Abstract
DNA barcoding promises to be a useful tool to identify pest species assuming adequate representation of genetic variants in a reference library. Here we examined mitochondrial DNA barcodes in a global urban pest, the American cockroach (Periplaneta americana). Our sampling effort generated 284 cockroach specimens, most from New York City, plus 15 additional U.S. states and six other countries, enabling the first large-scale survey of P. americana barcode variation. Periplaneta americana barcode sequences (n = 247, including 24 GenBank records) formed a monophyletic lineage separate from other Periplaneta species. We found three distinct P. americana haplogroups with relatively small differences within (≤0.6%) and larger differences among groups (2.4%–4.7%). This could be interpreted as indicative of multiple cryptic species. However, nuclear DNA sequences (n = 77 specimens) revealed extensive gene flow among mitochondrial haplogroups, confirming a single species. This unusual genetic pattern likely reflects multiple introductions from genetically divergent source populations, followed by interbreeding in the invasive range. Our findings highlight the need for comprehensive reference databases in DNA barcoding studies, especially when dealing with invasive populations that might be derived from multiple genetically distinct source populations.
Highlights
DNA barcoding promises to be a useful tool to identify pest species assuming adequate representation of genetic variants in a reference library
24 P. americana c oxidase I (COI) GenBank records were included in genetic analyses representing samples from Iran, China, and Korea
COI barcodes were successfully recovered from 238 cockroach specimens, while either polymerase chain reactions (PCRs) or sequencing failed repeatedly for 46 specimens
Summary
DNA barcoding promises to be a useful tool to identify pest species assuming adequate representation of genetic variants in a reference library. Nuclear DNA sequences (n 5 77 specimens) revealed extensive gene flow among mitochondrial haplogroups, confirming a single species This unusual genetic pattern likely reflects multiple introductions from genetically divergent source populations, followed by interbreeding in the invasive range. Invasive populations may represent multiple independent introductions, potentially from genetically distinct source populations[31,32] Such a pattern of introduction may complicate the identification of invasive species via DNA barcodes, and may require more extensive sampling to establish a reliable reference library. Our findings highlight the value of expanded sampling to accurately delineate species boundaries via DNA barcoding, in particular for invasive species
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