Your search keyword '"Yao, Cheng-te"' showing total 3 results

1. Strict allopatric speciation of sky island Pyrrhula erythaca species complex.

Author

Dong, Feng, Li, Shou-Hsien, Chiu, Chi-Cheng, Dong, Lu, Yao, Cheng-Te, and Yang, Xiao-Jun

Subjects

*VICARIANCE, *ECOLOGICAL niche, *ECOLOGICAL models, *GLACIAL climates, *ISLANDS, *GLACIAL landforms

Abstract

• The statistical model selection procedure favors strictly allopatric speciation. • Ecological niche modeling suggests climatic niche conservatism. • Divergence without gene flow might have been driven by niche conservatism. • Ecology can have a dynamic role in diversification of sky island species complex. • Genetic and behavioral data suggest two full species in traditionally defined Pyrrhula erythaca. Increasing evidence of post-divergence gene flow between taxa is shifting our understanding on the mode of speciation. A fundamental question arises concerning the circumstances under which strict allopatric speciation still holds true. Sky island populations might undergo reduced gene flow by niche conservatism to highland habitats and follow divergence in an allopatric manner. In this study, we tested this hypothesis in the sky island Grey-headed Bullfinch (Pyrrhula erythaca) species complex via statistical analyses of both genetic and ecological data. Results of coalescent-based analysis of multiple nuclear loci suggested that P. e. owstoni likely colonized Taiwan island during the severe mid-Pleistocene glacial climate followed by strictly allopatric divergence from P. e. erythaca distributed in Himalayas-Hengduan mountains and central North China. Results of ecological niche modeling suggested that their speciation may be attributed to the niche conservatism of these birds and the lack of a suitable ecological corridor during subsequent milder glacial episodes. In addition, we delimited the traditionally defined P. erythaca into two full species, P. erythaca in the Asian mainland and P. owstoni on the island of Taiwan, based on both genetic and behavioural evidences. These results suggest that ecology can have a dynamic role in allowing highland populations to expand their ranges and isolated by habitat barriers to diversify in a strictly allopatric manner. [ABSTRACT FROM AUTHOR]

Published

2020

2. Egg recognition abilities of tit species in the Paridae family: do Indomalayan tits exhibit higher recognition than Palearctic tits?

Author

Liu JP, Zhang L, Zhang L, Yang CC, Yao CT, Lu X, Møller AP, Wan DM, and Liang W

Subjects

Animals, China, Species Specificity, Ovum physiology, Passeriformes physiology, Recognition, Psychology physiology

Abstract

Recent studies have shown that the closely related cinereous tit ( Parus cinereus ) and green-backed tit ( P. monticolus ) in China display strong egg recognition ability in contrast to tit species in Europe, which lack such ability. However, egg recognition in other populations of cinereous and green-backed tits and additional Paridae species still requires further research. Here, we compared the egg recognition abilities of cinereous tits across China, green-backed tits ( P. m. insperatus ) in Taiwan, China, and five other species from the Paridae family, including the marsh tit ( Poecile palustris ), varied tit ( Sittiparus varius ), willow tit ( Poecile montanus ), coal tit ( Periparus ater ), and ground tit ( Pseudopodoces humilis ). Results showed that the Hebei (58.8% egg rejection, n =17) and Liaoning populations (53.3%, n =15) of cinereous tits, and the Guizhou (100%, n =12) and Taiwan populations (75%, n =12) of green-backed tits all exhibited high egg recognition ability. The egg recognition ability of these tits was significantly greater than that of the other five species in the Paridae family. The varied tit (5.4%, n =37), marsh tit (8.3%, n =12), willow tit (Hebei: 25%, n =20; Beijing: 9.5%, n =21), coal tit (16.7%, n =18), and ground tit (0, n =5) species all showed low egg recognition abilities, with no significant differences found among them. Egg recognition was not associated with a single phylogenetic group but occurred in several groups of tits. In particular, those species widely distributed in the Indomalayan realm, thus overlapping with small cuckoo species, displayed strong egg recognition ability, whereas tit species in the Palearctic realm exhibited low or no egg recognition ability.

Published

2020

3. Rejecting strictly allopatric speciation on a continental island: prolonged postdivergence gene flow between Taiwan (Leucodioptron taewanus, Passeriformes Timaliidae) and Chinese (L. canorum canorum) hwameis.

Author

Li JW, Yeung CK, Tsai PW, Lin RC, Yeh CF, Yao CT, Han L, Hung le M, Ding P, Wang Q, and Li SH

Subjects

Animals, Bayes Theorem, Cell Nucleus genetics, China, Geography, Haplotypes, Likelihood Functions, Models, Genetic, Polymorphism, Genetic, Regression Analysis, Sequence Analysis, DNA, Taiwan, Gene Flow, Genetic Speciation, Genetics, Population, Passeriformes genetics

Abstract

Allopatry is conventionally considered the geographical mode of speciation for continental island organisms. However, strictly allopatric speciation models that assume the lack of postdivergence gene flow seem oversimplified given the recurrence of land bridges during glacial periods since the late Pliocene. Here, to evaluate whether a continental island endemic, the Taiwan hwamei (Leucodioptron taewanus, Passeriformes Timaliidae) speciated in strict allopatry, we used weighted-regression-based approximate Bayesian computation (ABC) to analyse the genetic polymorphism of 18 neutral nuclear loci (total length: 8500 bp) in Taiwan hwamei and its continental sister species, the Chinese hwamei (L. canorum canorum). The nonallopatry model was found to fit better with observed genetic polymorphism of the two hwamei species (posterior possibility = 0.82). We also recovered unambiguous signals of nontrivial bidirectional postdivergence gene flow (N(e)m >> 1) between Chinese hwamei and Taiwan hwamei until 0.5 Ma. Divergence time was estimated to be 3.5 to 2 million years earlier than that estimated from mitochondrial cytochrome b sequences. Finally, using the inferred nonallopatry model to simulate genetic variation at 24 nuclear genes examined showed that the adiponectin receptor 1 gene may be under divergent adaptation. Our findings imply that the role of geographical barrier may be less prominent for the speciation of continental island endemics, and suggest a shift in speciation studies from simply correlating geographical barrier and genetic divergence to examining factors that facilitate and maintain divergence, e.g. differential selection and sexual selection, especially in the face of interpopulation gene flow.

Published

2010