Genetic Networking of the Bemisia tabaci Cryptic Species Complex Reveals Pattern of Biological Invasions

Barro, Paul De; Ahmed, Muhammad

doi:10.1371/journal.pone.0025579

Cited by 89 publications

(86 citation statements)

References 67 publications

(86 reference statements)

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“…Given the economic damage caused by other members of clade 8, measures need to be considered to prevent incursions by clade 8-6. In contrast, clade 9–33 is made up of haplotypes from the presumed home range, Algeria, Croatia, Egypt, Morocco, Spain and possibly France and Sudan and those which have already spread over the past 10 years to countries outside the Mediterranean Basin home range to Cameroon, China, Ghana, Taiwan and Uruguay 101. Therefore, despite the concern that mtCOI DNA is not necessarily adequate as a sole source of species-defining data,102,103 the level and consistency of distinctiveness here indicates these groups should be investigated further for possible “species” status using an integrative taxonomy approach 104.…”

Section: Discussionmentioning

confidence: 99%

Species Delimitation and Global Biosecurity

Boykin

Armstrong

Kubatko

et al. 2011

Evol Bioinform Online

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155

167

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Species delimitation directly impacts on global biosecurity. It is a critical element in the decisions made by national governments in regard to the flow of trade and to the biosecurity measures imposed to protect countries from the threat of invasive species. Here we outline a novel approach to species delimitation, “tip to root”, for two highly invasive insect pests, Bemisia tabaci (sweetpotato whitefly) and Lymantria dispar (Asian gypsy moth). Both species are of concern to biosecurity, but illustrate the extremes of phylogenetic resolution that present the most complex delimitation issues for biosecurity; B. tabaci having extremely high intra-specific genetic variability and L. dispar composed of relatively indistinct subspecies. This study tests a series of analytical options to determine their applicability as tools to provide more rigorous species delimitation measures and consequently more defensible species assignments and identification of unknowns for biosecurity. Data from established DNA barcode datasets (COI), which are becoming increasingly considered for adoption in biosecurity, were used here as an example. The analytical approaches included the commonly used Kimura two-parameter (K2P) inter-species distance plus four more stringent measures of taxon distinctiveness, (1) Rosenberg’s reciprocal monophyly, (P(AB)),1 (2) Rodrigo’s (P(randomly distinct)),2 (3) genealogical sorting index, (gsi),3 and (4) General mixed Yule-coalescent (GMYC).4,5 For both insect datasets, a comparative analysis of the methods revealed that the K2P distance method does not capture the same level of species distinctiveness revealed by the other three measures; in B. tabaci there are more distinct groups than previously identified using the K2P distances and for L. dipsar far less variation is apparent within the predefined subspecies. A consensus for the results from P(AB), P(randomly distinct) and gsi offers greater statistical confidence as to where genetic limits might be drawn. In the species cases here, the results clearly indicate that there is a need for more gene sampling to substantiate either the new cohort of species indicated for B. tabaci or to detect the established subspecies taxonomy of L. dispar. Given the ease of use through the Geneious species delimitation plugins, similar analysis of such multi-gene datasets would be easily accommodated. Overall, the tip to root approach described here is recommended where careful consideration of species delimitation is required to support crucial biosecurity decisions based on accurate species identification.

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Section: Discussionmentioning

confidence: 99%

Species Delimitation and Global Biosecurity

Boykin

Armstrong

Kubatko

et al. 2011

Evol Bioinform Online

Self Cite

155

167

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“…Such discrepancies complicate the identification of their component taxa with implications for pest regulation and management. For example, the whitefly, Bemisia tabaci, is now known to be a complex of at least 34 species ) that differ in their invasiveness (De Barro and Ahmed 2011), their capacity to transmit plant pathogens (Chowda-Reddy et al 2012), and their regional pest status (Ashfaq et al 2014). Likewise, two pest thrips, Scirtothrips dorsalis and Thrips tabaci, are species complexes whose members vary in their invasiveness and viral-transmission ability (Jacobson et al 2013;Dickey et al 2015).…”

Section: Practical Implications Of Dna Barcodingmentioning

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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“…De Barro and Ahmed 3 used the mtCOI haplotype (657 bp fragment) to identify genetic networks of B . tabaci Q on a global scale.…”

Section: Introductionmentioning

confidence: 99%

Population genetics of an alien whitefly in China: implications for its dispersal and invasion success

Pan

Tao

et al. 2017

Sci Rep

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Invasive genotypes may be associated with their ability to access the invasion habitat. The whitefly, Bemisia tabaci Q, has been an important agricultural pest in China since 2008. In order to identify the invasion routes and to provide insight into its invasion success in China, we analyzed the composition, distribution, and genetic diversity of mitochondrial haplotypes of B. tabaci Q. Samples were obtained from 23 provincial level administrative units in 2011, and analyses conducted based on the mtCOI. Our results revealed five haplotypes (abbreviated as Q1H1-Q1H5) were present in the Q1 subclade based on 773-bp mtCOI fragment analysis. The diversity of haplotypes indicated the B. tabaci Q populations were derived from multiple invasion sources originating from the western Mediterranean region. Among the haplotypes, Q1H1 was dominant, followed by Q1H2. The whitefly populations were generally characterized by low levels of genetic diversity based on the 773-bp mtCOI fragment. Similar results were obtained when the 657-bp fragment was analyzed using the procedure in a previous report. Potential mechanisms contributing to the dominance of the Q1H1 in China are also discussed. These results will be helpful in revealing the mechanisms that enabled the successful invasion of B. tabaci Q into the country.

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Genetic Networking of the Bemisia tabaci Cryptic Species Complex Reveals Pattern of Biological Invasions

Cited by 89 publications

References 67 publications

Species Delimitation and Global Biosecurity

Species Delimitation and Global Biosecurity

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

Population genetics of an alien whitefly in China: implications for its dispersal and invasion success

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