眼斑双锯鱼仔稚鱼发育异速生长

运用生态学和传统理论生物学的研究方法, 对孵化后眼斑双锯(Amphiprion ocellaris)仔、稚鱼在早期生存和环境适应上的异速生长及器官优先发育生态学意义进行了研究, 以期为眼斑双锯鱼人工繁殖和育苗提供参考资料。以11日龄为眼斑双锯鱼仔、稚鱼的区分时期, 结果表明, 眼斑双锯鱼仔、稚鱼的感觉、摄食和游泳等器官快速分化, 均存在异速生长现象。在头部器官中, 吻长、眼间距、口宽和头高在仔鱼期均为正异速生长, 吻至鳃裂前缘长和眼径为负异速生长。在身体各部位中, 仔鱼期体高、躯干长、尾长、尾柄长、尾柄高和体厚均为正异速生长, 仅头长为负异速生长; 在游泳器官中, 仔鱼期眼斑双锯鱼尾鳍、背鳍、胸鳍、腹鳍和臀鳍均为正异速生长。稚鱼期眼斑双锯鱼头部、躯干及游泳等各器官均为负异速生长。眼斑双锯鱼这些关键器官的异速发育, 对适应环境因子变化具有重要的生态学意义。     

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。       

斑鰶仔、稚鱼形态发育及异速生长模式研究

运用光学显微镜技术和实验生态学方法, 对斑鰶(Konosirus punctatus)早期形态发育观察、异速生长模式及其生态学意义进行了研究。结果表明: 在水温(21.5±0.5)℃下, 初孵仔鱼全长(3.18±0.52) mm, 斑鰶仔鱼期从孵化出膜到43日龄棱鳞开始出现前, 稚鱼期从44日龄棱鳞出现到55日龄全身覆满鳞片。斑鰶的形态变化和器官分化主要发生在仔鱼期。斑鰶的吻长、躯干长、肠道长、胸鳍长、腹鳍长等重要形态学指标均存在异速生长现象, 其生长拐点依次为 42日龄(TL: 26.41 mm)、24日龄(TL: 15.57 mm)、31日龄(TL: 21.41 mm)、41日龄(TL: 25.47 mm)、42日龄(TL: 26.41 mm)。相对于全长、吻长和胸鳍长在拐点前后由正异速生长变为等速生长, 腹鳍长由正异速生长转为负异速生长, 这为呼吸、摄食和成功逃避捕食者提供有利条件; 而肠道长由负异速生长变为等速生长, 这可能与斑鰶的食性转化有关。综上所述, 为适应复杂多变的生存环境, 斑鰶在早期发育阶段优先发育对生长生存起关键作用的器官, 这对提高仔、稚鱼的存活率具有重要的生态学意义。研究将为今后进一步人工繁育和苗种培育提供理论依据。     

鲈鲤仔鱼的异速生长模式

采用实验生态学方法研究了鲈鲤(Percocypris pingi pingi)仔鱼(0～57日龄)的异速生长模式.结果显示:鲈鲤仔鱼全长由慢速生长到快速生长的转折点为25日龄;其多数外部器官均具有异速生长特点,头部和尾部的生长快于躯干部,均在22 ～ 27日龄出现生长拐点;眼径在14 ～ 15日龄较早出现生长拐点,促使眼睛充分发育,以提高早期仔鱼开口期摄食外源食物的能力;吻长在33～34日龄出现生长拐点,促进了口的充分发育,以适应不同的饵料环境;胸鳍、背鳍、尾鳍、臀鳍和腹鳍分别在13～14日龄、31～32日龄、32 ～33日龄、38 ～39日龄、43 ～ 44日龄出现生长拐点,除胸鳍和尾鳍外,其余各鳍的鳍条均在拐点处分化完全,即鲈鲤仔鱼的游泳能力已得到大幅提高.研究表明,鲈鲤仔鱼的异速生长模式,保证了各重要功能器官的充分发育,以适应多变的环境,有效地保障了其早期的生存,可为育苗生产和野生早期资源的保护提供技术支撑.     

梭鱼早期发育阶段体色形成与鳍的分化

采集池塘育苗的39日龄之前的梭鱼(Liza haematocheila)仔、稚、幼鱼,对其早期发育阶段体色的变化以及鳍的发生、发育进行了连续观察。初孵仔鱼体表不具黑色素,仅卵黄囊具黑色素,孵化后2日龄体表黑色素增加,鳍膜无色透明。8日龄仔鱼开始变得不透明,腹侧有黑色线状斑点。在18~19日龄仔鱼转化为稚鱼时,鱼体背部具大量雪花状黑色素颗粒,在透色光下可观察到淡黄色斑点(黄色素)。30日龄幼鱼与成鱼相似,体表具淡白色,背褐腹白。梭鱼仔鱼在早期发育阶段各鳍的发育顺序是:胸鳍→尾鳍→腹鳍→背鳍→臀鳍→第二鳍棘。初孵仔鱼,鳍褶从头部后缘向后绕过尾部,终止于卵黄囊后缘油球外侧。2日龄仔鱼具胸鳍芽,全身由鳍膜包裹,5日龄仔鱼胸鳍和尾鳍鳍膜已具有相当的运动能力,能够起到推动和维持身体平衡的作用。梭鱼鳍在早期发育过程中最明显的变化是尾鳍的生长和鳍节的发育。梭鱼仔鱼在12日龄时出现腹鳍棘芽基,15日龄时第二背鳍棘出现。17日龄,尾椎骨向上弯曲,尾鳍基本发育完成,长鳍条16根,具10节,中间几根棘条末三节二向分叉,短鳍条上下各6~8根;背鳍有鳍条11根,具5节,最外侧鳍棘具刺,基部有支鳍骨。至30日龄,梭鱼幼鱼各鳍发育完全,与成鱼相似。     

施氏鲟仔鱼发育及异速生长模型

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.     

西藏黑斑原繁殖群体两性异形研究

两性异形是指在同一种群内, 雌雄间的形态特征产生分化, 如在个体大小、局部形态构造、体色等方面呈现出差异的现象。为了解西藏黑斑原 (Glyptosternum maculatum) 雌雄间是否也存在两性异形, 在其繁殖期对性成熟个体进行了形态学测量及相关分析。结果表明: 西藏黑斑原繁殖群体间存在显著的雌雄异形, 一是雄性个体的体长、体重及特定体长下的尾长显著大于雌性个体; 二是在特定体长下, 雌性个体眼径、体高、躯干长以及背鳍、胸鳍、腹鳍、臀鳍、尾鳍长度均显著大于雄性。16个形态参数的主成分分析表明, 雌雄间的差异主要是由体型特征(包括身体各部分长度、各鳍长度等)及头部形态特征引起的, 贡献率达76.7%。对全长-体重方程中异速生长指数b的t检验表明, 繁殖期黑斑原雌性个体呈等速生长而雄性个体呈异速生长。     

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.     

西藏黑斑原繁殖群体两性异形研究（英文）

两性异形是指在同一种群内,雌雄间的形态特征产生分化,如在个体大小、局部形态构造、体色等方面呈现出差异的现象。为了解西藏黑斑原(Glyptosternum maculatum)雌雄间是否也存在两性异形,在其繁殖期对性成熟个体进行了形态学测量及相关分析。结果表明:西藏黑斑原繁殖群体间存在显著的雌雄异形,一是雄性个体的体长、体重及特定体长下的尾长显著大于雌性个体;二是在特定体长下,雌性个体眼径、体高、躯干长以及背鳍、胸鳍、腹鳍、臀鳍、尾鳍长度均显著大于雄性。16个形态参数的主成分分析表明,雌雄间的差异主要是由体型特征(包括身体各部分长度、各鳍长度等)及头部形态特征引起的,贡献率达76.7%。对全长-体重方程中异速生长指数b的t检验表明,繁殖期黑斑原雌性个体呈等速生长而雄性个体呈异速生长。     

中国广西盲鳅一新种——环江高原鳅(英文)

2007年4月,在广西壮族自治区环江县川山镇乐衣村附近一洞穴采集到一批盲鳅类标本。经鉴定,为高原鳅属(Triplophysa)鱼类一新种,被命名为环江高原鳅(Triplophysa huangjiangensis)。该新种以以下组合特征与高原鳅属的其他已知种类相区别:无眼;通体无鳞;尾鳍分叉;尾柄上、下叶具发达的软鳍褶;背鳍后缘平截;背鳍起点距尾鳍基的距离短于距吻端的距离;背鳍分枝鳍条数为8~9;胸鳍分枝鳍条数为10~11;腹鳍分枝鳍条数为6~7;臀鳍分枝鳍条数为6;尾鳍分枝数为13~14;胸鳍长为胸鳍起点至腹鳍起点间距的52.3%~70.7%;腹鳍起点位于背鳍起点之前下方;外侧吻须最长,为侧面头长的47.0%~73.8%;前鼻孔位于一短管中,末端延长呈须状;鳔后室发达,末端可伸达腹鳍起点。     

棒花鱼形态特征的两性异形和雌性个体生育力

测定了棒花鱼(Abbottina rivularis)繁殖期形态特征包括体长、头长、头宽、头高、眼间距、鼻间距、背鳍基长、胸鳍长、胸鳍腹鳍间距、尾柄长、尾鳍长和体重的两性异形和雌性个体生育力。结果表明,雄性个体的数量显著多于雌性个体,雄性个体的体长显著大于雌性个体。特定体长的雌性个体的胸鳍腹鳍间距显著大于雄性个体,头长、头宽、头高、眼间距、鼻间距、背鳍基长、胸鳍长、尾柄长和尾鳍长显著小于雄性个体,雌雄两性体重不存在显著差异。棒花鱼的怀卵数量与体长和体重回归关系显著。偏相关分析显示,当控制第三者恒定时,怀卵数量与体长和体重呈正相关但不显著。棒花鱼存在个体大小和其他局部特征显著的两性异形,雌性个体主要通过腹腔容积的增加提高个体生育力。棒花鱼形态特征的两性异形是性选择和生育力选择共同作用的结果。     

Characterization of the initial ontogeny of Leiarius marmoratus (GILL, 1870): larvae to juvenile

Aiming to provide data on the biology of Leiarius marmoratus, which will aid in its production in captivity, as well as in studies for its preservation in the environment, this work had as objectives: analyze and describe main morphological alterations during larval ontogeny of the species. We analyzed 205 individuals, obtained by induced reproduction (Colpani Pisciculture) and kept in CEPTA/ICMBIO, Pirassununga, São Paulo, Brazil. Analyses were performed from hatching moment to 30th day. The specimens were classified into two periods: larval (Stages: vitelline, pre‐flexion, flexion, post‐flexion) and juvenile. Hatched larvae showed ident chromatophores only at anterior and posterior extremities of yolk sac. The standard length ranged from 2.16 mm (yolk) to 28.84 mm (Youth). Dorsal fin rays were initially observed at flexion stage (12–14 rays). Major alterations occurred during post‐flexion/juvenile stage, when dorsal, pectoral, pelvic, anal, and caudal fins were observed and pigmentation intensified throughout the lateral region, forming bands in the body, one between the end of the head and beginning of dorsal to pelvic fin, and another one beginning at dorsal to caudal peduncle and four longitudinal at the head.     

日本七鳃鳗胚胎发育及卵黄囊期仔鱼的异速生长

通过观察日本七鳃鳗Lampetra japonica (Martens, 1868)胚胎外部形态和内部组织结构变化, 描述受精卵从卵裂至器官形成以及仔鱼孵出的发育阶段, 采用实验生态学方法研究卵黄囊期仔鱼的异速生长模式。结果表明: 日本七鳃鳗卵子为乳白色, 呈卵圆形; 受精卵卵裂方式为全卵裂; 胚胎发育过程主要包括卵裂期、囊胚期、原肠胚期、神经胚期、头凸期、孵出前期和孵出期, 历时11—12d; 初孵仔鱼为乳白色, 全长约(3.41±0.24) mm, 体质量约为0.0006 g。日本七鳃鳗胚胎发育研究可为了解七鳃鳗胚胎发育过程, 早期脊椎动物的起源和发育进化研究提供参考。卵黄囊期内仔鱼身体各部分中, 头长和尾长均表现出快速生长, 同在7 日龄出现生长拐点, 且生长拐点后的生长速率都大于生长拐点前的生长速率; 而仔鱼体长在卵黄囊期内表现出慢速生长。在头部器官中, 吻长、鳃前长和鳃长均表现出快速生长现象, 吻长和鳃长分别在9日龄和8日龄出现生长拐点; 口笠长在3日龄时出现生长拐点, 在生长拐点前为等速生长, 而在生长拐点后表现出快速生长; 眼径和眼鳃间距则分别表现出等速生长和慢速生长。泄殖孔在卵黄囊期内未出现生长拐点, 生长速率相对于全长生长速率表现出快速生长现象。七鳃鳗卵黄囊期仔鱼的异速生长是在长期进化过程中, 适应早期生活环境和独特的生活方式而形成特有的发育机制。     

Early development of the Neotropical fish known as long sardine Triportheus auritus (Valenciennes 1850) (Characiformes,Triportheidae)

Larvae and juveniles of long sardine, Triportheus auritus, from the lower Amazon river was described, evaluating ontogenetic changes in their external mor­phology, pigmentation, fin development, morphometry, and meristics. A total of 93 individuals, 83 larvae and 10 juveniles were analyzed, they were captured monthly between 2014 and 2019 in the Amazon river channel and in macrophytes aquatic stands in the alluvial plains located in the lower Amazon River. From each specimen, morphometric and meristic data were measured and then the growth pattern between morphometric variables was analyzed. The larvae have an elongated body in a fusiform shape, superior mouth, simple nostril, pigmented spherical eyes and long intestine, surpassing the median region of the body. Initial pigmentation is scarce, but intensifies through development forming a pattern composed of three longitudinal bands concentrated in the ventral, cephalo-dorsal and lateral line regions. There are also pigments in the mandible, surrounding the mouth, under the swim bladder, intestine and fins. The sequence of complete fin formation is: caudal, anal, dorsal, pectoral and pelvic. The total number of myomeres ranged from 45 to 48 (25–29 preanal and 17–22 postanal). Morphometric relationships indicated differential growth for measurable morphometric parameters, with abrupt growth of snout length, head length and body height in the transition from flexion to postflexion stages. The pre-dorsal distance showed a decrease in the growth rate at the threshold from the larval to the juvenile period. The pre-pectoral and pre-anal distances showed negative allometric growth. In conclusion, the combination of body shape pigmentation pattern and, the formation sequence of fins allow the identification of the genus and coupled with the number of myomeres, morphometric relationships, and ray numbers of the anal fin ensure the differentiation of T. auritus from the other congeneric species. The metamorphosis occurred mainly at the end of the larval period and it is related to changes in the physiological and ecomorphological characteristics of the species.     

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.