The genus Eurystylus Stål (Hemiptera: Heteroptera: Miridae: Mirinae) comprises to date 32 species in the world. This group is generally known as phytophagy, and some of the species are known as major insect pests of crops in various regions such as E. oldi Poppius, 1912, reducing grain mass and quality of sorghum crops by feeding and by ovipositing in Africa. Although these species are easily found and widely distributed, there are few taxonomic studies on this group in detail. In Korea, 2 species are known so far: E. coelestialium (Kirkaldy, 1902), E. luteus Hsiao, 1941. In this talk, the genus Eurystylus from the Korean Peninsula is reviewed for the first time. Biological information such as additional host plants of each species, and morphological characters of Eurystylus sp. nov. with other congeners from Korea are presented. Photographs of the Korean specimens, illustrations of the male genitalia, and diagnoses based on main characters with a key to the Korean species are also provided.

Arboridia(두점박이애매미충) 속(노린재목: 매미아목: 매미충과: 매미충아과)의 국내 미기록 2종인 Arboridia lunula Song & Li, 2013 와 Arboridia agrillacea (Anufriev, 1969)을 기록한다. 성충의 사진과 함께 수컷의 생식기와 복부, 날개의 그림과 채집기록을 기재한다. 또한 국내 Arboridia 속의 검색표를 제공한다.

한반도 장님노린재과의 미기록속 Neomegacoelum 속을 처음으로 확인하고 Neomegacoelum vitreum (Kerzhner, 1988)의 한반도 분포를 보 고한다. 성충과 생식기의 사진 등의 형태학적 정보와 생태학적 정보가 함께 제공된다.

The plant bug, Nesidiocoris tenuis (Reuter, 1895), is used as a biological control agent on various crops such as tomato and paprika. In this study, the egg and all the nymphal stages of N. tenuis are described and illustrated for the first time based on morphological characters. The main morphological characters of each instar are as follows: body shape, body size, development of wing pads, density of pubescent covered with abdomen, and colorations of antenna and legs, etc. Additionally, biological information such as feeding habits and mating are also provided with life cycle photographs.

The genus Arboridia Zachvatkin belongs to the tribe Erythroneurini of the subfamily Typhlocybinae (Hemiptera: Auchenorrhyncha: Cicadellidae). A total of 69 valid species have been described in the Palaearctic and Oriental region. So far, seven species of this genus have been recorded in the Korean Peninsula. In this study, we present two new species, Arboridia sp. nov. 1, Arboridia sp. nov. 2, and provide a key to the Arboridia species in the Korean Peninsula with biological information such as host plants and distributions.

Grapevines are cultivated globally, and are also damaged by a large number of insect pests especially including leafhoppers. Leafhoppers are one of the important insect pests on various crops including grape. Among them, the genus Arboridia Zachvatkin (Hemiptera: Auchenorrhyncha: Cicadellidae: Typhlocybinae) was known as insect pests against grape farming. Eighty species were described in the genus in the world, and eight species were recorded in the Korean Peninsula so far, which are: Arboridia apicalis, A. kakogawana, A. koreacola, A. maculifrons, A. nigrigena, A. okamotonis, A. silvarum, A. suzukii. Among them, A. apicalis, A. kakogawana, A. maculifrons, A. nigrigena, A. suzukii have been known as important insect pests on grapes. In this talk, we propose a new species from the Korean Peninsula, and confirmed two new records: A. agrillacea and A. lunula. Additionally we present differential diagnoses of the Arboridia species damaging on grapevines for the field of applied biology.

The genus Capsus Fabricius (Hemiptera: Heteroptera: Miridae: Mirinae) from the Korean Peninsula is reviewed. Biological information such as host plants and distributions, and important morphological characters for each species are presented. Photographs of the Korean specimens and illustrations of male genitalia, and diagnoses based on main characters with a key to the Palaearctic species are provided.

Cimicomorpha is one of the most diverse groups in true bugs comprising more than 20,000 species, which attract a great attention for a variety of life-history strategies as well as for agricultural and medical aspects as followed: traumatic insemination in the bed bugs and their relatives (Cimicoidea), diverse feedinghabits in the plant bugs (Miridae), parasitism and blood-feeding in the bed bugs and their relatives (Cimicidae and Polyctenidae), agricultural pests in the lace bugs and the plant bugs (Tingidae and Miridae), biological control agents in the minute pirate bugs and the plant bugs (e.g., the genus Orius), disease transmission in the Triatominae (Reduviidae), and micro-habitat transitions in the assassin bugs and the flower bugs (Reduviidae and Anthocoridae). In this talk, I conducted the phylogenetic analyses of the Cimicomorpha based on the molecular data. Additionally, through the phylogenetic comparative analyses, I also present the evolutionary history of the specialized biological traits of the Cimicomorpha.

Oecophoridae (Lepidoptera: Gelechioidea), the concealer moths, is worldwide in distribution and comprises more than 4,000 described, particularly in Australia with over 3,000 endemic species. To date, the phylogenetic relationships of Oecophoridae have been poorly known, except a few works on the higher-level phylogeny of the superfamily Gelechioidea which includes some species of Oecophoridae. This study is the first comprehensive molecular phylogenetic analysis of Oecophoridae, based on 4,395 base pairs of mitochondrial protein coding gene (COI), nuclear ribosomal RNA genes (18S and 28S) and nuclear protein coding genes (IDH, MDH, Rps5, EF1a and wingless) for 82 taxa. Data were analysed using maximum likelihood (ML), maximum parsimony (MP) and Bayesian inference (BI) phylogenetic frameworks. The results are shown that the family Oecophoridae is not monophyletic, as the genus Casmara is closely clustered with Stathmopodidae far from the Oecophorid lineage and the genera Tyrolimnas and Phaeosaces are closely clustered with Depressariinae in the Elachistid lineage. Main clade of Oecophoridae comprises Xyloryctinae previously assigned to Xyloryctidae, closely claded with New Zealandian Oecophorids including the genera Hierodoris, Gymnobatra and Izatha; the problematic position group, Acryptolechia spp., Deuterogoniinae and Oecophorinae.

Traumatic insemination (TI), an extraordinary copulation strategy, is most prevalent in cimicoid true bugs (Insecta: Hemiptera) among invertebrates including insects. Here, we resolved the evolutionary history of TI and the females’ adaptations by conducting molecular phylogenetic analyses and comparative studies based on the phylgenetic relationships. We found a sister group relationship of Curaliidae + Lasiochilidae, which are the only groups among Cimicoidea not likely engaged in TI. Divergence time estimates revealed that TI is a behavior of antiquity that first evolved in the Early Jurassic 188Mya (95% highest posterior density = 157 – 221). Furthermore, ancestral character state reconstructions indicated that TI evolved only once from standard insemination in Cimicoidea. The results revealed that only TI is correlated with PS among the biological traits, and that evolutionary acquisition of PS was driven by selection of TI. Additionally, we found that not only are the three types of PS homoplastic to each other, but also that each of types could not be a homologous feature despite of same terminology, which suggests convergent evolution of the females’ morphology have occurred as females were adapting to TI.

The phylogeny of the subfamily Sciarinae is reconstructed by the result of maximum likelihood, maximum parsimony, and Bayesian inference of 4,809 bp from two mitochondrial (COI and 16S) and two nuclear (18S and 28S) genes. The current subfamily Sciarinae is polyphyletic, since the genera Chaetosciara, Mouffetina, Schwenckfeldina, and Scythropochroa are grouped separately as the sister clade of other subfamilies. The monophyly of the genera Chaetosciara, Sciara, Scythropochroa, and Trichosia s. str. is strongly supported; however, the genus Leptosciarella s. l. is polyphyletic due to the separation of subgenus Leptosciarella (Leptospina) as a sister taxa of remaining Sciarinae (Leptosciarella s. str., Sciara, and Trichosia s. str.). The classification of the Sciarinae is revised and discussed on the basis of molecular phylogenetic hypotheses.

The family Pterophoridae (Lepidoptera), plume moths, consist of 1,136 species listed in the ‘world catalogue’ by Gielis (2003), and a few more described since then. Approximately 250 species are known in the Palaearctic Regions (Arenberger, 1995). In this study, 35 species of 21 genera have been reviewed from Korea (Matsumura 1931, 1938; Zoological Society of Korea 1968; Park 1983; Arenberger 1991; Kim et al., 2010a, 2010b, 2012a, 2012b). We suggest the problematic species, Platyptilia ignifera, is morphologically and genetically separated from congeneric species supporting the possibility as a new genus, and employ the classification system of Arenberger (1995) rather than that of Gielis (1993) using parsimony based on morphological characters.

Cimicomorpha is one of the most diverse groups in true bugs, and attract a great attention for a variety of reasons, among them, extraordinary insemination methods in the bed bugs and their relatives (Cimicoidea), feeding-habits alternations in the plant bugs (Miridae), parasitism in the bed bugs and their relatives (Cimicidae and Polyctenidae), agricultural pests in the lace bugs and the plant bugs (Tingidae and Miridae), biological control agents in the minute pirate bugs and the plant bugs (e.g., the genus Orius), disease transmission in the Triatominae (Reduviidae), and micro-habitat transition in the assassin bugs and the flower bugs (Reduviidae and Anthocoridae). In this talk, we propose the phylogenetic relationships within the Cimicomorpha especially including some critical taxa in terms of the biological traits such as haemocoelic insemination and parasitism (e.g., the species belonging to Lasiochilidae, Lyctocoridae, Prostemminae and Corydromius). Based on the phylogenetic results, we also present the evolutionary history of the specialized biological traits of the Cimicomorpha using phylogenetic comparative analyses.

The cladistics analysis of subfamily Phylinae, based on molecular data analysis of 3655 base pairs of mitochondrial (16S, COI) and nuclear (18S, 28S) ribosomal DNA for 66 taxa in five tribes were conducted. Partitions of datasets were aligned using different algorithms implemented in MAFFT, further combined through sequence matrix and the combined dataset was analyzed using partitioned maximum likelihood. Clades in analytical method comprise six subfamilies of Miridae as outgroup: Isometopinae, Cylapinae, Bryocorinae, Orthotylinae, Deraeocorinae, and Mirinae, and five tribes of ingroup in subfamily Phylinae: Auricillocorini, Hallodapini, Phylini, Leucophoropterini, and Pilophorini. In analysis, tribe Auricillocorini as sister group to all remaining phylines. Most of the tribes are monophyly, except largest tribe phylini, which is clearly divided as paraphyly.

Relationship with fungi is one of the habitat adaptation of Sciaridae. While the earlier studies suggested that many fungus gnats are playing as the important vectors of various fungus diseases on plants and mushrooms, evidences have not been well reported. Based on a multi-gene phylogeny, by the Bayesian framework, we propose the correlation of four morphological characters of adults and habitat adaptation from saproxylic to phytophagous in the Sciaridae. Our results suggest that the evolution of habitat transition from dead plant litter to the live plant is related to habitat adaptation to the phytophagy and the morphological characters of fore tibia apex is also related to the functional linkage between these traits. We performed Bayes factor-based tests, referred with evolutionary pathway test (EPT), to decide the correlated traits gained the during evolutionary processes. The EPTs strongly suggest that fore tibia structures appeared first and followed by plant-feeding adaptation. The divergence time estimations of Sciaridae are also largely congruent with the fossil records. The members of subfamily Megalosphyinae have radiated explosively and contemporaneously since the Oligocene, with the expansion of modern grasslands and the increase of herbivores. Consequently, we suggest that the evolutionary benefit of tibial structure may be closely related with the fungal carrying in Sciaridae.

Larval stages of Callipogon relictus (Semenov) (Coleoptera: Cerambycidae), a gigantic longhorn beetle designated as a natural monument of Korea, has never been studied as it is hardly discovered in nature. The DNA barcoding gene, mt-COI, was used to identify a dead larva found in the Gwangneung forest of the Korea National Arboretum. Based on the result, we provide the morphology of the immature stage, with the illustrations of diagnostic characteristics.

Recently, biological systematic studies have contributed for understanding of evolutionary histories of living organisms. In this talk, I present how evolutionary histories are inferred from the phylogenetic relationships. Two case studies in the Cimicomorpha (Heteroptera) are presented: 1. Inferring ancestral character states of the plant bugs (Heteroptera: Miridae); 2. Revealing evolutionary history of the Cimicoidea based on correlated evolution between habitat selection and morphological characters (Heteroptera: Cimiciformes). Case I: The first comprehensive cladistic analysis of Miridae, the plant bugs, is presented based on analysis of 3935 base pairs of mitochondrial (16S, COI) and nuclear (18S, 28SD3) DNA for 91 taxa in seven subfamilies. Data were analyzed using maximum likelihood (ML), parsimony, and Bayesian inference (BI) phylogenetic frameworks. Divergence time estimates indicate that the radiation of the Miridae began in the Permian; most genus-level radiations within subfamilies began in the late Cretaceous, probably in response to the angiosperm radiation. Ancestral feeding state reconstructions based on Bayesian and parsimony inference were largely congruent and both reconstructed phytophagy as the ancestral state of the Miridae. Furthermore, the feeding habits of the common ancestors of Mirinae + Deraeocorinae, Bryocorinae + Cylapinae + Isometopinae + Orthotylinae, and the remaining taxa excluding Phylinae, were inferred as phytophagous. Therefore, at least three shifts from phytophagy or polyphagy to predation occurred within the Miridae. Case II: The diverse habitat types and discrete morphological characters of cimicoid species provide a unique opportunity to study correlated evolution. Phylogenetic relationships within Cimicoidea were determined using Bayesian analyses of molecular data, allowing the generation of testable hypotheses of correlated evolution. An investigation of the correlation between habitat selection and morphological characters revealed that a dead plant habitat was correlated with the filiform antennal type. Furthermore, molecular dating analysis was used to examine divergence times within the Cimicoidea. Transitions to live plants from dead plants for most cimicoid clades started right after the mid–Cretaceous, coinciding with the radiation of the angiosperms. Using contingency analyses, I determined that evolutionary changes in morphological characters were dependent on habitat selection. Based on these results, I propose evolutionary historical hypotheses for the Cimicoidea.

In a revision of four Eurydema speices recorded in Far East Asia, we confirm only two species, one of which consists of two subspecies: E. dominulus (Scopoli 1763) [=E. pulchra (Westwood 1837), syn. nov.], E. gebleri gebleri Kolenati 1846, and E. gebleri rugosa Motschulsky 1861 [stat. nov.]. In order to prove the above taxonomic changes, we compared three major characters; (1) the color patterns, (2) the mitochondrial COI (DNA barcoding) and (3) cross– breeding fertility (inter–specific copulation). Two subspecies, E. g. rugosa and E. g. gebleri, preserve their own unique coloration patterns, confirmed by the intra–subspecific copulation and breeding. Interestingly, the 1st progeny from the inter–subspecific copulation of E. g. rugosa♂ X E. g. gebleri♀ (or E. g. gebleri♂ X E. g. rugosa♀) take the coloration patterns inherited from E. g. gebleri.

We present the first comprehensive cladistic analysis of Miridae, the plant bugs, based on analysis of 3935 base pairs of mitochondrial (16S, COI) and nuclear (18S, 28SD3) DNA for 91 taxa in seven subfamilies. We analyzed the data using maximum likelihood (ML), maximum parsimony (MP), and Bayesian inference (BI) phylogenetic frameworks. A Bayesian relaxed molecular clock was used to examine divergence times, and ancestral feeding habits were reconstructed using parsimony and a Bayesian approach. Clades recovered in all analyses are as follows: Cimicomorpha, Miroidea, and Miridae; Bryocorinae: Bryocorini; Stenodemini; Mirinae; Deraeocorinae (Clevinemini + Deraeocorini); Cylapinae; Isometopinae; Bryocorinae: Dicyphini; Orthotylini; Phylinae (Phylini + Pilophorini), and Phylinae is sister-group to all the remaining mirid taxa. These results are largely congruent with former hypotheses based on morphological data with respect to the monophyly of various subfamilies and tribes however, our results indicate that the subfamily Bryocorinae is not a monophyletic group as the two tribes, Dicypini and Bryocorini, were separated in our phylogeny. Ancestral feeding state reconstructions based on Bayesian and parsimony inference were largely congruent and both reconstructed phytophagy at the root of the Miridae.

Systematic studies within the family Pterophoridae have been determined by external morpholgical characteristics (Yano 1963, Spuler 1910, Meyrick 1910). However, it is sometimes to be the result of species misplacement by the variation, depending on geographic isolation and genetic drift (Moran, 1986; Shufran et al., 2000; Anstead et al., 2002; Margaritopoulos et al., 2006). The genus Platyptilia Hübner [1925] is one of the largest genera of the family comprising more than 100 species according to the World’s Catalog by Gielis (2003) mainly distributed from Palaearctic and Afrotropical regions. Within the genus, Platyptilia ignifera has been suspected as very differentiated from other congeneric species in the morphological characters. In this study, to ascertain a placement of the species, we performed molecular analysis with one mitochondrial gene, COI and one nuclear gene, 28S, and morphometric analysis based on six ratios characters using principal components analysis (PCA). The sequences of the two genes, COI, 28S, implied that Platyptilia ignifera separated from Platyptilia spp. In addition, P. ignifera exhibited morphological characteristics distinct from other congeneric species. Based on these results, we propose that Neoplatyptilia gen. nov., for Platyptilia ignifera.