魚類学雑誌 30 巻, 4 号

カリブ海から得られたスズキ科の1新種Neoscom-brops atlanticus

カリブ海から得られた標本に基づき, 新種.Neoscom-brops atlanticusを記載した, 本種は有孔側線鱗数が44～48 (平均46) であること, 第一鰓弓の下枝鰓紀数が14～18 (17) であること髪下顎側部の歯が小さいこと, 体部の鱗に櫛鱗が混じることにより同属の他種と明瞭に区別された。本種は大陸棚斜面の水深180～650mよりshrimp trawlで採集された。

日本産深海性ツノザメ科ビロードザメ属魚類の再検討および1新種の記載

駿河湾の水深450mから830mで得られた新種イチハラビロードザメScymnodon ichiharaiを記載した。さらに, これまで世界中で知られている同属の4種にっいても形態的比較を行った.
従来日本から報告されていたビロードザメS.squamulosusの模式標本を再調査した結果, 鱗にtransverse ridgesが存在し, またその種の外部形態, 脊椎骨数が, 大西洋から報告されているS.obscurusと変わらないことが判明した.従って, S.obscurusはビロードザメの同種異名と考えられた.ビロードザメ属は, 新種を含め4種が存在する。これら4種の検索表を以下に掲げる.

アカメLates japonicus sp.nov.の記載

高知県と宮崎県の沿岸・河口周辺に出現するアカメ科魚類アカメには, 従来一般にLatesc alcarifer (Bloch) の学名が与えられてきたが, 種の査定には疑問がもたれていた (Katayama et al., 1977).そこで本研究では日本, フィリヒ。ン, タイ, オーストラリア産のLates属魚類を比較したところ, 日本以外の地域からの標本はすべて形態的に同一でL.calcariferと同定されるが, 日本産のアカメは, L.calcariferのtype localityが日本ということになっている (Bloch, 1790) にもかかわらず, 未記載の別種であることが判明し, これをL.japonicus sp.nov.として記載した.Bloch (1790) のtype localityの表示は, おそらくjavanaiseをJaponaiseと混同したことからきた誤りと思われる (Cuvier in Cuvier and Valenciennes, 1828) 。
アカメLates/aponicusは, 体高体長比, 背鰭第3棘と轡鰭第2棘の相対長, 胸鰭条数, 鱗数, 鯉紀数の諸形質で, L.calcariferと区別される.本種はこれまで高知・宮崎両県下からのみ記録されている.

オーストラリア北部から得られたネズッポ科Callionymmus属の1新種

オーストラリア北部のNorthern TerritoriesのShoal Bayからネズッポ科Calliomymus属の1新種Calliomymus spinxを雄1個体にもとついて記載した。C.sphinxは, 背鰭第2・3棘が糸状に伸びる, 背鰭第3鰭膜に大きな黒斑がある, 唇鰭には色がなく後ろ3つの鰭膜の基部にひとつずつ小黒点があることなどで他種と区別される.

インド・西太平洋から得られたアマクサヨウジ属の1新種

アマクサヨウジ属の1新種をDana expeditionによって得られた幼魚に基づいて記載した.本種は他のヨウジウオ科魚類から以下の形質の組合わせによって識別される: 尾鰭をもつ, 躯幹部と尾部の上隆起線と下隆起線は連続する, 躯幹部の体輪数が19～20, 躯幹部の中央隆起線が尾部の10～13番目の体輪上で終わる。本種の成魚が得られていないので, アマクサヨウジウオ属への分類は暫定的なものである。プランクトン期の標本はスル海とセレベス海およびイリアンジャヤの北西沖1, 280～4, 825m深の海域の0～167m深で採集された。若魚と成魚は40m以深で採集されると考えられる。

Early Life History of Lutjanus vitta (Lutjanidae) in Yuya Bay, the Sea of Japan

The morphology and ecology of Lutjanus vitta in early developmental stages were studied.Materials were collected with plankton nets, seines and trawls from 1975 through 1977 in Yuya Bay located in the southwestern part of the Sea of Japan.Larvae and early juveniles of the fish are outstanding in having an elongate second dorsal spine, pelvic spines, and pelvic rays.The body is compressed, and the head is armoured with spines and bony projections on the maxillary, posttemporal, supracleithrum, postcleithrum and four opercular bones.The fish attain full fin ray counts at about 10mm SL (= standard length) and specific coloration around 24mm SL.Relative growth of the elongate fin elements consists of four stanzas delimited by three growth inflexions which occur at about 7, 16 and 32mm SL.Close correlations between morphological and ecological changes were observed.Larvae less than 7mm SL spend planktonic life in the open sea, showing rapid growth in fin elements, adapting to the life mode.At about 7mm SL, a sharp downward inflexion occurs simultaneously in these fin elements, and the negative growth rate is maintainted until the fish measure about 16mm SL.In this growth stanza, the fish develop free-swimming ability gradually, migrate into bays and concentrate in shallow waters.In the third growth stanza (16-32mm SL), relative growth is highly negative (the relative growth coefficients, a<<1) in these body parts and actually negative (a<0) in some of them indicating a fast decrease of these parts in proportion to the length of the fish.In this growth stanza the fish move into grass beds, and the transition from pelagic to demersal life is completed at the end of the stanza.Over 32 mm SL, relative growth is slightly negative and stable until 20 cm SL, the size limit of the observations.Stomach contents of demersal young fish caught in grass bed were analyzed and a flexible feeding strategy was demonstrated.The fish is seemingly a random feeder which utilizes the most abundant food items available from more than one microhabitat within grass beds.They take small fishes and crustaceans both at the sea bottom, on Zostera blades, and in the water column between Zostera blades.

走査型電子顕微鏡によるニジマス稚魚の細菌性鯛病に関する研究^*

正常な稚魚の鯉弁や二次鯉弁の上皮細胞の表面構造は, 迷路を思わしめる迂曲および分岐・吻合した細胞質の微小堤に富み, その長さは種々であるが, その幅は平均約275nmで, 平均約390nmの間隔で配列する.しかし, 過形成の病巣表面では, その特徴的な微小堤はほとんどなく, その代りに幅が520nmの微小堤が多くの部位でくびれ, ビーズ状になっているか, または550nmの微小顆粒状になっており, さらに病巣が進んだところではほぼ平滑になっている.
正常な塩類細胞の表面には太さが平均約460nmの短かい微絨毛様突起か等大の顆粒状突起があり, これらの間に極端に短かい微小堤が少数みられる.しかし, 病巣での塩類細胞の初期の変化は微絨毛様突起が増加し, 細くなり (平均約310nm), しかもひょうたんのごとくくびれている.これは, 微絨毛様突起の先端での小胞化によると思われる.さらに塩類細胞の自由表面が半球状に突出すると, そこには多くの大小不同ないぼ状突起がみられる.突出がさらに進むと, 太く短かい突起が少数あるだけで比較的滑らかになる.
正常な粘液細胞の表面は他の型の細胞より幾分高く, むしろ平滑である.しかし, 病巣の表面では粘液細胞の表面は突出し, 平滑かまたは分泌顆粒によると思われる小さな半球状の隆起が少数みられる.
肥大した二次鰓弁の表面は凹凸が顕著で, そこにみられる半球状態の表面は微細顆粒状または平滑である.進んだ過形成の表面はむしろ平滑である.

ニシン卵粘着物質の電顕的観察

ニシン卵は強い粘着性を示す。この粘性物質の起源と排卵された卵の卵膜中での所在部位を明らかにする目的で, 排卵前後の卵濾胞および排卵された卵の卵膜を電顕的に観察した。
排卵前の濾胞の顆粒膜細胞中には, メチレンブルーに濃染され, 種々の電子密度を示す直径2μm以下の顆粒が多数存在した.また, この顆粒は卵門細胞とその周囲の顆粒膜細胞には存在しなかった.これに対して排卵後の濾胞の顆粒膜細胞では顆粒が消失しており, 卵門部位を除く卵膜表面に電子密度の高い薄層が新たに認められ, この薄層は強い粘性を示した.また, 卵門部位の卵膜表面には粘着物質を欠き, これとは異なる物質が観察された。
以上の観察結果より, ニシン卵の粘着物質は, 排卵前濾胞の卵門域を除く顆粒膜細胞中に存在する顆粒に起源し, その顆粒は排卵直前に卵膜表面に分泌されることが明らかとなった。

コショウダイの初期生活史

Early life history of the threebanded sweetlip, Plectorhynchus cinctus was studied from eggs, larvae and juveniles reared in the laboratory.Juveniles collected from the Suo Sea in the western region of the Seto Inland Sea were also studied.The artificial insemination was carried out in June and July and larvae were reared from June 25 to September 7 of 1981.
Eggs were 0.79 mm in diameter, pelagic, spherical with a single oil globule of 0.20 mm in diameter.Incubation time was 33-35.5 hours at the temperatures of 21.6-23.2°C.Length of prolarva 2 hours after hatching was 2.2 mm.By the time of yolk absorption in three days larvae grew to 2.9 mm.Transformation of larvae to the juvenile stage was completed at 9.1 mm.During early developmental stages, outstanding features included the formation of head armatures and dense pigmentation of body.Head armatures were acquired in the sequence of preopercular spines at 3.3 mm, supraorbital and upper cleithral spines at 5.5 mm, and postocular and subopercular spines at 9.1 mm.Several of these spines and the conical teeth in early juveniles were lost in the advanced specimen of 21.3 mm.In advanced larvae and juveniles melanophores were scattered over the entire surface of body except the upper parts of soft dorsal and anal fins, pectoral fin and caudal fin including caudal peduncle.This color pattern changed rapidly by physical stimuli from the uniformly black to the pale with distinct four oblique bands suggesting the potential differentiation of the typical color pattern in this species.A wild-caught juvenile, 50 mm in total length was provided with three oblique bands and several dots which were more distinct and fewer than those in the adults.In the fields, juveniles were found from early July to early August in the surf zone in the waters surveyed.

ハリヨの性的二型

Three hundred and ninety five specimens of Gasterosteus aculeatus microcephalus were collected from the Yamayoke River and Tsuya River in the southwestern part of Gifu Prefecture and the Amano River in the northeastern part of Shiga Prefecture, Japan.Their morphometric and meristic characters were examined to study whether or not this species shows sexual dimorphism.
The number of anal fin rays showed a tendency to be larger in males than in females.Another marked sexual difference was found in the ratio of the head length to the body length: the pro-portional head length was clearly larger in males than in females.This dimorphism seemed to have occurred in relation to breeding habits.Males frequently use the head in fighting to guard their territory and in building nests.The larger head of males may make easy to do so.The ethological significance of the larger head of male is discussed.

ヒラマサの成熟促進, 卵内発生と幼稚仔

The present paper deals with ovarian maturation by hormone injection and morphological development of the amberjack, Seriola aureovittata Temminck et Schlegel.Ovarian maturation of the amberjack during the spawning season was successfully induced by injection of either “Gonatropin7” (Teikoku Zoki Mfg.Co.Ltd.), or Hypophthalmichthys molitix's pituitary homogenate, or H.molitrix's pituitary homogenate combined with “Gonatropin”.The last dosage was evaluated to be the most effective and reliable.The spawning period seemed to ex-tend from late April to the mid-May in the Sea of the Goto Islands.On May 14, 1977 the authors performed artificial fertilization of the specimens which were artificially induced to mature by the hormone injection, and reared the hatched larvae to grow to the juvenile stage.The eggs of the amberjack are pelagic, spherical in shape and 1.27-1.50mm in diameter.The yolk is roughly segmented and contains a single colorless oil globule of 0.34-0.36mm in diameter.The perivitelline space is narrow.During embryonic development, many melanophores and xantho-phores appear on the embryo and oil globule.Hatching took place in 96 hours after artificial fertilization at water temperatures between 15.5 and 20.4°C.The newly hatched larvae were 4.45-4.55mm TL and had 26 (12+14) myomeres.Characteristic features at the larvae were that the oil globule was situated at the anterior part of the segmented yolk which was extended slightly beyond the head and that the granules existed on the marginal fin which was densely pigmented with xanthophores.The yolk was almost all absorbed when the larvae attained 5.23-5.45mm TL, 4 days after hatching.In a 9-day old postlarva, 6.25mm TL, small denticles appeared on the margin of the upper jaw and there were 4 opercular spines on the preoperculum.In a postlarva 19-days after hatching, 7.5mm TL, the notochord was turned up and caudal, dorsal and anal fins with rudiments of rays were beginning to develop.In a 30-day old juvenile, 15mm TL, the coloration of the body was pale greyish black with the characteristic 2 yellow bands situated at the anterior part of the trunk and the caudal region.In a juvenile of 40-days, 23mm TL, 3 4 greenish dark brown cross bands appeared on the posterior part of the side of the body.The number of the bands increased to 7 at a size of 45mm TL, but such bands had disappeared in a specimen of 195mm TL.

トウゴロウイワシの初期生活史

In Nagasaki Prefecture during 1981, larvae and juveniles of Allanetta bleekeri were collected from June to October with a larva net and dip net in Omura Bay, and immature individuals were collected under fish lamps in Nomo Harbor from April to December.Morphological development, local occurrence and food composition, especially in larval and juvenile stages, were studied.
A.bleekeri reaches the juvenile stage at sizes of 13.2-15.6mm in total length.The common morphological characteristics of other species of the Atherinidae were observed in larvae and juveniles.These include round head, short trunk, long and compressed tail, melanophore procession along the dorsal edge of the body, longitudinal black stripe formed laterally, fin fold remaining till early juvenile stage.The following points are important to distinguish larvae and juveniles of A.bleekeri from those of the other species of the same family, due to their supposedly sympatric occurrence: presence of melanophores on rear of notochord and caudal fin base, presence of ventral melanophore procession between pelvic and anal fins, and reach of lateral stripe.Relative growth during the early developmental stages is divided into three phases: larval, juvenile (up to 20-25mm in total length), and ault-form stage.
Larvae were collected with a larva net from the surface layer.They occurred abundantly from June to early September along the coast where Zostera marina or Sargassum spp.grew thick.Their occurrence is thought to have started in May.Larva net collection showed rather extensive distribution in the young larval stage.Well-grown larvae and juveniles were observed to form concentrated schools along the sea-wall of a harbor in September and October.
Investigation on food composition in digestive tracts revealed A.bleekeri to be a zoo-plankton feeder mainly relying on Copepoda and its larvae.

日本初記録のイスズミ科魚類コシナガイスズミ (新称)

伊豆諸島の八丈島八重根港沖, 水深6mの所から, 1982年10.月6日に底刺網によってイスズミ科魚類の1種, コシナガイスズミ (新称) Sectator ocyurusが1尾採集された.
本種の主な特徴は両顎歯が門歯状で歯根を具えること, 尾柄が長く, 尾鰭が深く2叉することである.本種は主として東太平洋の南カリフォルニア沖から南方エクアドル沿岸にかけて報告されている.ハワイ諸島, ソサイエティ諸島海域にも分布するが比較的稀な魚種で, 今回採集された標本は日本からの初記録である.

東シナ海でとれたイトヒキエイ (新称)

西海区水産研究所の沖縄舟状海盆トロール調査において, 一科一属のイトビキエイ科ホコカスベ属のイトビキエイ (新称).Anocanthobatis borneensisが4個体採集された.イトビキエイ科エイ類は本邦初記録で, 背鰭がない, 吻端にrostral filamentがある, 腹鰭前葉は後葉と完全に分離して人間の脚のようである, 背腹面とも棘がなく滑らかであるという特徴を持つ.標本はChan (1965b) とHulley (1973) のイトヒキエイ科エイ類の検索表により本種に同定された.インド・太平洋にはイトヒキエイとこの属の模式種であるA.marmorataの他にA.melanosoma, A.ori., A.nanhainensisが分布するが, 前二種は幼魚に基づく種であり, 後一種は本種との比較なしに立てられた種であるので, いつれも種の確実性に疑問が残る.

日本初記録のムツコニラエイ (新称)

西海区水産研究所の沖縄舟状海盆トロール調査において, 6対の鰐孔を持つエイが採集された。この標本はChu and Meng in Zhu et al. (1981) が南シナ海から報告した1科1属1種のHexatrmatobatis longirostrumの記載によく一致するので, この種に同定し, 和名をムツエラエイとした.本種はHeemstra and Smith (1980) が南アフリカから報告した1科1属1種のHexatrygon bickelliと酷似しており, genus Hexatrematobatisはgenus Hexatrygonのjunlor synonymと考えられる、両種は吻部の形状によって区別される。
Heemstra and Smith (1980) はH.bickelliの鰓孔が6対あること, 噴水孔が眼球よりずっと後方に位置すること, 吻部が前方に突出することなどの特化形質をもとに, Myliobatiformesトビエイ目, Hexatrygonoideiムツエラエイ亜目を提唱しているが, 著者らもこれに従う.