大麻哈鱼卵黄囊期仔鱼异速生长及其生态学意义

运用实验生态学的方法, 对大麻哈鱼(Oncorhynchus keta Walbaum)卵黄囊期仔鱼的异速生长及器官优先发育在早期生存和环境适应上的生态学意义进行了研究。结果表明, 大麻哈鱼卵黄囊期仔鱼的感觉、摄食, 呼吸和游泳等器官快速分化, 许多关键器官均存在异速生长现象。在身体各部分中, 头部和尾部为正异速生长, 躯干部为负异速生长, 体高有先增大后减小的趋势; 在头部器官中, 眼径、口宽、吻长和眼后头长均为正异速生长; 在游泳器官中, 胸鳍、腹鳍、背鳍、臀鳍、背鳍基、臀鳍基和尾鳍均为正异速生长, 脂鳍为负异速生长, 其中, 腹鳍在全长25.31 mm、12日龄出现生长拐点, 但拐点前后均为正异速生长。大麻哈鱼卵黄囊期仔鱼感觉、摄食, 呼吸和游泳等器官的快速发育, 使出膜后的仔鱼在最短的时间内获得了与早期生存密切相关的各种能力, 对适应复杂多变的外界环境具有重要的生态学意义。       

Histomorphology of the early yolk-sac larvae of the Atlantic halibut (Hippoglossus hippoglossus L.)—an indication of the timing of functionality

Halibut larvae hatch at a very immature stage, and the duration of the yolk-sac period is very long (up to 50 days). This paper describes the histomorphological development of organs of the yolk-sac larvae (6° C) by use of light and electron microscopy. Rudimentary branchial cavities were open from 2 days after hatching. Kidneys seemed functional 16 days after hatching and onwards, and primitive lamellae on the gill arches were beginning to form at this age. Pancreatic zymogen granules were first observed 20daysafter hatching. The liver was segmented into lobes between 20 and 23 days after hatching, and the gall bladder seemed functional from day 23. The hindgut became extensively folded from day 26, and branchial capillaries were first observed at this stage. The larvae were able to catch food particles 24 days after hatching. Judging from ultrastructural observations, it seemed that halibut larvae were able to digest food particles between day 24 and 26 after hatching (around 150 daydegrees and 50% yolk absorption).     

Energy metabolism in eggs and larvae of the Senegal sole

Oxygen consumption in Solea senegalensis increased during the egg stage reaching values close to 4 nmol O₂ ind⁻¹ at hatching. After hatching, larval oxygen consumption continued to increase, reaching a maximum rate of 9.97⁻¹±87 nmol O₂ ind⁻¹ h⁻¹ 2 days after the opening of the mouth. Body nitrogen content decreased mainly after exhaustion of yolk reserves. Carbon content decreased during the whole endogenous feeding phase, although it decreased twice as quickly after yolk-sac absorption. The free amino acid (FAA) depletion rate was higher during egg development and the yolk-sac period. Complete yolk absorption coincided with the consumption of the 90% of initial FAA content in the eggs and the remaining FAA were consumed at a lower rate. Based on stoichiometrical calculations, FAA appears to be the most important energy substrate during the egg stage (86%) in the Senegal sole. During the period from hatching to the mouth opening, contributions of FAA and lipids as metabolic fuels were similar (41 and 47%, respectively). The decrease in larval protein content during starvation indicates that amino acids from body protein are used as energy substrates under food deprivation.     

Embryogenesis and larval development of migratory matrinchã Brycon orthotaenia Günther 1864 (Characiformes: Bryconidae)

The present study aimed to characterize the embryogenesis and larval development of matrinchã (Brycon orthotaenia), through the analysis of egg and larval morphology. Fertilized eggs had a mean diameter of 1.17 mm, with yolk occupying most of the egg (1.06 mm). Embryogenesis lasted for 15 hr at an average temperature of 27°C. At hatching, yolk-sac larvae measured 3.67 mm in mean standard length (SL). Pre-flexion, flexion and post-flexion larva had 5.01, 8.24 and 11.88 mm mean SL, respectively, with significant increases observed particularly in head length, head height, and eye diameter. The yolk persisted in the yolk-sac and pre-flexion stages (5.96 mm SL). The mouth opening could first be observed 13 hr after hatching, and cannibalism was observed 29 hr after hatching in pre-flexion larvae after absorption of the yolk sac; in such cases, the larvae had already developed teeth and a complete digestive tract. For an endangered species such as matrinchã, early life history studies are important because they provide researchers with a better understanding of critical stages of development and thus enhance captive management by rearing and restocking of the species.     

瓦氏黄颡鱼的胚后发育观察

2002年5~6月,在四川省泸州市、合江县分数批收集到长江野生瓦氏黄颡鱼(Pelteobagrusvachelli)亲本,通过人工催产、人工授精获得受精卵,对其胚后发育过程进行了观察。瓦氏黄颡鱼的胚后发育过程可以分为卵黄囊仔鱼、晚期仔鱼和幼鱼3个阶段。初孵仔鱼淡黄色,肌节40对,平均全长5.2mm。水温20~22℃时,孵出后第3d口张开;第7d开始摄食;第9d卵黄吸尽,此时鱼苗平均全长12mm,卵黄囊仔鱼阶段结束。晚期仔鱼阶段的仔鱼,胸鳍、尾鳍、臀鳍、背鳍、腹鳍先后发育,至鳍褶消失时晚期仔鱼阶段结束。经过30d的生长和发育,进入幼鱼阶段;此时平均全长达37mm,其形态特征和生态习性均与成鱼相似。     

Early developmental and allometric patterns in the electric yellow cichlid Labidochromis caeruleus

The electric yellow cichlid Labidochromis caeruleus is a mouth‐brooding haplochromine cichlid from Lake Malawi and one of the most popular cichlids in the ornamental fish industry. To investigate the early development of L. caeruleus from hatching until the juvenile stage, we studied its morphological development and allometric growth patterns. In newly‐hatched larvae, most organs and body parts were not yet differentiated and continued to develop until 15 days post hatching (dph). The yolk sac was depleted at 13 dph. There was allometric growth, primarily in the anterior and posterior regions of the body, and inflection points when trajectories of allometric growth changed. Head and tail growth was prioritized, suggesting that body parts linked to feeding and swimming behaviour mature earlier than the rest of the body. Additionally, growth patterns revealed that development of organs related to vital functions such as branchial respiration, sensation, exogenous feeding and swimming was prioritized. Comparisons with other African and Neotropical cichlids revealed differences in ontogenetic processes and allometric growth along the anterior–posterior axis as well as variation in developmental timing. These results indicate how early morphological development and ontogenic processes might respond to the distinctive parental care observed in mouth‐brooding cichlids.     

施氏鲟仔鱼发育圾异速生长模型

施氏鲟仔鱼的生长发育可分为两个时期:卵黄囊期(或称为自由胚期),即从刚出膜(0日龄,10.17±0.63 mm)到初次开口(9日龄,18.93±0.74 mm);晚期,从开口摄食至器官发育基本完全(38日龄,41.89±5.09 mm).卵黄囊期仔鱼的感觉、摄食、呼吸、游泳等器官快速分化;晚期仔鱼各骨板分化并发育,在形态上逐渐完成向成鱼的转变.对施氏鲟仔鱼异速生长进行的研究表明,仔鱼许多关键器官均存在异速生长现象,如眼径、口宽、尾鳍长、胸鳍长分别在2日龄、8~9日龄、10日龄、11日龄出现生长拐点,拐点之前器官快速生长,拐点之后生长速度减慢甚至近似等速生长.施氏鲟仔鱼各器官呈现出协调和快速发育的特征,随着重要的感觉、摄食、呼吸、游泳等器官的发育和完善,仔鱼快速地具备了躲避敌害和摄食的能力,其生存能力大大提高.     

Allometric growth and larval development in Pacific red snapper Lutjanus peru under culture conditions

Allometric growth is a common feature during fish larval development. It has been proposed as a growth strategy to prioritize the development of body segments related to primordial functions like feeding and swimming to increase the probability of survival during this critical period. In the present study we evaluated the allometric growth patterns of body segments associated to swimming and feeding during the larval stages of Pacific red snapper Lutjanus peru. The larvae were kept under intensive culture conditions and sampled every day from hatching until day 33 after hatching. Each larva was classified according to its developmental stage into yolk-sac larva, preflexion larva, flexion larva or postflexion larva, measured and the allometric growth coefficient of different body segments was evaluated using the potential model. Based on the results we can infer the presence of different ontogenetic priorities during the first developmental stages associated with vital functions like swimming during the yolk-sac stage [total length (TL) interval = 2.27–3.005 mm] and feeding during the preflexion stage (TL interval = 3.007–5.60 mm) by promoting the accelerated growth of tail (post anal) and head, respectively. In the flexion stage (TL interval = 5.61–7.62 mm) a change in growth coefficients of most body segments compared to the previous stage was detected, suggesting a shift in growth priorities. Finally, in the postflexion stage (TL interval = 7.60–15.48 mm) a clear tendency to isometry in most body segments was observed, suggesting that growth priorities have been fulfilled and the larvae will initiate with the transformation into a juvenile. These results provide a framework of the larval growth of L. peru in culture conditions which can be useful for comparative studies with other species or in aquaculture to evaluate the changes in larval growth due to new conditions or feeding protocols.     

Early development of New Zealand hapuku Polyprion oxygeneios eggs and larvae

This study describes for the first time the normal development of New Zealand hapuku Polyprion oxygeneios embryos and larvae reared from fertilization to 11 days post-hatch (dph) at a constant temperature. Fertilized eggs were obtained from natural spawnings from communally reared captive wild broodstock. Eggs averaged 2 mm in diameter and had single or multiple oil globules. Embryos developed following the main fish embryological stages and required an average of 1859·50 degree hours post-fertilization (dhpf) to hatch. The newly hatched larvae (4·86 mm mean total length, L(T) ) were undifferentiated, with unpigmented eyes, a single and simple alimentary tube and a finfold that covered the entire body. Larvae relied on the energy from the yolk-sac reserves until 11 dph (7·33 mm mean L(T) ), when yolk-sac reabsorption was almost completed. Some of the major developmental stages from hatching to yolk-sac reabsorption were eye pigmentation (5 dph), upper jaw formation (7 dph), lower jaw formation (8 dph) and mouth opening (8-9 dph). By 9 dph, the digestive system consisted of pancreas, liver, primordial stomach, anterior and posterior gut; therefore, P. oxygeneios larvae would be capable of feeding on live prey. The developmental, morphological and histological data described constitutes essential baseline information on P. oxygeneios biology and normal development.     

Early hatch: a strategy for safe downstream larval transport in amphidromous gobies

The downstream migration to sea of newly-hatched larvae of amphidromous fishes exposes them to the risk of irreversible starvation if migration takes too long. Some fishes, especially sicydiine gobies, exhibit early hatch of eggs, often less than 48 h after fertilisation, and the newly-hatched larvae are at a very early stage of ontogeny, with no functional mouth or fins, no functional eye, and little pigmentation in the eye or elsewhere. This may facilitate survival as it means that downstream migration takes place when plenty of yolk remains, minimising the risk of starvation. Additional behaviours, such as positive phototaxis, continual swimming up into the water column, and hatching during elevated river flows, may also have contributed to rapid downstream transport and survival.     

Early development and allometric shifts during the ontogeny of a marine catfish (Cathorops spixii‐Ariidae)

This study assessed whether the developmental series of the ariid Cathorops spixii (Agassiz, 1829) is related to growth patterns during its early ontogeny. The main morphological events of C. spixii were studied from the newly neurula embryo (6.99±0.69 mm TL) to juveniles (53.38±14.43 mm TL) in order to characterize and corroborate patterns of ontogenetic allometries. Prior to hatching, embryos were well‐developed, with an ossified axial and appendicular skeleton. Embryos grew slowly, but positive allometric growth was observed in head width (β₁ = 1.65) and eye diameter (β₁ = 1.59). This seems to be related to the fast development of sensory organs such as otoliths, Weberian apparatus, lenses, nostrils and barbels during the embryonic period when eggs are under the care of adult males. After hatching, mouth‐brooding free‐embryos grew horizontally isometric, except for the snout length that presented quick growth related to the end of endogenous feeding (β₁ = 1.73). Slow growth was observed in head width (β₁ = 0.44) and eye diameter (β₁ = 0.26), taking into account that sensory organs are formed in free‐embryos. The end of the yolk‐sac period was characterized by a direct change from free‐embryo to juvenile, without a true larval period. Juveniles are characterized by growth patterns nearly isometric in all body regions, suggesting that they already bear most of characteristics of adult fish. The quick growth of morphometric variables that are related to sensorial organs before hatching and the increase in horizontal growth after the first 6 weeks (hatched free‐embryos) reflect developmental priorities during the earliest stages where important sensorial organs are being developed for juvenile survival strategies.     

School Formation and Concurrent Developmental Changes in Carangid Fish with Reference to Dietary Conditions

The ontogeny of schooling behaviour was studied in comparison to the development of sensory and swimming organs and taxis in carangid fish. Striped jack, Pseudocaranx dentex, larvae showed strong phototaxis at 3 days after hatching (3.5 mm in TL) when they developed pigmentation in the retina. Rheotaxis and optokinetic responses were apparent at 4.0-6.0 mm TL as larvae completed development of the basic structure of their eyes. A major inflection of allometric growth occurred at 9 mm, and fin ray formation was completed at these stages. Schooling behaviour, represented by one TL of inter-individual distance and parallel orientation, only appeared at 16 mm TL, and just prior to this behaviour, fish showed mutual attraction through vision at 12 mm TL. Canalization of buccal lateral lines was complete at 18 mm TL, whereas that of trunk lateral lines started at 23 mm TL and was complete at 30 mm TL. With these results, we assumed that critical factors of the ontogeny of schooling behaviour in carangid fish include not only the development of sensory or swimming organs, but also other factors such as development of the central nervous system. To show this, we reared another carangid species, the yellowtail Seriola quinqueradiata, with dietary depletion of DHA (docosahexaenoic acid), which is indispensable for the development of the central nervous system. Although DHA-free fish showed optokinetic response, they did not show schooling behaviour when they attained their schooling size. Tracer experiments using radioisotope labelled DHA showed that DHA is incorporated into the brain, spinal cord, and retina of juvenile fish. Under natural conditions, carangid fish larvae should intake enough DHA through diet to develop schooling behaviour, the fluctuation of dietary quality in zooplankton might therefore influence the development of indispensable antipredatory behaviour. Morphological changes of striped jack occurred in two steps; first at 9-12 mm (fin formation and inflection of allometric growth) and then second at 20-30 mm (scale and lateral line formation), and these changes corresponded with the development of schooling and recruitment to coastal waters, respectively. Since the onset of schooling is the first step of active antipredatory behaviour, we considered that 12 mm TL is the size at which they attain the juvenile period.     

Statocyte and Ocellar Pigment Cell in Embryos and Larvae of the Ascidian, Styela plicata (Lesueur)

The processes of formation of two pigmented cells, the statocyte and the ocellar pigment cell, in the cerebral vesicle of larvae of the ascidian Styela plicata were investigated in whole mount specimens and serial paraffin sections by light microscopy. The pigmentations of the two cells became visible simultaneously in embryos at the stage of tail elongation, 5–6 hr after fertilization. The pigmented cells were at first located side by side in the dorsal wall of the neurocoel. Growth of the pigment mass in the ocellus ceased at about 6.5 hr, while that in the statocyte continued through the hatching period (9–10 hr) up to the swimming stage. The pigment mass in the statocyte consisted of two blocks which joined together during their growth. The statocyte migrated from the dorsal to the ventral wall of the cerebral vesicle by the swimming stage. In swimming larvae, the more ventral of the two pigment blocks of the statocyte formed an inverted pigment cup and a cluster of protuberances projected into it from the ventral wall of the cerebral vesicle. Phylogenetically, the sensory organs in the cerebral vesicle of Styela plicata seem intermediate between those in Pyuridae and Botryllinae with respect of their structure and process of differentiation.     

拟赤梢鱼的胚胎发育和仔稚鱼生长特性观察

为阐明拟赤梢鱼(Pseudaspius leptocephalus)胚胎发育和仔稚鱼发育特点, 采用人工催产的方式获得受精卵, 观察分析了拟赤梢鱼胚胎发育和仔稚发育的时序特征。结果表明: 拟赤梢鱼成熟卵粒为黄色圆球形, 平均卵径为(1.77±0.20) mm, 遇水具微黏性; 在水温23℃条件下, 胚胎发育经历合子期、卵裂期、囊胚期、原肠胚期、神经胚期、器官形成期和孵化出膜期7个阶段26个时期, 共历时47h 55min完成孵化过程。初孵仔鱼在(23±1)℃水温条件下, 经历卵黄囊期仔鱼(0—7d)、晚期仔鱼(8—26d)和稚鱼期(27—31d), 进入幼鱼期; 卵黄囊期仔鱼游泳能力差, 随着卵黄囊逐渐消耗, 体表色素斑、胸鳍和尾鳍等逐渐形成, 消化道贯通, 鳔充气; 晚期仔鱼卵黄囊完全消失, 仔鱼游泳能力增强, 开口摄食, 腹鳍形成, 皮肤透明; 稚鱼期鳞片形成并覆盖全身, 鱼体形态已逐渐与成鱼无异。拟赤梢鱼仔稚鱼阶段全长生长特性公式为TL=0.0125x2+0.3579x+6.2058 (R2=0.9953), 出膜15d内, 仔鱼生长速度缓慢, 全长日生长率仅为(0.38±0.02) mm/d, 15d后, 仔鱼生长速度变快, 全长日生长率可达(1.24±0.09) mm/d。研究初步阐明了拟赤梢鱼的胚胎发育和仔稚鱼发育的时序特征, 为拟赤梢鱼的苗种规模化繁育提供了理论基础。     

东北七鳃鳗早期发育研究

通过开展东北七鳃鳗(Lampetra morii)胚胎、卵黄囊期仔鱼和幼鱼发育研究, 系统地描述东北七鳃鳗的早期发育形态特征和生长发育规律。研究结果表明: 东北七鳃鳗的卵裂为全裂类型, 在(18±1)℃水温下, 受精卵经卵裂期、囊胚期、原肠胚期、神经胚期、头凸期、孵出前期以及孵出期, 历时11—12d孵育出仔鱼。初孵仔鱼体重为(0.00032±0.00002) g, 全长为(0.29±0.02) cm。在卵黄囊期内, 仔鱼体重和全长随日龄的增加而增长, 吻长、眼径、眼鳃间距、口笠长、鳃前长、鳃长、头长、体长、尾长和泄殖孔长均存在异速生长现象。初孵仔鱼经过约15d(卵黄囊期)发育成幼鱼, 幼鱼卵黄囊完全吸收, 消化道贯通, 形成肠道, 开始摄食。在幼鱼期, 经5 个月的培育, 幼鱼体重和全长随月龄的增加而增长, 体色逐渐加深, 5月龄幼鱼的体重和全长分别为(0.07±0.01) g和(3.87±0.32) cm。东北七鳃鳗的早期发育研究为七鳃鳗发育生物学积累基础资料, 同时也为七鳃鳗的人工增养殖提供了科学依据, 推进七鳃鳗的模式化进程。     

Genetic variability and components of fitness in hatchery strains of rainbow trout

Two fitness components, development rate and egg size, were examined in six hatchery strains of rainbow trout, Oncorhynchus mykiss (syn. Salmo gairdneri Richardson), with different amounts of enzyme heterozygosity. The average expected heterozygosities per strain ranged from 4 to 8%, based upon an electrophoretic analysis of the protein products of 42 loci. Strains with higher heterozygosities had faster development rates, as measured by hatching time, than strains with lower heterozygosity. Concordance between hatching time and another measure of development rate, degree of yolk-sac resorption, suggests that hatching time is a valid measure of embryonic development rate in salmonid fishes. Earlier-hatching embryos were longer and heavier at the time of yolk-sac resorption than later-hatching fish. Females from more-heterozygous strains also had a tendency to have larger eggs. These data suggest that genetic variation is an important biological resource to be conserved in hatchery stocks.     

Embryonic development of the sea bass Dicentrarchus labrax

The embryonic development of the sea bass Dicentrarchus labrax during the endotrophic period is discussed. An 8 cells stage, not reported for other studied species, results from two rapid successive cleavages. Blastula occurs at the eighth division when the embryo is made of 128 cells. During gastrulation, the infolded blastoderm creates the endomesoblastic layer. The Kupffer??s vesicle is reported to drive the left/right patterning of brain, heart and digestive tract. Heart formation starts at 8 pairs of somites, differentiation of myotomes and sclerotomes starts at the stage 18 pairs of somites; main parts of the digestive tract are entirely formed at 25 pairs of somites. At 28 pairs of somites, a rectal region is detected, however, the digestive tube is closed at both ends, the jaw appears the fourth day after hatching, but the mouth is not opened before the fifth day. Although cardiac beating and blood circulation are observed, gills are not reported in newly hatched individuals; eye melanization appears concomitant with exotrophic behavior.     

Cryopreservation of Mexican fruit flies by vitrification: stage selection and avoidance of thermal stress

This report presents details of a vitrification methodology for the cryopreservation of embryos of the Mexican fruit fly, Anastrepha ludens. The overall summary of the data indicates that selecting the correct developmental stage for cryopreservation is the most important criterion. The key aspect in selection of the correct stage is to balance depletion of the gut yolk content against development of the embryonic cuticle. Embryogenesis was divided into four stages between 90 and 120 h after incubation at 21.7 degrees C. The classification was based on the intestinal yolk content and the initial development of mandibular-maxillary complex. Stages having low mid-gut yolk content and the appearance of mouth hooks were found to be the most suitable for cryopreservation. Embryos developing at 30 degrees C had premature cuticle formation relative to gut development and significantly lower hatching after cryopreservation. Vitrification of embryos by direct quenching in liquid nitrogen was less effective than quenching after annealing the samples in liquid nitrogen vapor. Quenched samples of vitrification solutions containing 1,2-ethanediol as the major component exhibited fractures. Fracturing occurred less frequently when the solutions were annealed and when containing polyethylene glycol. Hatching of vitrified embryos stored in liquid nitrogen for over 12 months was not statistically different from those held for only 15 min. Our protocol yielded normalized hatching rates that ranged as high as 61%. Selecting the exact stage for cryopreservation from a population of embryos obtained by collection from ovipositing females during a span of just 30 min resulted in nearly 80% of the embryos hatching into larvae.