sized custom reference database significantly increased taxonomic assignment. In a subset of species, occupancy models revealed eDNA surveys provided similar or higher detection probabilities compared to UVC. The occupancy value of each species had a large influence on eDNA detectability, and in the false positive and negative error.Overall, these results highlight the potential of eDNA metabarcoding in complementing other established ecological methods for studies of marine fishes. K E Y W O R D Sbiodiversity monitoring, detection probability, eDNA metabarcoding, fish community, occupancy model, reference database, underwater visual census | INTRODUC TI ONUnderstanding spatial patterns and drivers of species presence is a primary task in ecological and evolutionary applications (Guillera-Arroita et al., 2017). However, identifying the complete species components in a particular ecosystem is arduous, especially in hotspots of biodiversity in the marine realm, where fish species represent one of the best-studied groups.Significant advances in the study of fish communities have been achieved through underwater visual censuses (UVC) and, more recently, with environmental DNA (eDNA) metabarcoding (MacNeil et al., 2008;West et al., 2020). UVC relies on multiple trained observers for recording the presence of individual fish within a fixed area. It is a survey method biased against wary, highly mobile organ-

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Section: Edna Metabarcoding Occupancy Detection At Sampling Stages and Error Estimation: Hierarchical Occupancy Analysismentioning

confidence: 99%

Integrating eDNA metabarcoding and simultaneous underwater visual surveys to describe complex fish communities in a marine biodiversity hotspot

Valdivia-Carrillo

Rocha‐Olivares

Reyes‐Bonilla

et al. 2021

Molecular Ecology Resources

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“…The posterior mean estimates of 0.198 for occupancy are comparable to most other estimates for great crested newt pond occupancy in the UK, but lower than the naïve estimate. The lower modelled estimates of occupancy than the naïve estimate suggest that false positives should not be ignored and need to be accounted for statistically using methodologies such as the eDNAShinyApp package used here 23 , 24 , 27 .…”

Section: Discussionmentioning

confidence: 99%

“…We would recommend that, where possible, results from individual sites are interpreted as a probability of site occupancy, based on modelled outputs such as those produced by the eDNAShinyApp R package 23 , 27 . The precision of these models is dependent on sample size.…”

Section: Discussionmentioning

confidence: 99%

“…Secondly, it provides opportunities to explore how occupancy and detection rates are influenced by habitat covariates. Although occupancy modelling has been previously applied to great crested newt eDNA data, the examples have used either localised data 22 , analysis using standard occupancy models 22 or have been presented in the literature in a methodological or model development context 21 , 23 , 24 . As a result, outputs from national data sets have yet to be examined in an ecological context that relate to great crested newt eDNA surveys.…”

Section: Introductionmentioning

confidence: 99%

“…Using an eDNA data set collected from across England, we use the Griffin et al (2020) model 21 via the eDNAShinyApp package 23 , within statistical software R 27 , to examine pond occupancy and false positive and false negative error rates of surveys targeting great crested newt eDNA. This allows us to estimate national pond great crested newt occupancy rates and to consider habitat covariates collected alongside the eDNA samples, or gleaned from location data, to relate pond occupancy to site characteristics.…”

Section: Introductionmentioning

confidence: 99%

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Reliability of environmental DNA surveys to detect pond occupancy by newts at a national scale

Buxton

Diana

Matechou

et al. 2022

Sci Rep

Self Cite

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The distribution assessment and monitoring of species is key to reliable environmental impact assessments and conservation interventions. Considerable effort is directed towards survey and monitoring of great crested newts (Triturus cristatus) in England. Surveys are increasingly undertaken using indirect methodologies, such as environmental DNA (eDNA). We used a large data set to estimate national pond occupancy rate, as well as false negative and false positive error rates, for commercial eDNA protocols. Additionally, we explored a range of habitat, landscape and climatic variables as predictors of pond occupancy. In England, 20% of ponds were estimated to be occupied by great crested newts. Pond sample collection error rates were estimated as 5.2% false negative and 1.5% false positive. Laboratory error indicated a negligible false negative rate when 12 qPCR replicates were used. Laboratory false positive error was estimated at 2% per qPCR replicate and is therefore exaggerated by high levels of laboratory replication. Including simple habitat suitability variables into the model revealed the importance of fish, plants and shading as predictors of newt presence. However, variables traditionally considered as important for newt presence may need more precise and consistent measurement if they are to be employed as reliable predictors in modelling exercises.

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Mammalian eDNA on herbaceous vegetation? Validating a qPCR assay for detection of an endangered rodent

et al. 2022

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Vegetation is an underutilized medium for environmental DNA (eDNA) sampling.eDNA methods leveraging water as a substrate exclude application to many terrestrial species. The use of eDNA to detect small mammals can complement current survey approaches (live capturing, track plating, and camera trapping) while reducing risks to the animals. The endangered New Mexico meadow jumping mouse (Zapus hudsonius luteus) is specialized to herbaceous riparian zones, making it an ideal candidate for developing a terrestrial eDNA detection method. We developed a species-specific assay for quantitative real-time PCR, then tested the long-term persistence of jumping mouse eDNA on plant material using four herbaceous day nests collected three to six months after occupancy. We conducted a field trial using sterile cotton swabs at six locations along two occupied streams to evaluate our assay's capability to detect present-day eDNA. Each of 60 swabs was used to swab a 0.50 m 2 area along streamside transects that included vegetation such as forbs, grasses, and sedges. We also opportunistically swabbed plants (n = 9) following visual observation of jumping mice.We determined the limit of detection for both assays are fewer than eight copies per reaction. We detected eDNA in three of four nests. From field trial samples, we successfully detected the species from randomly swabbed vegetation (N = 3), and four of nine swabs from vegetation recently used by individuals. Further work is required to develop a robust survey method using this eDNA detection approach. Our study demonstrated that mammalian eDNA can persist on nest vegetation long after the animal was present, highlighting the promise of using eDNA from plants to detect rare or endangered terrestrial species.

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An Rshiny app for modelling environmental DNA data: accounting for false positive and false negative observation error

Cited by 11 publications

References 12 publications

Integrating eDNA metabarcoding and simultaneous underwater visual surveys to describe complex fish communities in a marine biodiversity hotspot

Integrating eDNA metabarcoding and simultaneous underwater visual surveys to describe complex fish communities in a marine biodiversity hotspot

Reliability of environmental DNA surveys to detect pond occupancy by newts at a national scale

Mammalian eDNA on herbaceous vegetation? Validating a qPCR assay for detection of an endangered rodent

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