Abstract
Integrated taxonomy uses evidence from a number of different character types to delimit species and other natural groupings. While this approach has been advocated recently, and should be of particular utility in the case of diminutive insect parasitoids, there are relatively few examples of its application in these taxa. Here, we use an integrated framework to delimit independent lineages in Encyrtus sasakii (Hymenoptera: Chalcidoidea: Encyrtidae), a parasitoid morphospecies previously considered a host generalist. Sequence variation at the DNA barcode (cytochrome c oxidase I, COI) and nuclear 28S rDNA loci were compared to morphometric recordings and mating compatibility tests, among samples of this species complex collected from its four scale insect hosts, covering a broad geographic range of northern and central China. Our results reveal that Encyrtus sasakii comprises three lineages that, while sharing a similar morphology, are highly divergent at the molecular level. At the barcode locus, the median K2P molecular distance between individuals from three primary populations was found to be 11.3%, well outside the divergence usually observed between Chalcidoidea conspecifics (0.5%). Corroborative evidence that the genetic lineages represent independent species was found from mating tests, where compatibility was observed only within populations, and morphometric analysis, which found that despite apparent morphological homogeneity, populations clustered according to forewing shape. The independent lineages defined by the integrated analysis correspond to the three scale insect hosts, suggesting the presence of host specific cryptic species. The finding of hidden host specificity in this species complex demonstrates the critical role that DNA barcoding will increasingly play in revealing hidden biodiversity in taxa that present difficulties for traditional taxonomic approaches.
Highlights
Parasitoids are insects that feed upon arthropod hosts during larval development [1]
We find evidence of extensive molecular variation at the barcode locus among E. sasakii populations inhabiting different hosts, and find corroboration in the form of reproductive and morphometric characteristics
The data matrix consisted of 631 base pairs for cytochrome oxidase I (COI) and 511 bases for 28S
Summary
Parasitoids are insects that feed upon arthropod hosts during larval development [1] They represent a key division of terrestrial food webs [2,3,4], and yet knowledge, on their species richness, is severely limited [5,6]. This situation is understandable given the lack of morphological differentiation in many sibling species, and the methodological difficulties posed in rearing due to the presence of multiple tropic levels, and complex life cycle [7], but must be addressed if factual estimates of insect diversity and host-specificity are to be known. Given the breadth of inquiries and biological endeavors that may be sensitive to the accurate description of species, and the power of DNA barcoding to provide extensive divergence information with little expertise or taxon specific knowledge, it seems inevitable that taxonomic description will incorporate barcoding-like approaches, and that patterns in host-parasite relationships will be better resolved
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