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Shin, Seunggwan,Menze, Frank,Lee, Heungsik,Lee, Seunghwan 한국응용곤충학회 2014 Journal of Asia-Pacific Entomology Vol.17 No.3
The taxonomy of Zygoneura Meigen, 1830 (Diptera: Sciaridae) is studied. A total of three species of Zygoneura is found in Korea: Zygoneura (Zygoneura) sciarina Meigen, 1830, Zygoneura (Pharetratula) bidens (Mamaev, 1968), and Zygoneura (Pharetratula) flavicornis (Mamaev, 1968). Z. bidens is recorded from Korea for the first time. All three species are redescribed and illustrated, and a key to the Korean species is given. Furthermore, an updated world checklist of all species of Zygoneura is presented.
Seunggwan Shin,Young-Dae Kwon,Tae-Sung Kwon,Cheol Min Lee,Seunghwan Lee 한국응용곤충학회 2013 한국응용곤충학회 학술대회논문집 Vol.2013 No.10
Black fungus gnats play an important role as the decomposers in the forest ecosystem. Their larvae live on various organic matters, and the subfamily Sciarinae, in particular, have restricted habitats that feed on dead woods in the deep forest. We compared the biodiversity of family Sciaridae from two different habitats, the clear-cutting area (CA) and the pitch pine forest (PF) by the emergence traps (ET) and the pitfall traps (PT) from May to October, 2010. A total of 12 species were reliably identified to the species among 19 unique taxa belonging to 9 genera 4 subfamilies from 716 collected black fungus gnats. Taxonomic studies show that Corynoptera bicuspidata (Lengersdorf, 1926) (200 individuals, 27.9 % of total) and Cory. sinedens Hippa, Vilkamaa & Heller, 2010 (74 individuals, 10.3 % of total) dominate in the PF and the CA, respectively. Species richness and abundance of CA is lower than those of PF. Any species of subfamily Sciarinae were not collected in the CA. These findings indicate that the biodiversity of Sciaridae was influenced by forest management such as clear cutting, which leads to the changes of canopy cover, dead woods and leaf litter layer.
Evolution of Fly-Microorganism Relationships: Macroevolution of Sciaridae (Diptera: Bibionomorpha)
Seunggwan Shin,Seunghwan Lee 한국응용곤충학회 2013 한국응용곤충학회 학술대회논문집 Vol.2013 No.04
The synanthropic flies are regarded as the most important vectors of infectious diseases. Especially, feeding and reproductive habits make flies the important vectors of many pathogens such as malaria, yellow fever, dengue fever, typhoid fever, dysentery, and anthrax. Although most of lower flies (e.g. black-flies, mosquitos, sand-flies) transport diseases by bloodsucking, the mechanical dislodgment from exoskeleton is one of the important mechanisms of pathogens transmission for higher flies (Diptera: Brachycera) such as blow-flies, flesh-flies, and house-flies. According to recent phylogenetic studies, the Bibionomorpha is suggested as a sister taxon of the Brachycera as a monophyletic group “Neodiptera”. Coincidently, a part of black fungus gnats (Diptera: Bibionomorpha: Sciaridae) are known as the important vectors of fungal diseases on agricultural crops due to the spores carrying by there fore tibial structures. We propose that the correlation of spore carrying structures and habitats adaptation in the Sciaridae. The evolutionary pathway tests support that the fore tibia structures appeared first and followed by live plant habitats in the Sciaridae. Regarding analyses, we hypothesized that the evolutionary benefit of fungal carrying structures could be closely related with the larval habitats adaptation of Sciaridae. Interestingly, both adults of the synanthropic higher flies and the black fungus gnats are carrying various microorganisms by mechanical dislodgment from there tibial exoskeleton. The common habits of those flies could be providing clues about the evolution of the fly-microorganism interections.
Seunggwan Shin,Hyojoong Kim,Sunghoon Jung,Seunghwan Lee 한국응용곤충학회 2012 한국응용곤충학회 학술대회논문집 Vol.2012 No.05
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.
Molecular Phylogeny of the Subfamily Sciarinae Billberg (Diptera: Sciaridae)
Seunggwan Shin,Sunghoon Jung,Heungsik Lee,Seunghwan Lee 한국응용곤충학회 2012 한국응용곤충학회 학술대회논문집 Vol.2012 No.10
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.
Molecular identification of dipteran pest from shiitake mushroom bedlogs
Seunggwan Shin,Heungsik Lee,Seunghwan Lee 한국응용곤충학회 2011 한국응용곤충학회 학술대회논문집 Vol.2011 No.05
Cecidomyiidae and Sciaridae (Diptera: Sciaroidea) are mostly mycophagous, feeding on decaying plant materials and fungi. On the shiitake bedlogs, great number of larvae of the species cause serious damage, feeding on the mycelium of the shiitake mushroom. We confirmed five species emerged from the shiitake bedlogs, which are two cecidomyiids and three sciarids. Using the DNA barcording, the mitochondrial cytochrome c oxidase subunit I (COI) region (658 bp), the larvae and adult flies were identified, and Camptomyia corticalis was confirmed as a major pest on shiitake mushroom.