Species Of Skippers Research Articles

Phylogeny and evolutionary timescales of the tribes Tagiadini and Celaenorrhinini (Hesperiidae, Pyrginae) inferred from mitochondrial genome and nuclear genes

AbstractTagiadini and Celaenorrhinini, two closely related groups of skippers in the subfamily Pyrginae, are mainly distributed across the Oriental, Palaearctic and African regions. While some efforts have been made to explore the phylogenetic relationships within Tagiadini and Celaenorrhinini, several unresolved issues still persist. In this study, we sequenced 13 complete mitochondrial genomes from Tagiadini and Celaenorrhinini. Additionally, we extracted nuclear genes CAD, EF‐1α, IDH, MDH, RPS5 and Wingless from the public database. Through comparative analysis, we gained insights into the structure of these newly sequenced mitogenomes. Furthermore, we constructed a comprehensive phylogenetic tree for Tagiadini and Celaenorrhinini, integrating the newly obtained mitochondrial genomes and nuclear genes with previously published mitogenomes and data from the sequence read archive (SRA). The total length of the mitochondrial genomes of the 13 skipper species ranged from 15,228 bp (Seseria sambara indosinica) to 15,431 bp (Pseudocoladenia festa). The newly sequenced genomes featured the standard set of 13 protein‐coding genes (PCGs), 22 transfer RNA genes (tRNAs), 2 ribosomal RNA genes (rRNAs) and a non‐coding A + T‐rich region implicated in replication initiation. The phylogenetic analysis encompassing all mitochondrial and nuclear gene data consistently upheld the monophyly of genera within the tribes Tagiadini and Celaenorrhinini. Most of the intergeneric relationships identified in our study agreed with recent genomic discoveries, showing enhanced nodal support values in some cases. Lastly, we estimated the divergence of the Tagiadini + Celaenorrhinini branch at approximately 44.06 million years ago (Ma) during the middle Eocene epoch. The crown ages of Tagiadini and Celaenorrhinini were estimated at approximately 41.69 Ma and 38.49 Ma, respectively.

Some Records of Skippers (Lepidoptera: Hesperioidea: Hesperiidae) from Balochistan Province, Pakistan

Skipper fauna of Balochistan province is not properly studied. To fill this gap, a study was conducted to explore the skipper's fauna from previous literature and new collection from Balochistan, Pakistan. We report 21 species of skippers from two subfamilies, Coeliadinae and Hesperiinae. Out of 21 species five species namely Hesperia comma (Linnaeus, 1758), Parnara guttatus (Bremer and Grey, 1852), Pyrgus cashmirensis Moore (1874), Pyrgus darwazicus Grum-Grshimailo (1890) and Pyrgus sidae (Esper, 1784) under subfamily Hesperiinae are recorded for the first time from Balochistan. Out of five reported species from Balochistan, two species Pyrgus darwazicus and Pyrgus sidae are new records for Pakistan.
 

Diversity of Insect Pest and Predator Species in Monsoon and Summer Rice Fields of Taungoo Environs, Myanmar

Paddy fields are natural and artificial wetland ecosystems that supply rice for the people and provide the wildlife especially insect diversity of different functional aspects. A total of 71 insect species belonging to 40 families under eight orders were observed during the study period. Among the 71 insect species, 18 species of beetles, nine species of bugs, eight species of dragonfly, five species of butterflies, four species of leafhoppers, plant hoppers and moths, three borer and spiders, two crickets, one species of skippers, grass hopper, hispa, ant, weevil, hairy caterpillar, leaf roller, katydid, thrips, maggot and water boatmen were recorded in the study sites. Total of 41 species of pests, 18 species of predators and 12 species of beneficial species (they function as pollinating the flowering plants in the paddy field wetland ecosystem) were recorded in the study sites. In the monsoon season, the 41 species of pest species, 18 species of predator species and 12 species of beneficial species were recorded from monsoon rice field. According to Shannon Evenness value (H'/S = -0.012564), the data showed that the insect species recorded from the one habitat was not the similar to another. In summer paddy fields, 36 species of pest species, 16 species of predator species and 9 species of beneficial species were recorded. Total arthropod insect species were recorded 61 species from the dry rice fields. According to Shannon Evenness value (H'/S = -0.000120), the data showed that the insect species recorded from the one habitat was not the similar to another. Population growth and duration of life cycle of insects is mainly dominated by the temperature, the duration of life cycle is shorter in the high temperature than in the low temperature.

Two new species in the genus Andronymus Holland, 1896 (Lepidoptera, Hesperiidae).

During extensive field work in West Africa (Cameroon, Ivory Coast, Liberia, Sierra Leone), the authors collected two skipper species in the genus Andronymus (Lepidoptera, Hesperiidae), which would not fit the descriptions of any existing taxa. Both are described as new, A. magma sp. nov. is known only from Cameroon, while A. fenestra sp. nov. was found in a few localities in the Liberian sub-region of West Africa.

Genomes of skipper butterflies reveal extensive convergence of wing patterns

For centuries, biologists have used phenotypes to infer evolution. For decades, a handful of gene markers have given us a glimpse of the genotype to combine with phenotypic traits. Today, we can sequence entire genomes from hundreds of species and gain yet closer scrutiny. To illustrate the power of genomics, we have chosen skipper butterflies (Hesperiidae). The genomes of 250 representative species of skippers reveal rampant inconsistencies between their current classification and a genome-based phylogeny. We use a dated genomic tree to define tribes (six new) and subtribes (six new), to overhaul genera (nine new) and subgenera (three new), and to display convergence in wing patterns that fooled researchers for decades. We find that many skippers with similar appearance are distantly related, and several skippers with distinct morphology are close relatives. These conclusions are strongly supported by different genomic regions and are consistent with some morphological traits. Our work is a forerunner to genomic biology shaping biodiversity research.

A new skipper from China: Notocrypta ariannae n. sp. (Lepidoptera, Hesperiidae).

A new skipper species, Notocrypta ariannae n. sp., is described from C Sichuan, illustrated with its male genitalia and compared with the four other Notocrypta species found in China.

Butterflies & Skippers (Lepidoptera: Papilionoidea, Hesperioidea) of the Franklin Parker Preserve, Burlington County, New Jersey

ABSTRACT In 2009 and 2010, a butterfly and skipper survey was conducted at Franklin Parker Preserve (FPP) located within Woodland Township, Burlington County, New Jersey. This survey was part of the joint cooperation between the American Entomological Society and the New Jersey Conservation Foundation and funded by a Research Experience for Undergraduates grant. Franklin Parker Preserve is located in the center of the Pine Barrens, where insect fauna has not been strongly studied and inventoried, specifically with the Lepidoptera fauna. Through this survey, fifty-three butterfly and skipper species have been documented to occur on Franklin Parker Preserve property. Time of year and abundance of these species were recorded. Three Species of Special Concern listed by the New Jersey Department of Environmental Protection were found at FPP: Callophrys hesseli Rawson & Ziegler (Hessel's Hairstreak) Euphyes bimacula Grote & Robinson (Two-Spotted Skipper) and Hesperia attalus Edwards (Dotted Skipper.) This paper...

Skipper genome sheds light on unique phenotypic traits and phylogeny.

BackgroundButterflies and moths are emerging as model organisms in genetics and evolutionary studies. The family Hesperiidae (skippers) was traditionally viewed as a sister to other butterflies based on its moth-like morphology and darting flight habits with fast wing beats. However, DNA studies suggest that the family Papilionidae (swallowtails) may be the sister to other butterflies including skippers. The moth-like features and the controversial position of skippers in Lepidoptera phylogeny make them valuable targets for comparative genomics.ResultsWe obtained the 310 Mb draft genome of the Clouded Skipper (Lerema accius) from a wild-caught specimen using a cost-effective strategy that overcomes the high (1.6 %) heterozygosity problem. Comparative analysis of Lerema accius and the highly heterozygous genome of Papilio glaucus revealed differences in patterns of SNP distribution, but similarities in functions of genes that are enriched in non-synonymous SNPs. Comparison of Lepidoptera genomes revealed possible molecular bases for unique traits of skippers: a duplication of electron transport chain components could result in efficient energy supply for their rapid flight; a diversified family of predicted cellulases might allow them to feed on cellulose-enriched grasses; an expansion of pheromone-binding proteins and enzymes for pheromone synthesis implies a more efficient mate-recognition system, which compensates for the lack of clear visual cues due to the similarities in wing colors and patterns of many species of skippers. Phylogenetic analysis of several Lepidoptera genomes suggested that the position of Hesperiidae remains uncertain as the tree topology varied depending on the evolutionary model.ConclusionCompletion of the first genome from the family Hesperiidae allowed comparative analyses with other Lepidoptera that revealed potential genetic bases for the unique phenotypic traits of skippers. This work lays the foundation for future experimental studies of skippers and provides a rich dataset for comparative genomics and phylogenetic studies of Lepidoptera.Electronic supplementary materialThe online version of this article (doi:10.1186/s12864-015-1846-0) contains supplementary material, which is available to authorized users.

Complete mitochondrial genomes of five skippers (Lepidoptera: Hesperiidae) and phylogenetic reconstruction of Lepidoptera

We sequenced mitogenomes of five skippers (family Hesperiidae, Lepidoptera) to obtain further insight into the characteristics of butterfly mitogenomes and performed phylogenetic reconstruction using all available gene sequences (PCGs, rRNAs, and tRNAs) from 85 species (20 families in eight superfamilies). The general genomic features found in the butterflies also were found in the five skippers: a high A+T composition (79.3%–80.9%), dominant usage of TAA stop codon, similar skewness pattern in both strands, consistently length intergenic spacer sequence between tRNAGln and ND2 (64–87bp), conserved ATACTAA motif between tRNASer (UCN) and ND1, and characteristic features of the A+T-rich region (the ATAGA motif, varying length of poly-T stretch, and poly-A stretch). The start codon for COI was CGA in four skippers as typical, but Lobocla bifasciatus evidently possessed canonical ATG as start codon. All species had the ancestral arrangement tRNAAsn/tRNASer (AGN), instead of the rearrangement tRNASer (AGN)/tRNAAsn, found in another skipper species (Erynnis). Phylogenetic analyses using all available genes (PCGs, rRNAS, and tRNAs) yielded the consensus superfamilial relationships ((((((Bombycoidea+Noctuoidea+Geometroidea)+Pyraloidea)+Papilionoidea)+Tortricoidea)+Yponomeutoidea)+Hepialoidea), confirming the validity of Macroheterocera (Bombycoidea, Noctuoidea, and Geometroidea in this study) and its sister relationship to Pyraloidea. Within Rhopalocera (butterflies and skippers) the familial relationships (Papilionidae+(Hesperiidae+(Pieridae+((Lycaenidae+Riodinidae)+Nymphalidae)))) were strongly supported in all analyses (0.98–1 by BI and 96–100 by ML methods), rendering invalid the superfamily status for Hesperioidea. On the other hand, current mitogenome-based phylogeny did not find consistent superfamilial relationships among Noctuoidea, Geometroidea, and Bombycoidea and the familial relationships within Bombycoidea between analyses, requiring further taxon sampling in future studies.

Skipper Richness (Hesperiidae) Along Elevational Gradients in Brazilian Atlantic Forest.

Hesperiidae are claimed to be a group of elusive butterflies that need major effort for sampling, thus being frequently omitted from tropical butterfly surveys. As no studies have associated species richness patterns of butterflies with environmental gradients of high altitudes in Brazil, we surveyed Hesperiidae ensembles in Serra do Mar along elevational transects (900-1,800m above sea level) on three mountains. Transects were sampled 11-12 times on each mountain to evaluate how local species richness is influenced by mountain region, vegetation type, and elevational zones. Patterns were also analyzed for the subfamilies, and after disregarding species that exhibit hilltopping behavior. Species richness was evaluated by the observed richness, Jacknife2 estimator and Chao 1 estimator standardized by sample coverage. Overall, 155 species were collected, but extrapolation algorithms suggest a regional richness of about 220 species. Species richness was far higher in forest than in early successional vegetation or grassland. Richness decreased with elevation, and was higher on Anhangava mountain compared with the two others. Patterns were similar between observed and extrapolated Jacknife2 richness, but vegetation type and mountain richness became altered using sample coverage standardization. Hilltopping species were more easily detected than species that do not show this behavior; however, their inclusion did neither affect estimated richness nor modify the shape of the species accumulation curve. This is the first contribution to systematically study highland butterflies in southern Brazil where all records above 1,200m are altitudinal extensions of the known geographical ranges of skipper species in the region.

As borboletas Hesperiidae (Lepidoptera, Hesperioidea) do Distrito Federal, Brasil

Neste estudo é apresentada uma listagem atualizada com 335 espécies de borboletas Hesperiidae encontradas no Distrito Federal (Brasil central), incluindo dados da bibliografia, de várias coleções entomológicas e de coletas dos autores. Espécies de ocorrência apenas presumida não foram incluídas. Apresenta-se também uma lista suplementar com 32 espécies endêmicas do bioma Cerrado, das quais 27 foram encontradas no Distrito Federal.

Strongly diverging population genetic patterns of three skipper species: the role of habitat fragmentation and dispersal ability

The fragmentation of landscapes has an important impact on the conservation of biodiversity, and the genetic diversity is an important factor for a populations viability, influenced by the landscape structure. However, different species with differing ecological demands react rather different on the same landscape pattern. To address this feature, we studied three skipper species with differing habitat requirements (Lulworth Skipper Thymelicus acteon: a habitat specialist with low dispersal ability, Small Skipper Thymelicus sylvestris: a habitat generalist with low dispersal ability, Essex Skipper Thymelicus lineola: a habitat generalist with higher dispersal ability). We analysed 18 allozyme loci for 1,063 individuals in our western German study region with adjoining areas in Luxembourg and north-eastern France. The genetic diversity of all three species were intermediate in comparison with other butterfly species. The FST was relatively high for T. acteon (5.1%), low for T. sylvestris (1.6%) and not significant for T. lineola. Isolation by distance analyses revealed a significant correlation for T. sylvestris explaining 20.3% of its differentiation, but no such structure was found for the two other species. Most likely, the high dispersal ability of T. lineola in comparison with T. sylvestris leads to a more or less panmictic structure and hence impedes isolation by distance. On the other hand, the isolation of the populations of T. acteon seems to be so strict that the populations develop independently. Although no general genetic impoverishing was observed for the endangered T. acteon, small populations had significantly lower genetic diversities than big populations, and therefore the high degree of isolation among populations might threaten its local and regional survival.