Phylogeography of loaches of the genus lefua (balitoridae, cypriniformes) inferred from mitochondrial DNA sequences

Photo images, 3D models and CT scanned data of loaches (Botiidae, Cobitidae and Nemacheilidae) of Japan

Background

Loach is one of the major cypriniform fishes in freshwater habitats of Japan; 35 taxa/clades have, until now, been recognised. Parallel to genetic studies, morphological examinations are needed for further development of loach study, eventually ichthyology and fish biology. Digital archiving, concerning taxonomy, ecology, ethology etc., is one of the progressive challenges for the open science of biology. This paper aimed to online publish photo images, 3D models and CT scanned data of all the known clades of loaches inhabiting Japan (103 individuals in total with several type specimens), contributing to ichthyology and public interest of biodiversity/biology.

New information

Photo images, 3D models and CT scanned data of all the known 35 taxa/clades of loaches inhabiting in Japan were online published at http://ffish.asia/loachesOfJapan and http://ffish.asia/loachesOfJapan3D.

Local Introgression of Mitochondrial DNA in Eight-Barbel Loaches of the Genus Lefua (Balitoridae, Cypriniformes)

The evolutionary history of eight-barbel loaches of the genus Lefua was investigated to resolve the faunal formation and evolutionary history of Japanese and East Asian freshwater fishes. In the present study, we found that seven Lefua specimens obtained from western Japan could not be assigned genetically to any population recognized so far, although they were morphologically and ecologically indistinguishable from Lefua sp 1. We tentatively designated the specimens as the Nihonkai population. Sequencing of the mitochondrial D-loop region showed that five specimens of the Nihonkai population were allied with the Kinki and Tokai populations of L. echigonia and other two with Lefua sp. 2, indicating a discrepancy between morphological-ecological and genetic traits. In order to determine whether the population experienced parallel evolution or introgression of mitochondrial DNA, we sequenced the nuclear ribosomal S7 subunit, and demonstrated that the Nihonkai population is included within Lefua sp. 1. These results indicate that the Nihonkai population can be identified as Lefua sp. 1, possessing introgressive mitochondrial DNA, and suggest that the evolutionary history and faunal formation of Japanese and East Asian freshwater fishes are more complicated than previously thought.

Mitochondrial cytochrome B phylogeny and historical biogeography of the Tohoku salamander, Hynobius lichenatus (Amphibia, Caudata)

The Tohoku salamander, Hynobius lichenatus Boulenger, 1883, is a lentic breeding species widespread throughout montane regions of northeastern Japan. To explore intraspecific genetic variation and infer evolutionary history of H. lichenatus, we performed mitochondrial DNA analysis (complete 1141 bp sequences of the mitochondrial cytochrome b gene) using 215 adult and larval individuals collected from 75 localities, encompassing known distributional range of the species. Hynobius lichenatus proved to be monophyletic, including three well-supported and geographically structured clades (Clade I from northern Kanto, Clade II from southern Tohoku, and Clade III from northern Tohoku). These clades, respectively, comprise several subclades, and show genetic distances as large as those seen between different species of Hynobius. Results of population statistic analyses indicate that all clades and most subclades have maintained high genetic diversity and demographic stability over long periods. Molecular dating indicates divergence in H. lichenatus concords with topographic evolution of northeastern Japan from late Miocene to early Pleistocene, suggesting that paleogeographic events in this region, such as orogenesis, sea level change, and volcanic activity, have been crucial for shaping genetic patterns and diversity in this species. Hynobius lichenatus greatly differs from many other animal species from northeastern Japan in its much older periods and the pattern of genetic differentiation, and is suggested as an old faunal element in this region.

Morphological taxonomy and molecular divergence of four balitorid species (subfamily: Nemachelinae) from Central Himalaya, India

The fishes in this study belong to the difficult group. It is difficult to identify about more than 50 nemacheilid loach species in India, mainly due to the poor quality of the original descriptions, the lack of good reviews, and the similarity of a number of the banded species. In view of this, a morphometric and genetic study was conducted on four species that have been documented in Central Himalayan region of India. Using comparative methods, a contribution to the knowledge about the variability of four Himalayan hillstream loaches, a molted loach Acanthocobitis botia (Hamilton, 1822), Nemacheilus corica (Hamilton, 1822), a creek loach Schistura beavani (Gunther, 1868), and Schistura montana (McClelland, 1838), was accomplished. Morphometric data were analyzed by univariate (CV and analysis of variance) and multivariate analyses (discriminant function analysis and cluster analysis). Based on the results of these statistical analyses, generally all four species grouped into their own species cluster with minimal overlap between two species of genus Schistura. Mitochondrial DNA cytochrome b (Cyt b) gene analysis revealed 7.7-17.6% genetic distances among the four species. Molecular phylogenetic relationship among these species and other Balitoridae species was investigated using published mitochondrial Cyt b sequences. Dendrograms obtained by the maximum likelihood and maximum parsimony method analyses exhibited the same topology. According to this topology, all the four species represented distinct species group and A. botia form the most distinct species while S. beavani and S. montana are clustered together with Nemacheilus species to form a single group. This work may build the base for the revision of taxonomic identity of fishes of the family Balitoridae. The results may further help to enhance the knowledge of the ichthyologists in understanding the fish fauna of India and assist them in planning conservation and management strategies for the propagation of these less studied small indigenous species along their natural range of distribution.

Parallel evolution in eight-barbel loaches of the genus Lefua (Balitoridae, Cypriniformes) revealed by mitochondrial and nuclear DNA phylogenies

The evolutionary history of eight-barbel loaches of the genus Lefua contains important phylogenetic information that will aid in resolution of the faunal formations and evolutionary histories of Japanese and East Asian freshwater fishes. Our sequencing of the mitochondrial D-loop region in a large number of samples allowed construction of the most comprehensive phylogeny of these loaches to date; we demonstrated monophyly of five Lefua species and identified populations of Lufua. sp. and Lefua echigonia. Loaches inhabiting the Tokai region in Japan were morphologically and ecologically indistinguishable from Lefua sp. However, they were included in the L. echigonia lineage. We determined a novel phylogeny by sequencing the nuclear ribosomal S7 subunit and showed that nuclear DNA phylogeny essentially matched the mitochondrial DNA phylogeny. Loaches from the Tokai region were part of the L. echigonia lineage, indicating parallel evolution between Tokai loaches and Lefua sp. in western Japan. We presented the most robust phylogeny to date using concatenated mitochondrial and nuclear sequences. The wealth of molecular information allowed us to speculate on evolutionary processes in the genus Lefua.

The complete mitochondrial genome of rock carp Procypris rabaudi (Cypriniformes: Cyprinidae) and phylogenetic implications

Rock carp, Procypris rabaudi (Tchang), is an endemic fish species in China. We sequenced the complete mitochondrial genome of it by high-fidelity polymerase chain reaction with conserved primers and primer walking sequencing method. The complete mitochondrial genome of rock carp is 16595 bp in length and contains 13 protein-coding genes, two ribosomal RNA (rRNA) genes, 22 transfer RNA (tRNA) genes and one control region, with an identical order to that of most other vertebrates. The origin of L-strand replication (OL) in rock carp mitochondrion is located in a cluster of five tRNA genes (WANCY region) with 35 nucleotides in length. The control region is located between the tRNA-Pro and tRNA-Phe genes and is 943 bp in length. Three conserved sequence blocks (CSB), an extended termination associated sequence (ETAS), an AT-repeat microsatellite sequence and a putative promoter sequence for H-strand transcription (HSP) were identified within this region. The microsatellite sequence has a very low variation, with only one repeat alteration in 50 checked individuals (from 12 to 13 repeats). The phylogenetic analysis for rock carp was performed with Bayesian and Maximum likelihood (ML) methods based on the concatenated nucleotide sequence of 12 protein-coding genes on the heavy strand. The result suggested that traditional taxonomic barbines possibly originated more early than cyprininaes; rock carp was placed at the position between barbines and cyprininaes, while has a closer relationship with cyprininaes than barbines.

Incongruence between mtDNA phylogeny and morphologial and ecological characters in loaches of the genus Lefua (Balitoridae, Cypriniformes)

To elucidate the phylogenetic position of Lefua loaches from Aichi and Shizuoka Prefectures of Honshu Island, Japan, we determined their nucleotide sequences for the mitochondrial D-loop region and compared these to sequences from four other Lefua species: L. costata, L. nikkonis, L. echigonia, and L. sp. Loaches identified as L. sp. on the basis of morphology comprised a clade (the L. sp. Tokai population) that grouped together with L. echigonia; hence, the processes involved in evolution within the genus Lefua were unclear. We performed randomly amplified polymorphic DNA (RAPD) analyses to obtain genetic information on nuclear DNA. The RAPD patterns of the L. sp. Tokai population differed from those of the local L. echigonia and L. sp. populations. The L. sp. Tokai population was similar to L. echigonia with regard to mitochondrial DNA but differed from L. echigonia and L. sp. with respect to nuclear DNA; this indicated that the evolutionary background of the L. sp. Tokai population was unique. We suggest that introgression of mitochondria occurred from L. echigonia to the L. sp. Tokai population, and speculate on the process of evolution of the latter population of Lefua. As with six L. echigonia populations and two L. sp. populations, we regard the L. sp. Tokai population as an evolutionary significant unit (ESU) that qualifies for protection as an endangered loach.