Building-Up of a DNA Barcode Library for True Bugs (Insecta: Hemiptera: Heteroptera) of Germany Reveals Taxonomic Uncertainties and Surprises

Raupach, Michael J.; Hendrich, Lars; Küchler, Stefan; Deister, Fabian; Morinière, Jérôme; Goßner, Martin M.

doi:10.1371/journal.pone.0106940

Cited by 100 publications

(98 citation statements)

References 84 publications

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“…Several scientific publications have resulted from the first phase of GBOL and the Barcoding Fauna Bavarica project, including, for example, the demonstration of extreme levels (up to 16.7% p-distance) of cryptic diversity in the centipede Stenotaenia linearis (Wesener et al 2015) or a widespread freshwater nematode morphospecies (Ristau et al 2013). Analyzing more than 400 species of true bugs, other colleagues showed that DNA barcodes are highly effective in distinguishing over 90% of Heteroptera species (Raupach et al 2014), and a similar high level of identification success was observed in neuropterids and Lepidoptera (Hausmann et al 2011a(Hausmann et al , 2011b. The release of the first comprehensive and largest DNA barcode reference library for Coleoptera included over 3500 species (53% of the German fauna), and again more than 90% of the specimens could be unambiguously identified via their DNA barcode (Hendrich et al 2015).…”

Section: Highlights/discoveries Of New Speciesmentioning

confidence: 99%

How to tackle the molecular species inventory for an industrialized nation—lessons from the first phase of the German Barcode of Life initiative GBOL (2012–2015)

Geiger

Astrin

Borsch

et al. 2016

Genome

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Biodiversity loss is mainly driven by human activity. While concern grows over the fate of hot spots of biodiversity, contemporary species losses still prevail in industrialized nations. Therefore, strategies were formulated to halt or reverse the loss, driven by evidence for its value for ecosystem services. Maintenance of the latter through conservation depends on correctly identified species. To this aim, the German Federal Ministry of Education and Research is funding the GBOL project, a consortium of natural history collections, botanic gardens, and universities working on a barcode reference database for the country's fauna and flora. Several noticeable findings could be useful for future campaigns: (i) validating taxon lists to serve as a taxonomic backbone is time-consuming, but without alternative; (ii) offering financial incentives to taxonomic experts, often citizen scientists, is indispensable; (iii) completion of the libraries for widespread species enables analyses of environmental samples, but the process may not hold pace with technological advancements; (iv) discoveries of new species are among the best stories for the media; (v) a commitment to common data standards and repositories is needed, as well as transboundary cooperation between nations; (vi) after validation, all data should be published online via the BOLD to make them searchable for external users and to allow cross-checking with data from other countries.Key words: biodiversity assessment, citizen science, DNA barcoding, reference library, Germany.Résumé : La perte de biodiversité découle principalement de l'activité humaine. Tandis que les inquiétudes grandissent sur le sort des milieux à forte biodiversité, la disparition d'espèces contemporaines a toujours cours dans les pays industrialisés. Ainsi, des stratégies ont été proposées pour arrêter ou renverser ces pertes d'espèces, lesquelles interventions sont motivées par la valeur de la biodiversité en matière de services écosystémiques. Le maintien de ces services par le biais de la conservation dépend d'une identification correcte des espèces. C'est dans ce but que le Ministère fédéral de l'éducation et de la recherche de l'Allemagne a financé le projet GBOL, un consortium de collections d'histoire naturelle, de jardins botaniques et d'universités oeuvrant à développer une

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Section: Highlights/discoveries Of New Speciesmentioning

confidence: 99%

How to tackle the molecular species inventory for an industrialized nation—lessons from the first phase of the German Barcode of Life initiative GBOL (2012–2015)

Geiger

Astrin

Borsch

et al. 2016

Genome

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“…The use of barcode data to identify species (Rakauskas and Basilova 2013) as opposed to BINs requires the species in question be represented in the barcode reference library (Ekrem et al 2007). Because the barcode reference library now includes records for many agricultural and forestry pests (Ashfaq et al 2014;Foottit et al 2014;Raupach et al 2014), newly encountered specimens of these species can be identified through barcode analysis. As well, the extension of DNA barcoding protocols onto next-generation sequencing (NGS) platforms (Shokralla et al 2014) is enabling metabarcoding studies that permit large-scale assessments of species composition (Taberlet et al 2012), an approach of high importance in monitoring plant pests.…”

Section: Effectiveness Of Dna Barcodes For Arthropod Identificationmentioning

confidence: 99%

“…DNA barcoding has a strong track record in delivering species-level identifications for the five insect orders with the most pest species-Coleoptera (Woodcock et al 2013;Rougerie et al 2015), Diptera (Nagy et al 2013;Smit et al 2013), Hemiptera (Park et al 2011b;Raupach et al 2014), Lepidoptera (Janzen et al 2005;Ashfaq et al 2013), and Thysanoptera (Rebijith et al 2014;Iftikhar et al 2016). For example, 92.2% of 3514 species of European beetles were assigned to a distinct BIN that coincided with a known morphological species, while most of the other species were assigned to two or three BINs, suggesting they represent cryptic species complexes (Hendrich et al 2015).…”

Section: Effectiveness Of Dna Barcodes For Arthropod Identificationmentioning

confidence: 99%

DNA barcodes for bio-surveillance: regulated and economically important arthropod plant pests

Ashfaq

Hebert

2016

Genome

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Many of the arthropod species that are important pests of agriculture and forestry are impossible to discriminate morphologically throughout all of their life stages. Some cannot be differentiated at any life stage. Over the past decade, DNA barcoding has gained increasing adoption as a tool to both identify known species and to reveal cryptic taxa. Although there has not been a focused effort to develop a barcode library for them, reference sequences are now available for 77% of the 409 species of arthropods documented on major pest databases. Aside from developing the reference library needed to guide specimen identifications, past barcode studies have revealed that a significant fraction of arthropod pests are a complex of allied taxa. Because of their importance as pests and disease vectors impacting global agriculture and forestry, DNA barcode results on these arthropods have significant implications for quarantine detection, regulation, and management. The current review discusses these implications in light of the presence of cryptic species in plant pests exposed by DNA barcoding.Key words: species identification, cryptic taxa, invasive species, quarantine, pest management.Résumé : Plusieurs des espèces d'arthropodes qui constituent d'importants ravageurs en agriculture en foresterie sont impossibles à distinguer sur la base morphologique au cours de certains stades de vie. Il est impossible d'en distinguer certains à tous les stades. Au cours de la dernière décennie, l'adoption du codage à barres de l'ADN s'est accrue tant pour l'identification des espèces connues que cryptiques. Bien qu'il n'y ait pas eu d'effort visant à développer une banque de références pour ces espèces, des séquences de référence sont présentement disponibles pour 77 % des 409 espèces d'arthropodes cataloguées parmi les bases de données de ravageurs importants. Outre le développement de la banque de références nécessaire à l'identification des spécimens, les études antérieures ont révélé qu'une portion significative des arthropodes nuisibles sont composés d'un ensemble de taxons apparentés. En raison de leur importance en tant que ravageurs ou vecteurs de maladies ayant un impact global en agriculture et en foresterie, les résultats du codage à barres de ces arthropodes ont des implications importantes en matière de détection, de réglementation et de gestion de quarantaines. Dans cette synthèse, les auteurs discutent des implications à la lumière de la présence d'espèces cryptiques, au sein de ravageurs de plantes, mises au jour grâce au codage à barres de l'ADN. [Traduit par la Rédaction]

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“…Based on a combination of genetic distance (2.2% ab initio ) and subsequent refinement using Markov clustering, it has proven extremely valuable in identifying specimens collected in large-scale biodiversity inventories (Aagaard et al 2016, Telfer et al 2015, Wirta et al 2015) and as an additional character for comparing traditional taxonomy concepts in, e.g. bees (Schmidt et al 2015), beetles (Oba et al 2015, Hendrich et al 2014), bugs (Raupach et al 2014), butterflies and moths (Hausmann et al 2013, Huemer et al 2014), fishes (Knebelsberger et al 2014a, Knebelsberger et al 2014b), Hemiptera (Gwiazdowski et al 2015), Neuroptera (Morinière et al 2014), and reptiles and amphibians (Hawlitschek et al 2015). Comparisons of the performance of the BIN system with other approaches for species delimitation (Kekkonen and Hebert 2014, Collins and Cruickshank 2014) indicated that it is superior in term of computational performance, but also that it might not work equally well in all animal groups, as for example illustrated in Tanytarsus nonbiting midges (Lin et al 2015).…”

Section: Introductionmentioning

confidence: 99%

Testing the Global Malaise Trap Program – How well does the current barcode reference library identify flying insects in Germany?

Geiger¹,

Morinière²,

Hausmann³

et al. 2016

BDJ

101

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BackgroundBiodiversity patterns are inherently complex and difficult to comprehensively assess. Yet, deciphering shifts in species composition through time and space are crucial for efficient and successful management of ecosystem services, as well as for predicting change. To better understand species diversity patterns, Germany participated in the Global Malaise Trap Program, a world-wide collection program for arthropods using this sampling method followed by their DNA barcode analysis. Traps were deployed at two localities: “Nationalpark Bayerischer Wald” in Bavaria, the largest terrestrial Natura 2000 area in Germany, and the nature conservation area Landskrone, an EU habitats directive site in the Rhine Valley. Arthropods were collected from May to September to track shifts in the taxonomic composition and temporal succession at these locations.New informationIn total, 37,274 specimens were sorted and DNA barcoded, resulting in 5,301 different genetic clusters (BINs, Barcode Index Numbers, proxy for species) with just 7.6% of their BINs shared. Accumulation curves for the BIN count versus the number of specimens analyzed suggest that about 63% of the potential diversity at these sites was recovered with this single season of sampling. Diversity at both sites rose from May (496 & 565 BINs) to July (1,236 & 1,522 BINs) before decreasing in September (572 & 504 BINs). Unambiguous species names were assigned to 35% of the BINs (1,868) which represented 12,640 specimens. Another 7% of the BINs (386) with 1,988 specimens were assigned to genus, while 26% (1,390) with 12,092 specimens were only placed to a family. These results illustrate how a comprehensive DNA barcode reference library can identify unknown specimens, but also reveal how this potential is constrained by gaps in the quantity and quality of records in BOLD, especially for Hymenoptera and Diptera. As voucher specimens are available for morphological study, we invite taxonomic experts to assist in the identification of unnamed BINs.

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Building-Up of a DNA Barcode Library for True Bugs (Insecta: Hemiptera: Heteroptera) of Germany Reveals Taxonomic Uncertainties and Surprises

Cited by 100 publications

References 84 publications

How to tackle the molecular species inventory for an industrialized nation—lessons from the first phase of the German Barcode of Life initiative GBOL (2012–2015)

How to tackle the molecular species inventory for an industrialized nation—lessons from the first phase of the German Barcode of Life initiative GBOL (2012–2015)

DNA barcodes for bio-surveillance: regulated and economically important arthropod plant pests

Testing the Global Malaise Trap Program – How well does the current barcode reference library identify flying insects in Germany?

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