The State of Bavaria is involved in a research program that will lead to the construction of a DNA barcode library for all animal species within its territorial boundaries. The present study provides ...a comprehensive DNA barcode library for the Geometridae, one of the most diverse of insect families.
This study reports DNA barcodes for 400 Bavarian geometrid species, 98 per cent of the known fauna, and approximately one per cent of all Bavarian animal species. Although 98.5% of these species possess diagnostic barcode sequences in Bavaria, records from neighbouring countries suggest that species-level resolution may be compromised in up to 3.5% of cases. All taxa which apparently share barcodes are discussed in detail. One case of modest divergence (1.4%) revealed a species overlooked by the current taxonomic system: Eupithecia goossensiata Mabille, 1869 stat.n. is raised from synonymy with Eupithecia absinthiata (Clerck, 1759) to species rank. Deep intraspecific sequence divergences (>2%) were detected in 20 traditionally recognized species.
The study emphasizes the effectiveness of DNA barcoding as a tool for monitoring biodiversity. Open access is provided to a data set that includes records for 1,395 geometrid specimens (331 species) from Bavaria, with 69 additional species from neighbouring regions. Taxa with deep intraspecific sequence divergences are undergoing more detailed analysis to ascertain if they represent cases of cryptic diversity.
To better understand the diversity and phylogeny of Lepidoptera, the complete mitochondrial genome of Choristoneura longicellana (=Hoshinoa longicellana) was determined. It is a typical circular ...duplex molecule with 15,759bp in length, containing the standard metazoan set of 13 protein-coding genes, 22 transfer RNA genes, 2 ribosomal RNA genes, and an A+T-rich region. All of the inferred tRNA secondary structures show the common cloverleaf pattern, with the exception of trnS1(AGN), which lacks the DHU arm. The rrnL of C. Longicellana is the longest in sequenced lepidopterans. C. Longicellana has the same gene order as all lepidopteran species currently available in GenBank. There are 5 overlapping regions ranging from 1bp to 8bp and 14 intergenic spacers ranging from 1bp to 48bp. In addition, there are four similar tandem macro-satellite regions with the lengths of 101bp, 98bp, 92bp, and 92bp respectively in the A+T-rich regions of C. longicellana. We sampled 89 species representing 13 superfamilies, and reconstructed their relationship among Lepidoptera by Bayesian Inference and Maximum Likelihood analysis. The topology of the two phylogenetic analysis trees is identical roughly, except for Cossoidea in different locations, the positions of Cossoidea, Copromorphoidea, Gelechioidea, Zygaenoidea were not determined based the limited sampling. (Geometroidea+(Noctuoidea+Bombycoidea)) form the Macrolepidoptera “core”. Pyraloidea group with the “core” Macrolepidoptera. Papilionoidea are not Macrolepidoptera. The Hesperiidae (represent Hesperioidea) is nested in the Papilionoidea, and closely related to Pieridae and Papilionidae. The well-known relationship of (Nymphalidae+(Riodinidae+Lycaenidae)) is recovered in this paper.
•The complete mitochondrial genome of Choristoneura longicellana (= Hoshinoa longicellana) was determined.•The rrnL of C. Longicellana is the longest in sequenced lepidopterans.•In phylogenetic analysis of Lepidoptera, (Geometroidea + (Noctuoidea + Bombycoidea)) form the Macrolepidoptera “core”.
Abstract The serious blue butterfly, Chilades pandava -Horsfield, 1829- (Lepidoptera: Lycaenidae) is consider one of the main destructive insect pests for ornamental palms Cycas and Zamia. Biological ...and morphological measurements were carried out of C. pandava stages reared on Cycas revoluta (Cycadaceae) and Zamia encephalartoides (Zamiaceae). In description details, non-significant variations were recorded between the two gender of cycad blue butterfly in the obtained data, but the male adult was more densely blue or violet than female adult. By the aid of SEM, C. pandava all stages were distinct by long and thick hairs covered all the body. The morphometric characters namely, length, width and venation of wings, body length, forewing, hindwing could be as a guide for taxonomic discrimination. The data showed that the life cycle duration of C. pandava was ranged between 20.64 to 21.7 days. The developmental periods of different C. pandava stages are slightly higher on zamia than cycas palms. This investigation detected that a high survival rate was found on Cycas palms (86%) than the survived rate recording on Zamia palms (82%). In the present study, the described morphometric characters could be used as a guide for taxonomic discrimination of this pest. Consequently, this study added a valuable knowledge about C. pandava to have sound decisions for proposal of its management and conservation in Egypt.
Resumo A borboleta azul séria, Chilades pandava – Horsfield, 1829 (Lepidoptera: Lycaenidae), é considerada uma das principais pragas de insetos destrutivas para as palmeiras ornamentais Cycas e Zamia. Medidas biológicas e morfológicas foram realizadas em estádios de C. pandava criados em Cycas revoluta (Cycadaceae) e Zamia encephalartoides (Zamiaceae). Nos detalhes da descrição, variações não significativas foram registradas entre os dois gêneros de borboleta azul cicadácea nos dados obtidos, mas o adulto masculino era mais densamente azul ou violeta do que o adulto feminino. Com o auxílio do MEV, C. pandava, todos os estágios foram diferenciados por pelos longos e grossos que cobriam todo o corpo. Os caracteres morfométricos a saber, comprimento, largura e venação das asas, comprimento do corpo, asa anterior e posterior, podem servir de guia para a discriminação taxonômica.Os dados mostraram que a duração do ciclo de vida de C. pandava variou entre 20,64 e 21,7 dias. Os períodos de desenvolvimento dos diferentes estágios de C. pandava são ligeiramente maiores em zamia do que em cicas. Essa investigação detectou que uma alta taxa de sobrevivência foi encontrada em palmeiras Cycas (86%) do que a taxa de sobrevivência registrada em palmeiras Zamia (82%). No presente estudo, os caracteres morfométricos descritos podem servir de guia para a discriminação taxonômica dessa praga. Consequentemente, este estudo agregou um conhecimento valioso sobre C. pandava para ter decisões acertadas para a proposta de seu manejo e conservação no Egito.
Interspecies mating is rarely observed even in the wild. Such a case in Lycaenidae is reported and photographically documented for the species pairing Phengaris teleius (Bergsträsser, 1779) and P. ...nausithous (Bergsträsser, 1779), which was observed on 19 July 2016 in northern Bohemia near the village of Hynčice, Czech Republic. Possible causes of this phenomenon are discussed.
In several butterflies, the posterior end of the hindwings resembles a butterfly head when the butterfly is perched with its wings closed. There is evidence that this "false head" (FH) deflects ...predator attacks towards non-vital parts of the body. If the FH protects from visually oriented predators, its condition in an individual butterfly could provide information about its quality to prospective mates. We tested two hypotheses based on this idea by comparing the probability of mating, duration of copulation and size of the ejaculate received by females of Callophrys xami (Lycaenidae) with an intact FH and those with an ablated FH in a paired experiment. The absence of a FH had no effect on the probability of mating, but females with an ablated FH copulated for longer and received larger ejaculates, which supports the hypothesis that males prefer females with damaged FHs because this reveals the female's ability to deflect attacks. Male or female (or both) cryptic choice could also account for our results, but more studies are needed to test this.
The last Xerces blue butterfly was seen in the early 1940s, and its extinction is credited to human urban development. This butterfly has become a North American icon for insect conservation, but ...some have questioned whether it was truly a distinct species, or simply an isolated population of another living species. To address this question, we leveraged next-generation sequencing using a 93-year-old museum specimen. We applied a genome skimming strategy that aimed for the organellar genome and high-copy fractions of the nuclear genome by a shallow sequencing approach. From these data, we were able to recover over 200 million nucleotides, which assembled into several phylogenetically informative markers and the near-complete mitochondrial genome. From our phylogenetic analyses and haplotype network analysis we conclude that the Xerces blue butterfly was a distinct species driven to extinction.
We examined the roles of wing melanisation, weight, and basking posture in thermoregulation in Polyommatus Icarus, a phenotypically variable and protandrous member of the diverse Polyommatinae ...(Lycaenidae). Under controlled experimental conditions, approximating to marginal environmental conditions for activity in the field (= infrequent flight, long duration basking periods), warming rates are maximised with fully open wings and maximum body temperatures are dependent on weight. Variation in wing melanisation within and between sexes has no effect on warming rates; males and females which differ in melanisation had similar warming rates. Posture also affected cooling rates, consistent with cooling being dependent on convective heat loss. We hypothesise that for this small sized butterfly, melanisation has little or no effect on thermoregulation. This may be a factor contributing to the diversity of wing colours in the Polyommatinae. Because of the importance of size for thermoregulation in this small butterfly, requirements for attaining a suitable size to confer thermal stability in adults may also be a factor influencing larval feeding rates, development time and patterns of voltinism. Our findings indicate that commonly accepted views of the importance of melanisation, posture and size to thermoregulation, developed using medium and large sized butterflies, are not necessarily applicable to small sized butterflies.
Macaranga myrmecophytes (ant-plants) are generally well protected from herbivore attacks by their symbiotic ants (plant-ants). However, larvae of Arhopala (Lepidoptera: Lycaenidae) species survive ...and develop on specific Macaranga ant-plant species without being attacked by the plant-ants of their host species. We hypothesized that Arhopala larvae chemically mimic or camouflage themselves with the ants on their host plant so that the larvae are accepted by the plant-ant species of their host. Chemical analyses of cuticular hydrocarbons showed that chemical congruency varied among Arhopala species; A. dajagaka matched well the host plant-ants, A. amphimuta did not match, and unexpectedly, A. zylda lacked hydrocarbons. Behaviorally, the larvae and dummies coated with cuticular chemicals of A. dajagaka were well attended by the plant-ants, especially by those of the host. A. amphimuta was often attacked by all plant-ants except for the host plant-ants toward the larvae, and those of A. zylda were ignored by all plant-ants. Our results suggested that conspicuous variations exist in the chemical strategies used by the myrmecophilous butterflies that allow them to avoid ant attack and be accepted by the plant-ant colonies.
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