Your search keyword '"Houshuai Wang"' showing total 7 results

1. A new species of the genus Daplasa Moore from China based on morphological and molecular evidence (Lepidoptera: Erebidae: Lymantriinae)

Author

Houshuai Wang, Xuan An, W A Da, and Min Wang

Subjects

Male, Mitochondrial DNA, China, Insecta, Nuclear gene, Arthropoda, Male genitalia, Biology, Moths, Erebidae, Lepidoptera genitalia, Genus, Animalia, Animals, Ecology, Evolution, Behavior and Systematics, Phylogeny, Taxonomy, Phylogenetic tree, Biodiversity, biology.organism_classification, Lepidoptera, Genes, Mitochondrial, Evolutionary biology, Lymantriidae, Animal Science and Zoology, Lymantriinae

Abstract

A new species, Daplasa medoga sp. nov., is described from Tibet, China. The new species can be distinguished morphologically from all other known Daplasa species by its male genitalia with a sagittate uncus and distally broadly crotched valvae. The validity of new species is well supported by the molecular phylogenetic analyses of one mitochondrial gene (COI) and two nuclear genes (EF-1α & RPS5), with a total length of 2,324 bp.

Published

2021

2. A phylogenomic tree inferred with an inexpensive<scp>PCR</scp>‐generated probe kit resolves higher‐level relationships amongNeptisbutterflies (Nymphalidae: Limenitidinae)

Author

Niklas Janz, Fangzhou Ma, Yuan Zhang, Sören Nylin, Masaya Yago, Lijun Ma, Djunijanti Peggie, Niklas Wahlberg, David J. Lohman, Peng Zhang, Kwaku Aduse-Poku, Min Wang, and Houshuai Wang

Subjects

0106 biological sciences, 0301 basic medicine, Neptis, Phylogenetic tree, biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Nymphalidae, 03 medical and health sciences, Monophyly, 030104 developmental biology, Taxon, Evolutionary biology, Genus, Phylogenetics, Insect Science, Ecology, Evolution, Behavior and Systematics, Limenitidinae

Abstract

Recent advances in obtaining reduced representation libraries for next-generation sequencing permit phylogenomic analysis of species-rich, recently diverged taxa. In this study, we performed sequence capture with homemade PCR-generated probes to study diversification among closely related species in a large insect genus to examine the utility of this method. We reconstructed the phylogeny of Neptis Fabricius, a large and poorly studied nymphalid butterfly genus distributed throughout the Old World. We inferred relationships among 108 Neptis samples using 89 loci totaling up to 84 519 bp per specimen. Our taxon sample focused on Palearctic, Oriental and Australasian species, but included 8 African species and outgroups from 5 related genera. Maximum likelihood and Bayesian analyses yielded identical trees with full support for almost all nodes. We confirmed that Neptis is not monophyletic because Lasippa heliodore (Fabricius) and Phaedyma amphion (Linnaeus) are nested within the genus, and we redefine species groups for Neptis found outside of Africa. The statistical support of our results demonstrates that the probe set we employed is useful for inferring phylogenetic relationships among Neptis species and likely has great value for intrageneric phylogenetic reconstruction of Lepidoptera. Based on our results, we revise the following two taxa: Neptis heliodore comb. rev. and Neptis amphion comb. rev. (Less)

Published

2020

3. Molecular phylogenetic and morphological studies on the systematic position ofHeracula discivittareveal a new subfamily of Pseudobistonidae (Lepidoptera: Geometroidea)

Author

Min Wang, Jeremy D. Holloway, Sören Nylin, Houshuai Wang, and Niklas Wahlberg

Subjects

0106 biological sciences, 0301 basic medicine, Synapomorphy, Subfamily, LSID, Phylogenetic tree, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Geometroidea, Evolutionary biology, Genus, Insect Science, Taxonomy (biology), Ecology, Evolution, Behavior and Systematics, Lymantriinae

Abstract

Heracula discivitta Moore is an uncommon moth species currently recorded from India, Nepal and China. Although this species has traditionally been placed in Lymantriinae, its systematic position in Macroheterocera has been enigmatic due to its unique morphological features. Here we used molecular and morphological data to explore the systematic position of H. discivitta. Our molecular phylogenetic analyses indicate that this species is sister to Pseudobiston pinratanai Inoue, a member of a recently established monotypic family Pseudobistonidae. The examinations of morphological features further show that H. discivitta shares synapomorphies with Pseudobistonidae. Based on the analysis results, we propose a new subfamily of Pseudobistonidae (Heraculinae subfam.n.) to accommodate H. discivitta. The resemblance of the habitus to that of the brahmaeid genus Calliprogonos Mell & Hering is discussed. This published work has been registered on ZooBank, http://zoobank.org/urn:lsid:urn:lsid:zoobank.org:pub:63D17850-6D51-4E03-A5D6-F9EF6E7AF402. (Less)

Published

2019

4. Morphological and molecular evidence for a new species of the genus Panolis Hübner, [1821] (Lepidoptera: Noctuidae)

Author

Min Wang, Xuan An, Houshuai Wang, and Mamoru Owada

Subjects

Male, China, Insecta, Arthropoda, Zoology, Molecular evidence, Genitalia, Male, Moths, Lepidoptera genitalia, Genus, Animals, Animalia, Gene, Phylogeny, Ecology, Evolution, Behavior and Systematics, Taxonomy, Phylogenetic tree, biology, Biodiversity, biology.organism_classification, Lepidoptera, Genetic distance, Noctuidae, Mitochondrial cytochrome, Female, Animal Science and Zoology, Animal Distribution

Abstract

A new species of the genus Panolis Hübner, [1821], P. xundian sp. nov., is described and illustrated from southwestern China. It is well-defined morphologically by the male genitalia, with a well-developed pollex at the distal terminal of the sacculus and a broad, ventrally concave cucullus, the female corpus bursae with four long signum-stripes. Based on a 658 bp segment of the mitochondrial cytochrome c oxidase subunit I gene, we report the pairwise genetic distance of 2.5% from its allied species P. exquisita Draudt, 1950. Molecular phylogenetic analyses using three genes (2189 bp in total length) indicate that the new species belongs to the P. exquisita species group.

Published

2019

5. A multilocus analysis of Epicopeiidae (Lepidoptera, Geometroidea) provides new insights into their relationships and the evolutionary history of mimicry

Author

Yuan Zhang, Houshuai Wang, Si-Yao Huang, Dan Liang, and Peng Zhang

Subjects

0106 biological sciences, 0301 basic medicine, Time Factors, Character evolution, Epicopeiidae, Moths, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Monophyly, Geometroidea, Phylogenetics, Genetics, Animals, Clade, Molecular Biology, Phylogeny, Ecology, Evolution, Behavior and Systematics, Base Sequence, biology, Phylogenetic tree, Molecular Mimicry, Bayes Theorem, biology.organism_classification, Biological Evolution, 030104 developmental biology, Sister group, Genetic Loci, Evolutionary biology, Butterflies

Abstract

The family Epicopeiidae is a small group of day-flying moths, known for mimicking many different groups of butterflies and moths. So far, there still lacks a reliable phylogenetic framework of Epicopeiidae that is necessary to our understanding of the evolutionary process of their mimicry. In this study, we sequenced 94 nuclear protein-coding markers for 56 epicopeiid samples and 11 outgroups, covering all ten genera of Epicopeiidae. We used homemade PCR-generated baits to capture target sequences, which allowed us to utilize old and dried specimens that were difficult to handle by conventional PCR + Sanger sequencing. Maximum likelihood and Bayesian analyses of the newly obtained dataset (86,388 bp) at both DNA and protein levels produced identical phylogenies with strong support. The non-mimicry genus Deuveia is the sister group of other epicopeiid genera. Epicopeia and Nossa are not monophyletic, and these two genera nest together to form a clade. We also estimated divergence times of Epicopeiidae and found that their initial diversification happened in Eocene about 41 million years ago. The ancestral state reconstruction of mimicry type for this family suggested that the last common ancestor of epicopeiid moths is non-mimetic, and the Riodinidae-mimicry type evolved first. In summary, our work provides a comprehensive and robust time-calibrated phylogeny of Epicopeiidae that provides a sound framework for revising their classification and interpreting character evolution.

Published

2020

6. Molecular phylogeny of Lymantriinae (Lepidoptera, Noctuoidea, Erebidae) inferred from eight gene regions

Author

Daniel H. Janzen, Winnie Hallwachs, Min Wang, Lijun Wen, Xiao-Ling Fan, Sӧren Nylin, Houshuai Wang, Niklas Wahlberg, Johannes Bergsten, and Jeremy D. Holloway

Subjects

Subfamily, biology, Phylogenetic tree, Zoology, Biological Sciences, biology.organism_classification, Erebidae, Noctuoidea, Lepidoptera genitalia, Evolutionary biology, Molecular phylogenetics, ta1181, Biologiska vetenskaper, Gene, Ecology, Evolution, Behavior and Systematics, Lymantriinae

Abstract

To understand the evolutionary history of Lymantriinae and test the present higher-level classification, we performed the first broad-scale molecular phylogenetic analysis of the subfamily, based on 154 exemplars representing all recognized tribes and drawn from all major biogeographical regions. We used two mitochondrial genes (cytochrome c oxidase subunit I and 16S ribosomal RNA) and six nuclear genes (elongation factor-1 alpha, carbamoylphosphate synthase domain protein, ribosomal protein S5, cytosolic malate dehydrogenase, glyceraldehyde-3-phosphate dehydrogenase and wingless). Data matrices (in total 5424 bp) were analysed by parsimony and model-based evolutionary methods (maximum likelihood and Bayesian inference). Based on the results of the analyses, we present a new phylogenetic classification for Lymantriinae composed of seven well-supported tribes, two of which are proposed here as new: Arctornithini, Leucomini, Lymantriini, Orgyiini, Nygmiini, Daplasini trib. nov. and Locharnini trib. nov. We discuss the internal structure of each of these tribes and address some of the more complex problems with the genus-level classification, particularly within Orgyiini and Nygmiini.

Published

2014

7. Phylogeny, systematics and biogeography of the genus panolis (lepidoptera: noctuidae) based on morphological and molecular evidence

Author

Xiao-Ling Fan, Min Wang, Sören Nylin, Houshuai Wang, and Mamoru Owada

Subjects

Systematics, Male, China, Genetic Speciation, Zoology, lcsh:Medicine, Biology, Animal Phylogenetics, Moths, Cladistics, Genus, Phylogenetics, Molecular Systematics, Animals, Evolutionary Systematics, Clade, Molecular clock, lcsh:Science, Phylogeny, Taxonomy, Evolutionary Biology, Multidisciplinary, Phylogenetic tree, Models, Genetic, Cytochrome c oxidase subunit I, lcsh:R, Computational Biology, Sequence Analysis, DNA, Maximum parsimony, Phylogeography, Animal Taxonomy, Female, lcsh:Q, Sequence Analysis, Animal Distribution, Research Article

Abstract

The genus Panolis is a small group of noctuid moths with six recognized species distributed from Europe to East Asia, and best known for containing the widespread Palearctic pest species P. flammea, the pine beauty moth. However, a reliable classification and robust phylogenetic framework for this group of potentially economic importance are currently lacking. Here, we use morphological and molecular data (mitochondrial genes cytochrome c oxidase subunit I and 16S ribosomal RNA, nuclear gene elongation factor-1 alpha) to reconstruct the phylogeny of this genus, with a comprehensive systematic revision of all recognized species and a new one, P. ningshan sp. nov. The analysis results of maximum parsimony, maximum likelihood and Bayesian inferring methods for the combined morphological and molecular data sets are highly congruent, resulting in a robust phylogeny and identification of two clear species groups, i.e., the P. flammea species group and the P. exquisita species group. We also estimate the divergence times of Panolis moths using two conventional mutation rates for the arthropod mitochondrial COI gene with a comparison of two molecular clock models, as well as reconstruct their ancestral areas. Our results suggest that 1) Panolis is a young clade, originating from the Oriental region in China in the Late Miocene (6–10Mya), with an ancestral species in the P. flammea group extending northward to the Palearctic region some 3–6 Mya; 2) there is a clear possibility for a representative of the Palearctic clade to become established as an invasive species in the Nearctic taiga.

Published

2014