Kazumi Hosoya

Species diversity and abundance of freshwater fishes in irrigation ditches around rice fields

The relationships between environmental variables, distribution of freshwater fishes and their diet were investigated at 40 sites on irrigation ditches for rice fields in central Japan. Multivariate analyses showed that fish species richness and diversity in ditches was high when fishes were able to easily invade the rice fields. Natural stream beds not covered by concrete had greater total number and biomass of fishes in irrigation ditches. The connection between ditches and rice fields was of secondary importance. Canonical correlation analysis indicated that the two principal fish community variables, abundance and diversity, were respectively represented by the presence of the minnow, Gnathopogon elongatus elongatus, and the absence of the loach, Misgurnus anguillicaudatus. Most fishes in the irrigation ditches predominantly preyed upon aquatic insects such as ephemeropteran nymphs, chironomid larvae and trichopteran larvae, but aerial insects and benthic algae were also fed upon by a few species. Small fishes (<4 cm SL) preyed more on chironomid and less on trichopteran larvae than large (≥4 cm SL) fishes. The diet overlap between species was extremely high for small fishes in ditches weakly connected with rice fields. The recent changes in rice fields and irrigation ditches to increase production efficiency has led to a decrease in fish diversity. For the coexistence of rice production and fish diversity in rice areas, a new irrigation system, where fishes can easily invade rice fields and where plenty of invertebrates are available for fishes, should be developed.

Distribution of the freshwater fishes of Japan: an historical overview

Japanese freshwater fishes, including lampreys, comprise 15 orders, 35 families, and 96 genera, with 211 species and subspecies. Most belong to the families Cyprinidae (29% of species and subspecies), Gobiidae (21%), Salmonidae (10%), and Cobitidae (8%). Cyprinids and cobitids presumably originated from east Asia, gobiids from southeast Asia, and cottids and salmonids from the north Pacific. Japanese freshwater fishes include 88 endemic species and subspecies, of which three have been extirpated. Fishes introduced into natural rivers and lakes for inland commercial fisheries and sport fishing, and by accident, include many exotic species, of which 23 now inhabit natural freshwaters. These often have destroyed the local fish fauna by predation, and caused genetic pollution by hybridization with local strains. Destruction of freshwater environments by land development also poses a threat to Japanese freshwater fish communities. In addition Japanese freshwater systems have been markedly altered by development of rice paddy fields which have caused some species to decline but others to flourish, and changed the distribution patterns of fishes between upstream and downstream areas. To conserve endangered species and declining communities of Japanese freshwater fishes, we need to clarify the characteristics of their original habitats and the effects of developing paddy fields, from both the ecological and historical points of view.

Phylogenetic relationships of the Japanese minnows, Pseudorasbora (Cyprinidae), as inferred from mitochondrial 16S rRNA gene sequences

The phylogenetic relationships among threePseudorasbora fishes (Cyprinidae, Sarcocheiichthyinae) occurring in Japan (P. parva, P. pumila pumila andP. pumila subsp. sensu Nakamura [1963]) were inferred from nucleotide sequences of the mitochondrial 16S rRNA gene. The sequences. of 1240 bp, were determined and compared for 22 specimens from 2–8 populations for each taxon, with a singlePungtungia herzi specimen as an outgroup. A total of 171 sites (13.8%) were variable among the specimens, but only 0–2 sites within each population. The phylogenetic relationships estimated by neighbor-joining, maximum-parsimony and maximum-likelihood methods confirmed a sister relationship between the twoP. pumila subspecies, with a high level of confidence. However, their genetic distinction from each other (4.1±0.4SD % sequence difference on average) was at a level similar to that between them andP. parva (5.9±0.5%). The geographic distribution of the twoP. pumila subspecies, which are separated by the Fossa Magna region, suggests that the genetic divergence of the two subspecies originated from a vicariant process separating the freshwater ichthyofaunas of eastern and western Honshu.Pseudorasbora parva populations were divided into two genetic groups (1.8±0.2% sequence difference), one group comprising continental and part of the Japanese populations, and the other the remaining Japanese populations. This suggests that at least two genetically divergent lineages had been originally distributed in Japan, but a strong possibility remains that the present situation has resulted from artificial transplantation.

Phylogeography of Loaches of the Genus Lefua (Balitoridae, Cypriniformes) Inferred from Mitochondrial DNA Sequences

Abstract In order to elucidate phylogenetic relationships and intraspecific variations and to infer the evolutionary process of loaches of the genus Lefua, we analyzed nucleotide sequences of the mitochondrial D-loop region of 100 specimens obtained from 97 localities in Japan and Korea. The genus Lefua includes three described species, L. nikkonis, L. echigonia, and L. costata and an undescribed species, Lefua sp. Our results showed that each species of Lefua formed a monophyletic group, indicating clearly that Lefua species can be genetically distinguished from one another. Lefua nikkonis was the most closely related to L. costata, while L. sp. was the most closely related to L. echigonia. Specimens of L. sp. were grouped into two intraspecific populations and specimens of L. echigonia were grouped into six populations. These populations were well separated geographically from one another by mountain ranges and highlands. We estimated the evolutionary time for splitting of the species and intraspecific populations, and speculated on the evolutionary process of the genus Lefua. Species of Lefua are severely threatened. Fundamental genetic information is indispensable for conservation. We presented genetic background in order to protect these threatened loaches.

Phylogenetic Relationships and Intraspecific Variations of Loaches of the Genus Lefua (Balitoridae, Cypriniformes)

Abstract Three nominal species are known in East Asian balitorid loaches of the genus Lefua, i.e. L. echigonia, L. nikkonis, and L. costata. Lefua echigonia, with large morphological variations was recently separated into two groups, L. echigonia including the holotype and L. sp., based on morphological and ecological traits. We performed protein and DNA analyses to elucidate phylogenetic relationships among loaches of the genus Lefua and to settle the taxonomic status of L. sp. We also investigated intraspecific variations in L. echigonia s. str. to shed light on the process of formation of freshwater fish fauna in Japan. Protein analyses using two-dimensional gel electrophoresis showed that genetic distances between L. sp. and L. echigonia s. str. and between L. sp. and L. nikkonis were as large as that between L. echigonia s. str. and L. nikkonis. DNA analyses of the mitochondrial D-loop region showed that L. sp. and L. echigonia s. str. were monophyletic, respectively, while neither L. nikkonis nor L. costata was monophyletic and these species formed together a clade. The results supported the specific status of L. sp. and proposed reevaluation of the taxonomic status of L. nikkonis and L. costata. DNA analyses also showed that L. sp. was more closely related to L. echigonia s. str. than to the L. nikkonis-L. costata complex, and four local populations were distinguished in L. echigonia s. str. Distribution patterns of the four local populations of L. echigonia s. str. in Japan were approximately congruent with those of the medaka, Oryzias latipes, suggesting that differentiation in the two distantly related fishes have a common historical background.

Zacco sieboldii, a species distinct from Zacco temminckii (Cyprinidae)

Abstract Two biological types of Japanese dark chub, so-called types A and B of Zacco temminckii, were taxonomically inspected. A comparison of types A and B with the lectotypes of Leuciscus sieboldii and L. temminckii in Siebolds collection revealed that type A is identical to L. sieboldii, whereas type B matches L. temminckii. Hence, Zacco sieboldii and Z. temminckii were redescribed on the basis of the lectotype and additional specimens from Japan. Zacco sieboldii is distinguishable from Z. temminckii by having a narrower band on the anterior portion of both body sides, nine branched rays of anal fin (10 in Z. temminckii), lateral line scales not less than 53 (not more than 52 in Z. temminckii), and scales above lateral line not less than 13 (not more than 11 in Z. temmincki). A key to the species of Japanese Zacco is also provided.

A study of the systematics of cyprinid fishes by two-dimensional gel electrophoresis

This study was carried out to shed light on confused subfamilial groupings in the Cyprinidae from the biochemical viewpoint at the molecular level, specifically by using two-dimensional gel electrophoresis of liver proteins. Six pairs of cypriniform fishes, which are different from one another at familial, subfamilial, generic, specific, subspecific, and individual levels, were compared. The genetic distances between pairs of fishes increased as taxonomic ranks of the pairs became higher, confirming the reliable usefulness of this technique. Four species representing the different subfamilies, Cyprininae, Gobioninae, Acheilognathinae, and Leuciscinae, were compared to give new insight into relationships at the subfamilial level. Cyprinus carpio (Cyprininae) and Pseudogobio esocinus esocinus (Gobioninae) gave the smallest genetic distance and the largest values were obtained between either one of the above species and Acheilognathus melanogaster (Acheilognathinae), suggesting that the former two subfamilies compose the most closely related group that is in turn distantly related to Acheilognathinae. Tribolodon hakonensis (Leuciscinae) had almost equal genetic distances to the three other species.

Genetic differentiation between two types of dark chub,Zacco temmincki, in Japan

Two types of the dark chub,Zacco temmincki, collected from 10 river systems in Japan were genetically characterized at 27 protein coding loci using starch-gel electrophoresis. They were fixed for different alleles at 13 loci. No hybrid individuals were observed, even in specimens collected in stations where both types appear sympatrically, indicating that each type of the dark chub represents a distinct species.

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.

Osteology of Zacco pachycephalus, sensu Jordan & Evermann (1903), with special reference to its systematic position

The skeletal system of Zacco pachycephalus, sensu Jordan & Evermann (1903), is described and compared with that of other related barilines to clarify its systematic position. Osteological characters fall generally into two categories in terms of apomorphic features. The first category is exemplified by autapomorphies such as lower jaw bone shape and the number of branchiostegal rays and hypurals. The latter characters are highly unusual among Cyprinidae. The second category consists of synapomorphies linking Z. pachycephalus and Opsariichthys uncirostris. Specialization of jaw bones for a piscivorous habit is also notable. The quadrate-pterygoid fenestra of Z. pachycephalus and O. uncirostris is considered derived. We conclude that Zacco pachycephalus should be transferred from Zacco to Opsariichthys based on the present osteological analysis.