Abstract
DNA barcoding has become a promising means for the identification of organisms of all life-history stages. Currently, distance-based and tree-based methods are most widely used to define species boundaries and uncover cryptic species. However, there is no universal threshold of genetic distance values that can be used to distinguish taxonomic groups. Alternatively, DNA barcoding can deploy a “character-based” method, whereby species are identified through the discrete nucleotide substitutions. Our research focuses on the delimitation of moth species using DNA-barcoding methods. We analyzed 393 Lepidopteran specimens belonging to 80 morphologically recognized species with a standard cytochrome c oxidase subunit I (COI) sequencing approach, and deployed tree-based, distance-based, and diagnostic character-based methods to identify the taxa. The tree-based method divided the 393 specimens into 79 taxa (species), and the distance-based method divided them into 84 taxa (species). Although the diagnostic character-based method found only 39 so-identifiable species in the 80 species, with a reduction in sample size the accuracy rate substantially improved. For example, in the Arctiidae subset, all 12 species had diagnostics characteristics. Compared with traditional morphological method, molecular taxonomy performed well. All three methods enable the rapid delimitation of species, although they have different characteristics and different strengths. The tree-based and distance-based methods can be used for accurate species identification and biodiversity studies in large data sets, while the character-based method performs well in small data sets and can also be used as the foundation of species-specific biochips.
Highlights
Biological taxonomy is essentially about the philosophy of relationships among organisms
We identified the species diagnostic characters of 393 sequences, 55 sequences (Arctiidae), and 58 sequences (Noctuidae), determined the number of species with diagnostic characters divided by the total number of species
Three hundred and ninety-three specimens of Lepidoptera were obtained from Baihua Mountain (Appendix S1; see Materials and Methods for details)
Summary
Biological taxonomy is essentially about the philosophy of relationships among organisms. A large variety of available approaches has been proposed These include similarity (Little and Stevenson 2007), tree-based (Elias et al 2007), distance-based (Bergmann et al 2013), and diagnostic character methods (Hebert et al 2003b; Bergmann et al 2013). The diagnostic character method allows species identification through the presence or absence of discrete nucleotide substitutions (character states) within the DNA sequence (Rach et al 2008) This approach has been used for rapid species identification in small samples of Drosophila (Yassin et al 2010) and Odonata (Rach et al 2008), using CAOS (Characteristic Attribute Organization System) software (Neil Sarkar et al 2002). This is a forest ecosystem nature reserve and the largest area of high insect and Lepidoptera biodiversity in the Beijing region
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