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ABSTRACT: According to investigation on two species of melitaeine butterflies in Yanjiaping Village, Chicheng County, Hebei Province,
China, between 1998–2002, together with the use of 1–10000 contour map of the local area, some conclusions are shown by the
SPSS and GIS analysis of data obained from GPS: (1) The two species of melitaeine butterflies have different metapopulation
structures.M. phoebe is a source-sink metapopulation, whileE. aurinia is a classical metapopulation, supporting the analytic result from our former genetic research. (2) The two species of melitaeine
butterflies exhibit different trends of population dynamics.M. phoebe source-sink metapopulation is very unsteady, and is always small, thus has a tendency to go extinct gradually. ButE. aurinia classical metapopulation is stable, and has maintained a larger population size. Therefore, it stands a better chance of
long-term survival. (3) The two species of melitaeine butterflies are significantly related in both patch occupancy and local
population size. (4) The effect of isolation is significant on the metapopulations of these two species of melitaeine butterflies,
consistent with the classical theories, whereas the effect of patch area is not significant on the metapopulations of these
two species of melitaeine butterflies, which is inconsistent with the classical theories. Therefore, other factors, such as
habitat quality, should be considered for their influences on metapopulations.
Keywordsmetapopulation-structure-dynamics-coexistent-
Melitaea phoebe
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Euphydryas aurinia
Chinese Science Bulletin 04/2012; 48(12):1239-1246. · 1.32 Impact Factor
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ABSTRACT: A group of small and transparent Asian noodlefishes (Osmeriformes: Salangidae) are commercially important fishery species, however, interrelationships among these fishes remain unresolved in previous studies using mitochondrial markers. We re-examine phylogenetic relationships of Salangidae by including complete taxon sampling, based on seven nuclear loci and one mitochondrial gene using a multilocus coalescence-based species-tree method. Our results show a well-resolved phylogeny of Salangidae that does not agree with previous hypotheses. The topology test suggests that our hypothesis represents the most likely phylogeny. Using the inferred species-tree as criterion, we recombine the rank of subfamilies and genera in the Salangidae, and erect a new genus Neosalangichthys. Our revised classification of Salangidae is well supported by reinterpreting previously proposed diagnostic characters. Finally, re-defined synapomorphic characters are used to erect a key to the genera of Salangidae.
Molecular Phylogenetics and Evolution 12/2011; 62(3):848-55. · 3.61 Impact Factor
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ABSTRACT: Few studies have explored the role of Cenozoic tectonic evolution in shaping patterns and processes of extant animal distributions within East Asian margins. We select Hynobius salamanders (Amphibia: Hynobiidae) as a model to examine biogeographical consequences of Cenozoic tectonic events within East Asian margins. First, we use GenBank molecular data to reconstruct phylogenetic interrelationships of Hynobius by bayesian and maximum likelihood analyses. Second, we estimate the divergence time using the bayesian relaxed clock approach and infer dispersal/vicariance histories under the 'dispersal-extinction-cladogenesis' model. Finally, we test whether evolutionary history and biogeographical processes of Hynobius should coincide with the predictions of two major hypotheses (the 'vicariance'/'out of southwestern Japan' hypothesis). The resulting phylogeny confirmed Hynobius as a monophyletic group, which could be divided into nine major clades associated with six geographical areas. Our results show that: (1) the most recent common ancestor of Hynobius was distributed in southwestern Japan and Hokkaido Island, (2) a sister taxon relationship between Hynobius retardatus and all remaining species was the results of a vicariance event between Hokkaido Island and southwestern Japan in the Middle Eocene, (3) ancestral Hynobius in southwestern Japan dispersed into the Taiwan Island, central China, 'Korean Peninsula and northeastern China' as well as northeastern Honshu during the Late Eocene-Late Miocene. Our findings suggest that Cenozoic tectonic evolution plays an important role in shaping disjunctive distributions of extant Hynobius within East Asian margins.
PLoS ONE 01/2011; 6(6):e21506. · 4.09 Impact Factor
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ABSTRACT: This study examines phylogenetic placement of the enigmatic Western Australian Lepidogalaxias, and extends previous studies by including eight new taxa to enable re-examination phylogenetic relationships of lower euteleostean fishes at the ordinal level, based on mitochondrial genomes from 39 ingroup taxa and 17 outgroups. Our results suggest that Lepidogalaxias occupies a basal position among all euteleosts, in contrast with earlier hypotheses that variously suggested a closer relationship to esocid fishes, or to the galaxiid Lovettia. In addition our evidence shows that Osmeriformes should be restricted Retropinnidae, Osmeridae, Plecoglossidae and Salangidae. This reduced Osmeriformes is supported in our results as the sister group of Stomiiformes. Galaxiidae, which is often closely linked to Osmeriformes, emerges as sister group of a combined Osmeriformes, Stomiiformes, Salmoniformes, Esociformes and Argentiformes, and we give Galaxiiformes the rank of order to include all remaining galaxioid fishes (Galaxias and allied taxa, Aplochiton and Lovettia). Our results also support a sister group relationship between Salmoniformes and Esociformes, which are together the sister group of Argentiniformes.
Molecular Phylogenetics and Evolution 11/2010; 57(2):932-6. · 3.61 Impact Factor
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ABSTRACT: Sequence divergence of mitochondrial COII was analyzed in 50 specimens belonging to five subspecies of Polyura eudamippus (Lepidoptera: Nymphalidae) collected from southern China. There were nine haplotypes in the 405 bp of partial COII sequence. Distribution of the five subspecies was primarily consistent with the spatial distribution of haplotypes. The K (st) statistic showed genetic differentiation among these subspecies, except between the pair of P. e. kuangtungensis and P. e. formosana, which were separated by the Taiwan Strait. This is consistent with the 10,000-year history of the Taiwan Strait, not long enough for detectable differentiation. The present distribution pattern of COII haplotypes of P. eudamippus should be shaped by the alteration of Pleistocene glaciations, and Yunnan might be the refugium of P. eudamippus in the ice age, judging from the abundant haplotypes remaining. There were two routes for P. eudamippus in the postglacial expansion, one northward to Sichuan, Chongqing, and Hubei and another eastward to the southeastern coast of mainland China and Taiwan Island. Because the haplotype of butterflies on Hainan Island (P. e. whiteheadi) was completely different from that of mainland China, it was estimated that butterflies on Hainan Island might be from the Indo-China Peninsula rather than from mainland China.
Biochemical Genetics 11/2006; 44(7-8):361-77. · 0.86 Impact Factor
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ABSTRACT: We used partial DNA sequences of cytochrome b and 16S mitochondrial genes to determine the phylogenetic placement of salangid fishes and the generic relationships within the salangids. Our molecular data strongly support the monophyly of salangid fishes, the inclusion of salangids in the Osmeridae, and the sister group relationship between salangids and osmerids. Our analyses suggest that Plecoglossus can be separated from all the other salangids and osmerids. Mallotus and Hypomesus are clustered within Osmerinae, rather than allied with Salanginae. As regards the relationships within the salangids, our analyses are incongruent with all previous classification hypotheses. Our phylogenetic analyses support the sister group relationships between Protosalanx and Neosalanx, and between Salanx and Hemisalanx. More evidences show that Leucosoma is more closely related to the Salanx-Hemisalanx clade, while Salangichthys forms part of an unresolved basal polytomy.
Molecular Phylogenetics and Evolution 05/2005; 35(1):76-84. · 3.61 Impact Factor
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ABSTRACT: Aim To document patterns in diversity, altitudinal range and body size of freshwater fishes along an elevational gradient in the Yangtze River basin.Location The Yangtze River basin, China.Methods We used published data to compile the distribution, altitudinal range and body size of freshwater fishes. Correlation, regression, clustering and graphical analyses were used to explore patterns in diversity, altitudinal range and body size of freshwater fishes in 100‐m elevation zones from 0 to 5200 m.Results Species richness patterns across the elevational gradient for total, non‐endemic and endemic fishes were different. The ratio of endemics to total richness peaked at mid elevation. Land area on a 500‐m interval scale explained a significant amount of the variation in species richness. Species density displayed two peaks at mid‐elevation zones. The cluster analysis revealed five distinct assemblages across the elevation gradient. The relationship between elevational range size and the midpoint of the elevational range revealed a triangular distribution. The frequency distribution of log maximum standard length data displayed an atypical right‐skewed pattern. Intermediate body sizes occurred across the greatest range of elevation while small and large body sizes possessed only small elevational amplitudes. The size‐elevation relationship between the two major families revealed a very strong pattern of body size constraint among the Cobitidae with no corresponding elevational constraint and a lot of body size and elevational diversification among the Cyprinidae.Main conclusion The data failed to support either Rapoport's rule or Bergmann's rule.
Global Ecology and Biogeography. 10/2004; 13(6):543 - 552.
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ABSTRACT: 1. Mark–release–recapture studies were conducted on two species of chequerspot butterfly, Euphydryas aurinia and Melitaea phoebe, in the same habitat patch network in Yanjiaping, a small basin in the Taihang Mountains, north-west of Beijing, China, in 2000.2. Euphydryas aurinia tended to stay in the habitat patches and to move to neighbouring patches, whereas M. phoebe moved widely among patches in the entire network.3. The parameters of the virtual migration model showed higher daily emigration propensity in M. phoebe and in E. aurinia males than in E. aurinia females, and significantly greater average daily movement distance in M. phoebe than in E. aurinia.4. The results are consistent with the previous findings showing genetic structuring among local populations of E. aurinia but not among local populations of M. phoebe.5. Based on the genetic and ecological results, it was concluded that E. aurinia has a classic metapopulation in the study area, whereas M. phoebe appears to have a source–sink metapopulation.6. In 2000, when there was an overall increase in the abundance of the two species, the limited mobility of E. aurinia resulted in an increase in the average local population size, whereas the increase in the number of local populations in M. phoebe was due to its high mobility.
Ecological Entomology 05/2004; 29(3):367 - 374. · 2.00 Impact Factor
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ABSTRACT: We analyzed genetic differentiation within metapopulations of two species of checkerspot butterfly, Euphydryas aurinia and Melitaea phoebe, in China. To generate genetic information, we used a new molecular technique, DALP - direct amplified length polymorphism. AMOVA results showed that most of the variation occurred among individuals within local populations of both E. aurinia and M. phoebe. However, while there was differentiation among local population in E. aurinia (P < 0.001), there was no subdivision in metapopulation of M. phoebe (P = 0.210). This is consistent with the behavior of M. phoebe adults being more dispersive than E. aurinia. Within the M. phoebe metapopulation, three neighboring patches were always occupied during the observation period (1998-2000). In addition, the number of individuals in these three populations accounted for the majority of M. phoebe larvae, and hence we conclude that the M. phoebe metapopulation might exist as a source-sink metapopulation. On the other hand, the E. aurinia metapopulation is an example of a classical metapopulation. Therefore, the conservation management of these two species should reflect these differences.
Biochemical Genetics 05/2003; 41(3-4):107-18. · 0.86 Impact Factor
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ABSTRACT: Non-vegetated creek edges were investigated to explore spatial nekton use patterns in a low salinity intertidal salt marsh creek network of the Yangtze River estuary along a stream-order gradient with four creek orders. Non-vegetated creek edges were arbitrarily defined as the approximately 3 m extending from the creek bank (the marsh–creek interface) into open water. Nekton was sampled using seine nets during daytime high slack water during spring tides for two or three days each in May through July 2008. Twenty-three nekton species (16 fishes and 7 crustaceans) were caught during the study. Fishes were dominated by gobies (Mugilogobius abei, Periophthalmus magnuspinnatus, Periophthalmus modestus, Synechogobius ommaturus), mullets (Chelon haematocheilus, Liza affinis) and Chinese sea bass (Lateolabrax maculatus). Crustaceans were dominated by mud crab (Helice tientsinensis) and white prawn (Exopalaemon carinicauda). Rank abundance curves revealed higher evenness of nekton assemblages in lower-order creeks compared to higher-order creeks. Fish abundance tended to increase with increasing creek order. Crustacean abundance was higher in the first–third order creeks than in the fourth-order creek. Dominant nekton species displayed various trends in abundance and length–frequency distributions along the stream-order gradient. The spatial separation of nekton assemblages between the first–third order creeks and the fourth-order creek could be attributed to geomorphological factors (distance to mouth and cross-sectional area). These findings indicate that both lower- and higher-order creek edges play important yet different roles for nekton species and life history stages in salt marshes.
Estuarine, Coastal and Shelf Science.
