A new leaf beetle genus Yulongedon gen. nov., and two new species, Y. formosus sp. nov. and Y. jambhalai sp. nov. from China, are described and illustrated here.
Dynamostes audax Pascoe,1857 is newly recorded from China(Yunnan).Photographs of habitus and genitalia are presented.Melegena fulva Pu,1990 is newly recorded from Guangxi Province,Noemia submetallica Gressitt,1940 is newly recorded from Yunnan Province,Cyrtonops nigra Gahan,1906 is newly recorded from Xizang Autonomous Region.An updated catalogue of Chinese Disteniidae,including 3 tribes 7 genera and 27 species,is presented.
Members of the passerine family Sylviidae are distributed widely around the Old World and the phylogenetic relationships of many species still remain controversial.In this study,we investigated the phylogeny and relationships among 37 species of 11 genera by analyzing DNA sequences obtained from the complete mitochondrial cytochrome b (cyt b) and partial cytochrome oxidase I (COI) genes.The data were analyzed by maximum-likelihood analysis and Bayesian inference.The results demonstrate that the current genus Phylloscopus is non-monophyletic,while Seicercus is synonymized with Phylloscopus or is a group within the genus Phylloscopus.We may conclude that within Phylloscopus there are close relations between P.magnirostris and P.borealis;among P.proregulus,P.yunnanensis,P.pulcher and P.maculipennis,as well as among P.occisinensis,P.schwarzi,P.armandii,P.collybita and P.fuscatus.Monophyly of the genus Cettia could not be corroborated;it is closely related to the genera Abroscopus and Tesia.However monophyly of Acrocephalus is supported.Furthermore,the close relationships between Sylvia and Zosterops and among Prinia,Orthotomus and Cisticola are also supported.
The present study revisited the controversial taxonomic status ofPetaurista yunanensis, P. philippensis, P. hainana, and P. petaurista by using a considerably extended set of morphometrical characters (26 cranial variables from 60 adult specimen skulls). The results revealed no sexual dimorphism in any of the four species but confirmed significant craniometric differences among the four species in both the principal components analysis (PCA) and discriminant function analysis (DFA), with the greatest distinction observed between P. petaurista and other Petaurista species. Both univariate and multivariate analysis indicated that the morphological differences between P. yunanensis and P. philippensis were less than that between P. philippensis and P. hainana. The morphometric results were concordant in geographic patterns with mtDNA data from previous studies and indicated that P. petaurista, P. hainana, P. philippensis, and P. yunanensis could be recognized as valid species.
