Relationships of eelpouts of genus Zoarces (Zoarcidae, Pisces) inferred from molecular genetic and morphological data

Molecular genetic and morphological analysis of eelpouts of the genus Zoarces was carried out. Based on the mitochondrial DNA sequence variation, haplotypes of notched-fin eelpout, Z. elogatus, more closely related Fedorov eelpout, Z. fedorovi, and common eelpout, Z. viviparus, as well as of Andriyashev eelpout, Z. andriashevi, were grouped in one macrocluster. Haplotypes of American eelpout, Z. americanus, and blotched eelpout, Z. gillii, clustered separately from other species. The genetic differences between Z. gillii and the other eelpout species were very high for within-genus comparisons, constituting 7.62%. Species divergence in terms of morphological characters was generally consistent with molecular genetic data and confirmed distinct isolation of American eelpout, and especially of blotched eelpout.     

Ericandersonia sagamia, a new genus and species of deep-water eelpouts (Perciformes: Zoarcidae) from Japan

A new genus and species of deep-water zoarcid fish, Ericandersonia sagamia, is described on the basis of four specimens collected from Sagami Bay, Japan, at depths of 880–930 m. This species is placed in the subfamily Gymnelinae and is distinguished from all genera of gymnelines by the following characters: pseudosubmental crest present; frontals partially fused dorsally; parietals meeting in midline; pelvic fins absent; ventral ramus of posttemporal weak; postorbital head pores 5; pectoral-fin rays 14. The phylogenetic analysis (based on 42 morphological characters) indicates that its position is outside the highly modified (= advanced) genera Seleniolycus, Melanostigma, Puzanovia, Nalbantichthys, Opaeophacus, and Andriashevia.     

Species composition and distribution of Zoarcidae in the northern part of the Sea of Japan from the data of trawl surveys

Species composition, ratio, distribution, and size composition of Zoarcidae on the shelf and the upper part of the continental slope of the northern part of Japan at depths of 5 to 700 m were analyzed on the basis of four trawl surveys. In the studied area, nine species of Zoarcidae were found: Bilabria sp., Bothrocara hollandi, Davidijordania lacertina, Lycodes japonicus, L. nakamurae, L. cf. yamatoi, L. tanakae, L. toyamensis, and L. cf. ushakovi. Data on catches, density of distribution at different depths, and size composition are listed for each species. Four species: B. hollandi, L. tanakae, L. nakamurae, and L. cf. yamatoi have the greatest biomass and numbers among zoarcids in the northern part of the Sea of Japan. It was shown that zoarcids from the northern part of the Sea of Japan, similar to most demersal fish, perform seasonal migrations from the depths of 200 to 500 m, which they inhabit in the summer period, to depths larger than 400 m in the winter. It was found that the most common species of Zoarcidae (B. hollandi, L. tanakae, L. nakamurae, L. cf. yamatoi, and L. toyamensis) dwell mainly in waters of the intermediate water mass and the upper part of the Sea of Japan water mass. These species are abundant at depths larger than 200 m, which permits assigning them to a mesobenthal ecological group. All of the studied species of Zoarcidae from the given region are stenothermal—the temperature range of their habitation is below 2°C, as a rule, from 0.3 to 2.5°C.     

Lycodes nishimurai, a new deep-sea eelpout (Teleostei: Zoarcidae) from the Sea of Japan

A new zoarcid fish, Lycodes nishimuari, is described on the basis of four specimens from the Yamato Bank, the Sea of Japan, at depths of 642–669 m. Although this species resembles Lycodes diapterus, L. hubbsi, L. pectoralis, L. macrochir, and L. nakamurae in having a deep notch in the pectoral fin and a single lateral line on the body, it is distinguished from them by the following combination of characters: no scales on pectoral fin base; scales on dorsum before dorsal fin origin; suborbital, preopercular, and last postorbital pores with risen rim; whitish lips; no whitish transverse bars on body; pectoral fin membrane and anterior part of dorsal fin membrane without black spots; basal color of vertical fins black. Supplementary material to this paper is available in electronic format at .     

Relationships of eelpouts of the genus <Emphasis Type="Italic">Zoarces</Emphasis> (Zoarcidae,Pisces) inferred from molecular genetic and morphological data

Abstract-Molecular genetic and morphological analysis of eelpouts of the genus Zoarces was carried out. Based on the mitochondrial DNA sequence variation, haplotypes of notched-fin eelpout, Z. elogatus, more closely related Fedorov eelpout, Z. fedorovi, and common eelpout, Z. viviparus, as well as of Andriyashev eelpout, Z. andriashevi, were grouped in one macrocluster. Haplotypes of American eelpout, Z. americanus, and blotched eelpout, Z. gillii, clustered separately from other species. The genetic differences between Z. gillii and the other eelpout species were very high for within-genus comparisons, constituting 7.62%. Species divergence in terms of morphological characters was generally consistent with molecular genetic data and confirmed distinct isolation of American eelpout, and especially of blotched eelpout.     

New Data on the Shortcrevice Eelpout Gymnelopsis brevifenestrata (Zoarcidae) from the Sea of Okhotsk

Journal of Ichthyology - Shortcrevice eelpout Gymnelopsis brevifenestrata (Zoarcidae, Gymnelinae) is an endemic species of the Sea of Okhotsk; until recently, it was known by 12 type specimens from...     

Distribution of the Eelpout Lycodes soldatovi(Pisces: Zoarcidae) over the Continental Slope of the Sea of Okhotsk

The eelpout Lycodes soldatovi was found at depths of 153 to 1005 m in the Sea of Okhotsk; however, it usually inhabits the depth range of 400 to 800. The mean and maximum abundance and the biomass of this species were 198.5 and 1037 individuals per km² and 173.7 and 1275 kg/km², respectively. In view of the data on the distribution of young fish (up to 30 cm in total body length) and the reports on the absence of Lycodes larvae, a hypothesis was developed that this species spawns predominantly in the waters off western Kamchatka and eastern Sakhalin at the depth range of 700 to 900 m. Large individuals (>50 cm) exhibit higher migratory activity and are more tolerant of environmental conditions. That is why they are encountered throughout the distribution area of this species, even in subzero temperature areas. Lycodes soldatovi seems to be a typical inhabitant of the Sea of Okhotsk, except for the waters off the South and Central Kuril Islands and the Pacific waters off the North Kuril Islands.     

Larvae and Juveniles of the Genus Liparis (Pisces: Liparidae) from the Northwestern Sea of Japan

Larvae and juveniles of Liparis ochotensis, L. latifrons, L. tartaricus, L.brashnikovi, and L. kusnetzovi (Liparidae) are described for the first time based on ichthyoplankton catches carried out in the northwestern Sea of Japan in the decade 1992–2002. Our earlier published data on the larval development of L. agassizii and juveniles of L. punctulatus are supplemented. It is shown that larval development in the Liparis includes a planktonic stage. The larvae of different species turn into juveniles at a different lengths: under 15 mm in the case of littoral species and at about or over 20 mm in the case of sublittoral species. The major morphological characteristics of larvae of different Liparis species—body height and shape, pelvic disk length, preanal length, presence of a notch in the dorsal fin, pigmentation pattern, and others—have been distinguished. Original illustrations of larvae and juveniles are provided.     

Morphology of two eastern Pacific eelpouts (Pisces,Zoarcidae, Lycodes) in connection with features of distribution of species with a double lateral line

Morphology of two endemic eastern Pacific species of eelpouts—blackbelly Lycodes pacificus Collett, 1879 and bigfin L. cortezianus Gilbert, 1891—were studied. It was shown that these two species are characterized by unreduced seismosensory system of the head and belong to a species group with a double lateral line. It was suggested that the ancestral form of this species group could have possibly dispersed in the Atlantic Ocean through the Panama Canal in the pre-Pleistocene time. It is likely that the antitropical distribution of the Newfoundland eelpout L. terranovae is related this event.     

Cutaneous oxygen uptake in the antarctic icequab,Rhigophila dearborni (Pisces: Zoarcidae)

Summary Total resting oxygen uptake (VO₂) at-1.5°C in the scaleless antarctic icequab, Rhigophila dearborni (Fam. Zoarcidae), for fish with body mass (M_b) between 11.9 and 54.0 g may be summarized by the regression equation: log VO₂=0.23+0.47 log M_b. Oxygen uptake by the skin accounts for 35% of total resting VO₂ but cannot be increased to compensate for occluded branchial exchange. These data do not suggest that the species shows metabolic cold adaptation since the O₂ uptake rates at -1.5°C are among the lowest recorded for fish.     

New data on the Cainotheriidae (Mammalia, Artiodactyla) from the early Oligocene of south-western France

The Cainotheriidae are small artiodactyls that suddenly appeared in the late Eocene of western Europe. A revision of early Oligocene cainotheriid lineages is proposed on the basis of newly dated material from the Quercy Phosphorites (south-western France). A significant diversification of the group occurred at the end of the Eocene. Few species seem to have persisted through the Eocene/Oligocene boundary, but the Cainotheriidae subsequently diversified rapidly during the early Oligocene.  © 2005 The Linnean Society of London, Zoological Journal of the Linnean Society , 2005, 144 , 145−166.     

Relationships and divergence of some taxa of the subfamily Lycodinae (Zoarcidae,Pisces) based on molecular-genetic and morphological data

An integrated molecular-genetic and morphological study of 14 species of 6 genera of Zoarcidae of the subfamily Lycodinae was performed. A high coincidence of study results obtained using both methods was found. The generic independence of the genus Petroschmidtia that includes species P. albonotata and P. toyamensis was justified. It was shown that species L. schmidti and L. nigrocaudatus belong to the genus Lycogrammoides; and the generic status of the genus Bothrocarichthys with species B. microcephalus and of the genus Allolepis with species A. hollandi was restored. The studied taxa fall into three large monophyletic groups that include species of the genus Petroschmidtia, species of the genus Lycodes, and species of the genera Bothrocara, Allolepis, Bothrocarichthys, and Lycogrammoides. Taxa of the last group are characterized by a large complex of morphological differences from the first two groups, including the absence of ventral fins. A key to species and genera of Lycogrammoides and Bothrocarichthys was compiled. The problem of determination of the time of divergence of the studied zoarcid-like fish using the concept of “molecular clock” and its calibration according to paleontological and paleogeographic data is discussed.     

New species of Pogonophryne (Pisces, Artedidraconidae) from the Bellingshausen Sea, Antarctica

A new species of notothenioid fish, Pogonophryne bellingshausenensis n. sp., is described from the Bellingshausen Sea, Antarctica. The new species belongs to the dorsally-spotted “mentella” group of the genus and is characterized by having a short (about 13% SL) mental barbel with a short (about 16% of barbel length), narrow (barely wider than the stalk), and relatively inconspicuous terminal expansion composed of short, irregular, fingerlike processes. Compared to most other dorsally-spotted species of Pogonophryne (“barsukovi”, “marmorata”, and “mentella” groups), P. bellingshausenensis has a relatively wide (about 7% SL) interorbital region. An unspotted patch on the median dorsal surface of the head, posterior to the posttemporal ridges and anterior to the first dorsal fin, has not been observed previously in any dorsally-spotted species. The holotype was collected at 1,947 m, one of the deepest records for any species of Pogonophryne. A revised key to the ten species of the “mentella” group of Pogonophryne is also provided.     

Variation of coloration in <Emphasis Type=Italic>Lycodes yamatoi</Emphasis> Toyoshima, 1985 (Pisces: Zoarcidae) in the northern Sea of Japan

Specimens of eelpouts were found in the northern Sea of Japan that were externally similar to Lycodes yamatoi Toyoshima, 1985, but their coloration differed from the coloring known for this species. Comparative analysis of meristic characters and sequence comparison of mtDNA COI and cytb gene fragments did not reveal distinctions between specimens with different types of coloration. All studied specimens belong to L. yamatoi. The live color pattern of L. yamatoi is characterized by high variation, with two main types of coloration, “dark” and “bright.”     

Distribution and some biological features of Lycodes raridens (Zoarcidae) in the western part of the Bering Sea

Based on a bottom trawl survey, it is shown that in Karaginskii and Olyutorskii bays of the western part of the Bering Sea, Lycodes raridens is a typically elittoral species, since it was recorded at depths of 52–120 m, and the majority of individuals of this species were found in the range of depths 50–100 m. The maximum concentrations of Lycodes raridens were 139 ind./km² or 98 kg/km², whereas the average values of the distribution density of this species were 7.8 ind.km² or 5.4 kg/km². In Karaginskii and Olyutorskii bays, Lycodes raridens is represented by individuals with a length of 16–86 cm, weight of 34–4510 g, at the age of 1+ to 7+, although fish with a length of 30–50 cm, weight of 100–1000 g, and age of 3+–4+ dominate. The data obtained suggest that in the autumn or autumn-winter period, the study species spawns in the western part of the Bering Sea. The dominant food of Lycodes raridens here are amphipods, polychaetes, bivalves, and decapods; by occurrence and the relative content in the stomach (% of weight), amphipods (as a rule, Melita spp.) and bivalves (Yoldia spp. and Macoma sp.) dominate. Lycodes raridens is a benthophage in which, at the early stage of the life cycle, gammarids prevail in food; with growth, its diet becomes more diverse due to bivalves, polychaetes, and decapods.     

New species of pelagic eelpouts of the genus <Emphasis Type="Italic">Melanostigma</Emphasis> (Zoarcidae) from Western Antarctica

A new species, Melanostigma olgae sp. n., is described from the Southern Ocean. The type series was obtained along the South Sandwich Islands (Scotia Sea, Western Antarctic) at the depths of 800?850 m. The new species differs from the other representatives of Melanostigma genus by the original combination of the features of the seismosensory system, axial skeleton, and coloration. The homologization of the structural elements (senses) of the head canals of the lateral line has been done for the first time for the Melanostigma. Morphology of M. olgae allows considering this species as the most evolutionary advanced within the representatives of this genus inhabiting the Southern Ocean. The key of the Antarctic species of the genus Melanostigma is provided.