2016
DOI: 10.1139/gen-2015-0229
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The use of DNA barcodes in food web construction—terrestrial and aquatic ecologists unite!

Abstract: By depicting who eats whom, food webs offer descriptions of how groupings in nature (typically species or populations) are linked to each other. For asking questions on how food webs are built and work, we need descriptions of food webs at different levels of resolution. DNA techniques provide opportunities for highly resolved webs. In this paper, we offer an exposé of how DNA-based techniques, and DNA barcodes in particular, have recently been used to construct food web structure in both terrestrial and aquat… Show more

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Cited by 105 publications
(108 citation statements)
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References 255 publications
(363 reference statements)
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“…The field of trophic ecology has seen a substantial increase in the number of available techniques and applications across aquatic and terrestrial taxa within the last half century (Layman et al, 2012(Layman et al, , 2015Christiansen et al, 2015;Nielsen et al, 2015;Young et al, 2015;Roslin and Majaneva, 2016). More recently, there has been a growing number of studies moving from traditional stomach-content analysis, which may provide a potentially limited view due to differences in digestibility among prey species (Hyslop, 1980), to time-integrated biochemical methods (reviewed in Traugott et al, 2013;Pethybridge et al, 2018).…”
Section: Introductionmentioning
confidence: 99%
“…The field of trophic ecology has seen a substantial increase in the number of available techniques and applications across aquatic and terrestrial taxa within the last half century (Layman et al, 2012(Layman et al, , 2015Christiansen et al, 2015;Nielsen et al, 2015;Young et al, 2015;Roslin and Majaneva, 2016). More recently, there has been a growing number of studies moving from traditional stomach-content analysis, which may provide a potentially limited view due to differences in digestibility among prey species (Hyslop, 1980), to time-integrated biochemical methods (reviewed in Traugott et al, 2013;Pethybridge et al, 2018).…”
Section: Introductionmentioning
confidence: 99%
“…By examining gut contents or faeces with DNA barcoding (sometimes termed molecular scatology), we can examine trophic interactions in a non-invasive way which also has the potential for higher taxonomic resolution . This high-resolution analysis of interactions holds promise for improving our understanding of entire interaction networks (Roslin and Majaneva 2016) and, when applied to vulnerable farmland predators (e.g., aerial insectivores), could provide valuable information on subtle differences in how species use habitats set aside for conservation.…”
Section: Characterising Trophic Interactionsmentioning
confidence: 99%
“…Programmes and data cleaning steps vary between research groups; the different clustering methods and data cleaning steps can considerably change the estimate of MOTU diversity (Brandon-Mong et al 2015;Clare et al 2016). Analysis of how bioinformatics pipelines affect ecological conclusions will be valuable, but as yet they are rare (although see Clare et al 2016;Roslin and Majaneva 2016).…”
Section: Issues and Implementationmentioning
confidence: 99%
“…With the addition of DNA barcode data, nodes (species units) and links among nodes (species interactions) become better resolved than when using traditional methods alone for identifying specimens and, especially, their gut contents. Among the multiple case studies that they highlight (see references therein), Roslin and Majaneva (2016) review how a focal ecosystem in Greenland-whose plant and animal species have been comprehensively DNA barcoded-has been shown to be more complex and more densely linked than would be concluded with traditional methods. These interesting findings stress the importance of expanding this line of work; applying the same methods elsewhere would permit exploration of the generality of these patterns among taxa and habitat types and to test for potential large-scale trends, such as latitudinal gradients in food web structure.…”
Section: Transitioning From Barcodes To Biomesmentioning
confidence: 99%