Forecasting pollination declines through DNA barcoding: the potential contributions of macroecological and macroevolutionary scales of inquiry

Vamosi, Jana C.; Gong, Ya‐Jun; Adamowicz, Sarah J.; Packer, Laurence

doi:10.1111/nph.14356

Cited by 20 publications

(19 citation statements)

References 90 publications

(127 reference statements)

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“…Metabarcoding is also being used for increasingly novel applications, such as the study of trophic interactions, either through direct analyses of gut contents, or via the reconstruction of networks of multi-trophic assemblages (Bohan et al, 2017). Other fields of research such as metacommunity theory (Miller et al, 2018), and ecosystem function relationships (Vamosi et al, 2017) also benefit where previously the statistical relationships were obscured by coarse taxonomic resolution. These applications could generate substantial added value to existing or future biomonitoring programs (Compson et al, 2018).…”

Section: Discussionmentioning

confidence: 99%

Studying Ecosystems With DNA Metabarcoding: Lessons From Biomonitoring of Aquatic Macroinvertebrates

et al. 2019

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Section: Discussionmentioning

confidence: 99%

Studying Ecosystems With DNA Metabarcoding: Lessons From Biomonitoring of Aquatic Macroinvertebrates

et al. 2019

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“…We investigated pollinator food niches and networks by using DNA metabarcoding data that were obtained in a previous study at the site (Pornon, Andalo, Burrus, & Escaravage, 2017). Metabarcoding has already been shown in several studies to successfully identify plant taxa in pollen mixtures (Cornman, Otto, Iwanowicz, & Pettis, 2015;Galimberti et al, 2014;Galliot et al, 2017;Lucas et al, 2018;Macgregor et al, 2019;Pornon et al, 2016;Richardson et al, 2019) at a higher taxonomic resolution than microscopy (Vamosi, Gong, Adamowicz, & Packer, 2017). A recent meta-analysis (Lamb et al, 2018) concluded on a significant quantitative positive linear relationship between the proportion of sequence reads and the proportion of species in original mixtures from very different origins (stomach contents, feces, airborne pollen, etc.).…”

Section: Introductionmentioning

confidence: 99%

Pollinator specialization increases with a decrease in a mass‐flowering plant in networks inferred from DNA metabarcoding

Pornon

Baksay

Escaravage

et al. 2019

Ecology and Evolution

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How native mass‐flowering plants affect the specialization of insects at individual and species levels and the consequences for pollination networks have received much less attention than for mass‐flowering crops or alien species and basically remain unexplored. Using existing DNA metabarcoding data on the pollen loads of 402 flower‐visiting insects, we assessed the effects of a native mass‐flowering plant of high reward quality, the shrub Rhododendron ferrugineum, on pollination networks by investigating: (a) the food niches of individual pollinators and pollinator species and (b) the structure of individual and species networks in subalpine heathland patches with extremely contrasted densities of R. ferrugineum. Relative to its high abundance in high‐density patches, the shrub was greatly underrepresented and did not dominate individual's or species' generalized networks, rather individual and species specialization increased with a decrease in R. ferrugineum density. Furthermore, individuals of the more generalist dipteran Empididae species tended to extend exclusive interactions with rare plant species in low‐density networks. The same trend was observed in the more specialist Apidea but toward rare species in high‐density networks. Our results reveal a quite paradoxical view of pollination and a functional complementarity within networks. Niche and network indices mostly based on the occurrence of links showed that individual pollinators and pollinator species and networks were highly generalized, whereas indices of link strength revealed that species and above all individuals behave as quite strict specialists. Synthesis. Our study provides insights into the status of a native mass‐flowering plant in individual's and insect species' food niches and pollination networks. It revealed that a generalist pollinator species can be highly specialized at the individual level and how rare plant species coexisting with mass‐flowering plants may nevertheless be visited.

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“…Once established, such databases can become a valuable toolkit for molecular ecologists to identify plant material such as pollen, seeds, seedlings, roots, and even bark fragments (Liu et al, 2018). DNA barcoding is now becoming essential for a broad range of ecological applications, such as biodiversity assessments (Lahaye et al, 2008;Yoccoz et al, 2012), establishing pollination networks (Bell et al, 2016;Vamosi, Gong, Adamowicz & Packer, 2017), diet analysis (Kartzinel et al, 2015;Valentini, Pompanon & Taberlet, 2009), and determining the mechanisms underlying community assembly (Kress et al, 2009(Kress et al, , 2010Pei et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

DNA barcoding herbaceous and woody plant species at a subalpine forest dynamics plot in Southwest China

Tan

Luo

Hollingsworth

et al. 2018

Ecology and Evolution

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Although DNA barcoding has been widely used to identify plant species composition in temperate and tropical ecosystems, relatively few studies have used DNA barcodes to document both herbaceous and woody components of forest plot. A total of 201 species (72 woody species and 129 herbaceous species) representing 135 genera distributed across 64 families of seed plants were collected in a 25 ha CForBio subalpine forest dynamics plot. In total, 491 specimens were screened for three DNA regions of the chloroplast genome (rbcL, matK, and trnH‐psbA) as well as the internal transcribed spacers (ITS) of nuclear ribosomal DNA. We quantified species resolution for each barcode separately or in combination using a ML tree‐based method. Amplification and sequencing success were highest for rbcL, followed by trnH‐psbA, which performed better than ITS and matK. The rbcL + ITS barcode had slightly higher species resolution rates (88.60%) compared with rbcL + matK (86.60%) and rbcL + trnH‐psbA (86.01%). The addition of trnH‐psbA or ITS to the rbcL + matK barcode only marginally increased species resolution rates, although in combination the four barcodes had the highest discriminatory power (90.21%). The situations where DNA barcodes did not discriminate among species were typically associated with higher numbers of co‐occurring con‐generic species. In addition, herbaceous species were much better resolved than woody species. Our study represents one of the first applications of DNA barcodes in a subalpine forest dynamics plot and contributes to our understanding of patterns of genetic divergence among woody and herbaceous plant species.

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Forecasting pollination declines through DNA barcoding: the potential contributions of macroecological and macroevolutionary scales of inquiry

Cited by 20 publications

References 90 publications

Studying Ecosystems With DNA Metabarcoding: Lessons From Biomonitoring of Aquatic Macroinvertebrates

Studying Ecosystems With DNA Metabarcoding: Lessons From Biomonitoring of Aquatic Macroinvertebrates

Pollinator specialization increases with a decrease in a mass‐flowering plant in networks inferred from DNA metabarcoding

DNA barcoding herbaceous and woody plant species at a subalpine forest dynamics plot in Southwest China

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