Money spider dietary choice in pre‐ and post‐harvest cereal crops using metabarcoding

Cuff, Jordan P.; Drake, Lorna E.; Tercel, Maximillian P. T. G.; Stockdale, Jennifer E.; Orozco‐terWengel, Pablo; Bell, James R.; Vaughan, Ian P.; Müller, Carsten T.; Symondson, William Oliver Christian

doi:10.1111/een.12957

Cited by 37 publications

(56 citation statements)

References 80 publications

(113 reference statements)

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“…This is especially true of invertebrate predators and/or prey, where microscopic identification is frequently impossible. Metabarcoding can resolve prey taxa to species level in systems where this would be otherwise impossible, e.g., in fluid‐feeding invertebrates such as spiders (Cuff et al, 2020; Krehenwinkel et al, 2017), most insects (Pompanon et al, 2012), and centipedes (Eitzinger et al, 2018). Similarly, there are many prey species that do not possess morphologically identifiable structures that resist digestion, such as earthworms (Brown et al, 2012).…”

Section: The Benefits and Limitations Of Dietary Analysis Using Dna Metabarcodingmentioning

confidence: 99%

“…These short, degraded sections of DNA are, however, often outcompeted during amplification by the fresh and abundant DNA of the focal consumer where the PCR primers used amplify both. This can, however, be circumvented by using primers that amplify a broad taxonomic range of consumed species but do not also amplify host DNA (Cuff et al, 2020; Lafage et al, 2020; Piñol et al, 2014; Vestheim & Jarman, 2008) or by using blocking probes (Vestheim & Jarman, 2008), both of which can introduce taxonomic biases to those prey detected (Murray et al, 2011; Piñol et al, 2015, 2019). For analysing omnivorous diets, using multiple HTS markers is optimal to determine the complete range of consumed prey given few options are currently available for the adequate amplification of animals and plants with a single primer pair.…”

Section: The Benefits and Limitations Of Dietary Analysis Using Dna Metabarcodingmentioning

confidence: 99%

“…By limiting amplification of the host, however, a greater read depth is ensured which is increasingly likely to accurately capture the true diversity of consumed species. This choice of method can be most acute when the predator is closely related to its prey, for example, when a spider is eating other spiders (Cuff et al, 2020), requiring a fine balance between taxonomic bias and loss of sequencing depth. Few problems are encountered where the consumer is distantly related, such as an herbivore ingesting plant material.…”

Section: The Benefits and Limitations Of Dietary Analysis Using Dna Metabarcodingmentioning

confidence: 99%

“…Alternatively, some studies accept amplification of host DNA and remove reads conspecific with the host post-bioinformatics (Piñol et al, 2014); in such studies over 95% of the sample read depths can be lost to host DNA (Cuff et al, 2020). By limiting amplification of the host, however, a greater read depth is ensured which is increasingly likely to accurately capture the true diversity of consumed species.…”

Section: Limitationsmentioning

confidence: 99%

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The problem of omnivory: A synthesis on omnivory and DNA metabarcoding

2021

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Dietary analysis using DNA metabarcoding is a powerful tool that is increasingly being used to further our knowledge of trophic interactions in highly complex food webs but is not without limitations. Omnivores, the most generalist of consumers, pose unique challenges when using such methods. Here, we provide the rationale to understand the problems associated with analysing the complex diets of omnivores. By reviewing existing metabarcoding studies of omnivorous diet, and constructing hypothetical scenarios arising from each, we outline that great caution is required when interpreting sequencing data in such cases. In essence, the problems of accidental consumption and secondary ingestion are significant sources of error when investigating omnivorous diets. The integration of multiple high throughput sequencing markers increases the taxonomic breadth of taxa detected but we reveal how some detections may be misleading. Disentangling which taxa have been deliberately or accidentally consumed by the focal omnivore is challenging and can falsely emphasise those that were not intentionally consumed, obscuring biologically meaningful interactions. Although we suggest ways to disentangle these issues, we urge that the results of such analyses should be interpreted with caution and all possible scenarios for the presence of biota within omnivores given due consideration.

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Section: The Benefits and Limitations Of Dietary Analysis Using Dna Metabarcodingmentioning

confidence: 99%

Section: The Benefits and Limitations Of Dietary Analysis Using Dna Metabarcodingmentioning

confidence: 99%

Section: The Benefits and Limitations Of Dietary Analysis Using Dna Metabarcodingmentioning

confidence: 99%

Section: Limitationsmentioning

confidence: 99%

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The problem of omnivory: A synthesis on omnivory and DNA metabarcoding

2021

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“…DNA was dried and stored in preservation plates (Ivanova & Kuzmina, 2013) and shipped to Queen Mary University of London for polymerase chain reaction (PCR) and sequencing. PCR was conducted using two different primer sets, targeting separate regions of the F I G U R E 1 Location of sample collection sites in Madagascar mitochondrial cytochrome c oxidase subunit 1 gene (CO1), one of 157 bp (Zeale et al, 2011) and the other 312 bp (Cuff et al, 2020). The mitochondrial cytochrome c oxidase subunit 1 gene has been recognized as a particularly useful metabarcoding gene, as it is nearly universal across animals, but substitutions allow for species-level differentiation (Hebert et al, 2003).…”

Section: Laboratory Analysismentioning

confidence: 99%

Exploratory analysis reveals arthropod consumption in 10 lemur species using DNA metabarcoding

Rowe

Donohue

Clare

et al. 2021

American J Primatol

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Arthropods (insects, spiders, etc.) can fulfill major nutritional requirements for primates, particularly in terms of proteins, fats, vitamins, and minerals. Yet, for many primate species we know very little about the frequency and importance of arthropod consumption. Traditional methods for arthropod prey identification, such as behavioral observations and fecal dissections, offer limited taxonomic resolution and, as a result, underestimate true diversity. Metabarcoding arthropod DNA from primate fecal samples provides a promising but underused alternative. Here, we inventoried arthropod prey diversity in wild lemurs by sequencing two regions of the CO1 gene. Samples were collected opportunistically from 10 species of lemurs inhabiting three national parks in southern Madagascar using a combination of focal animal follows and live trapping. In total, we detected arthropod DNA in 98 of the 170 fecal samples analyzed. Although all lemur species included in these analyses showed evidence of arthropod consumption, those within the family Cheirogaleidae appeared to consume the highest frequency and diversity of arthropods. To our knowledge, this study presents the first evidence of arthropod consumption in Phaner pallescens, Avahi peyrierasi, and Propithecus verreauxi, and identifies 32 families of arthropods as probable food items that have not been published as lemur dietary items to date. Our study emphasizes the importance of arthropods as a nutritional source and the role DNA metabarcoding can play in elucidating an animal's diet.

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Multi‐marker DNA metabarcoding reveals spatial and sexual variation in the diet of a scarce woodland bird

Stenhouse

Bellamy

Kirby

et al. 2023

Ecology and Evolution

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Avian diet can be affected by site‐specific variables, such as habitat, as well as intrinsic factors such as sex. This can lead to dietary niche separation, which reduces competition between individuals, as well as impacting how well avian species can adapt to environmental variation. Estimating dietary niche separation is challenging, due largely to difficulties in accurately identifying food taxa consumed. Consequently, there is limited knowledge of the diets of woodland bird species, many of which are undergoing serious population declines. Here, we show the effectiveness of multi‐marker fecal metabarcoding to provide in‐depth dietary analysis of a declining passerine in the UK, the Hawfinch (Coccothraustes coccothraustes). We collected fecal samples from (n = 262) UK Hawfinches prior to, and during, the breeding seasons in 2016–2019. We detected 49 and 90 plant and invertebrate taxa, respectively. We found Hawfinch diet varied spatially, as well as between sexes, indicating broad dietary plasticity and the ability of Hawfinches to utilize multiple resources within their foraging environments.

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Money spider dietary choice in pre‐ and post‐harvest cereal crops using metabarcoding

Cited by 37 publications

References 80 publications

The problem of omnivory: A synthesis on omnivory and DNA metabarcoding

The problem of omnivory: A synthesis on omnivory and DNA metabarcoding

Exploratory analysis reveals arthropod consumption in 10 lemur species using DNA metabarcoding

Multi‐marker DNA metabarcoding reveals spatial and sexual variation in the diet of a scarce woodland bird

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