DNA Barcoding as useful tool to identify crop pest flea beetles of Turkey

Flea beetles (Chrysomelidae: Galerucinae: Alticini), with ~8,000 species worldwide, include pest species causing substantial economic damage to crops. The genera Phyllotreta and Chaetocnema include both pest and non‐pest species. An accurate and fast taxonomic identification approach is required for...

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Bibliographic Details
Published inJournal of applied entomology (1986) Vol. 143; no. 1-2; pp. 105 - 117
Main Authors Coral Şahin, Didem, Magoga, Giulia, Özdikmen, Hüseyin, Montagna, Matteo
Format Journal Article
LanguageEnglish
Published Berlin Wiley Subscription Services, Inc 01.02.2019
Subjects
Alticini
Approach spans
Beetles
Biodiversity
Chaetocnema
Chrysomelidae
Coleoptera
Crop damage
crop pests
Crops
Cryptic species
Deoxyribonucleic acid
DNA
DNA barcoding
Gene sequencing
Genera
Identification
Interspecific
Nucleotide sequence
Pests
Phyllotreta
Species
Wildlife conservation
Turkey
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Summary:Flea beetles (Chrysomelidae: Galerucinae: Alticini), with ~8,000 species worldwide, include pest species causing substantial economic damage to crops. The genera Phyllotreta and Chaetocnema include both pest and non‐pest species. An accurate and fast taxonomic identification approach is required for discriminating among taxa for non‐expert taxonomists; moreover, the utility of this approach spans from biodiversity conservation to the monitoring of pest species. DNA barcoding represents a reliable and easy identification tool based on the use of short DNA sequences. In this study, 45 new COI sequences of 13 Phyllotreta and five Chaetocnema species, representing ~30% and ~20% of the Turkish species belonging to these genera, were provided. These sequences increased by ~18% and ~25% the number of species of these genera whose sequences are available in BOLD. In order to test DNA barcoding efficiency in Phyllotreta and Chaetocnema species identification, we created a data set consisting of sequences belonging to species present in the Middle East and available in BOLD plus the sequences developed in this study (36 species). The efficiency of species identification, estimated using best close match analysis (with the ad hoc calculated optimal distance threshold of 1.5%), was 99%. The overall intraspecific and interspecific mean nucleotide divergences were 1.4% and 20%, respectively. Interestingly, COI sequences of Phyllotreta nigripes clustered into two well‐separated groups with a high value of the between‐group nucleotide distance (11.4%), which suggests the presence of cryptic species. In addition, information was provided on the crops exploited by the collected organisms and the observed damage.
Bibliography:Funding information
The study was partially supported by grant obtained by Didem Coral Sahin and by MIUR ‐ FFABR 2017/2018 provided to Matteo Montagna.
ISSN:0931-2048
1439-0418
DOI:10.1111/jen.12566