鲇仔、稚鱼消化系统胚后发育的组织学观察研究

通过石蜡包埋切片法对鲇(SilurusasotusL.)仔、稚鱼消化系统胚后发育进行了较系统的组织切片观察。本研究描述了全长5.0～22.5mm的鲇摄食器官、消化器官胚后发育的组织学结构特征。观察发现,1～3日龄为内源性营养阶段,卵黄囊很大,2日龄消化道出现裂缝状腔隙,3日龄基本贯通但未开始摄食;4～6日龄为混合营养阶段,卵黄囊被逐步吸收,主要靠吞食轮虫、小型枝角类等为食;6日龄以后卵黄囊消失,进入外源性营养阶段,捕食能力增强。观察还发现,鲇前咽顶壁始终平直无粘膜皱褶;颌齿和咽齿为斜生尖锥状的同型齿,数量多、排列紧密,与相应的骨骼牢固地骨性固着;后咽、食道的粘膜上皮内粘液细胞极多,深层结缔组织肌肉层发达。这些构造适应于鲇的完全吞食摄食方式。胃腔小,前肠膨大、中肠粘膜上皮细胞纹状缘发达,肝脏和胰脏发育速度较快。胃的消化功能较弱,主要储存、消化场所为前肠,吸收场所在中肠。鱼苗4～6日龄下塘适宜,6～8日龄可开始诱其摄食人工饲料。     

哲罗鱼与2种有胃鱼消化系统比较解剖的观察

对3种淡水有胃鱼的消化系统进行了比较解剖观察。描述了与摄食有关的齿、咽喉齿、舌和鳃耙的形态学特征;测量了体长、头长、吻长、口裂宽、口腔长。对几种鱼胃的形态、幽门盲囊、肝、胰脏、胆囊进行了描述;测量了食道长、胃长、胃直径、肠长、消化道长和腹腔长;并计算了有关比值。探讨了摄食习性与消化系统形态结构特点之间的关系。     

Establishment of mange caused by Trixacarus caviae in guinea pigs in Austria

The diagnosis of mange in guinea pig caused by Trixacarus caviae is reported for the first time in Austria. Mange in guinea pigs does not occur rarely. Pathological changes which were observed in 5 guinea pigs kept as pets, are briefly presented.     

Ontogeny of the digestive tract in butter catfish Ompok bimaculatus (Bloch) larvae

The ontogeny of the digestive tract was studied histologically in butter catfish Ompok bimaculatus from hatching to 30?days post-hatching (dph). At hatching, the digestive tract of butter catfish consisted of a straight tube with a smooth lumen dorsally attached to the yolk sac. Between 1 and 2 dph, the mouth opened, oral valves were visible and canine-like teeth and taste buds were detected. During this period, intestine was differentiated into the anterior and posterior intestine, and the digestive accessory glands were also developed. Exogenous feeding started at 2?dph, and there was a 2-day mixed endogenous–exogenous feeding period. Most of the yolk sac reserves were consumed between 2 and 3 dph, and by 5?dph, the yolk sac was completely depleted and no longer visible in histological sections. Between 3 and 4 dph, several vacuoles (neutral lipids) were observed in the intestine and also in hepatocytes, indicating a functional absorption of nutrients from food. At 8 dph, differentiation of gastric glands was noticed, and by 9–11?dph, there were abundant gastric tubular glands arranged along numerous longitudinal folds. During the same period, pyloric sphincter appeared as an epithelial fold that separated the stomach from the anterior intestine. From 12 dph to the end of the study at 30?dph, no noticeable histological modifications were observed. The development of gastric glands is considered as the last major events in digestive tract development and their presence designates the end of larval period and the onset of the juvenile period. Hence, it is suggested that, butter catfish larvae have a morphologically complete digestive tract by 12?dph. These findings on the development of the digestive system in butter catfish may lead to a better understanding of the ontogeny and would be useful to improve the larval rearing techniques of this promising catfish species for freshwater aquaculture diversification.     

养殖条石鲷消化道形态构造及组织学观察

应用解剖学和光学显微镜检术研究了养殖条石鲷（Oplegnathus fasciatus）消化道的形态学和组织学特性。条石鲷消化道包括口咽腔、食道、胃、幽门盲囊和肠。条石鲷口咽腔较大,颌齿愈合成鹦鹉喙嘴状,舌半椭圆形。食道较短,显微组织可分为4层：粘膜层、粘膜下层、肌肉层和浆膜层,上皮含有极少量杯状细胞和黏液分泌细胞。胃膨大,呈V形,和食道一样分为4层,粘膜层表皮下含有发达的胃腺。小肠组织分为3层：粘膜层、肌肉层和浆膜层。直肠组织结构类似于小肠。小肠和直肠上皮中均分布有较多的杯状细胞。文章对养殖条石鲷消化道的形态学和组织学特征与其食性的适应关系作了探讨。     

哲罗鱼和大麻哈鱼消化系统的比较解剖分析

解剖观察了哲罗鱼(Hucho taimen)和大麻哈鱼(Oncorhynchus keta Walbaum)的消化系统,描述了与摄食有关的齿、舌、鳃耙、胃、幽门盲囊、肝、胰脏、胆囊的形态特征;测量了体长、头长、吻长、口裂宽、口腔长,食道长、胃长、肠长、消化道长;计算了有关比值。结果表明:这二种鲑科鱼类的消化道具有典型的肉食性鱼类的特点,口裂较大,口咽腔长/头长为0.62～0.71,肠较短,肠长/体长为0.69,食道、胃、肠壁内突形成明显的粘膜皱褶。具有独立而发达的肝脏和胰腺。文中讨论了消化道分段及摄食习性与消化系统形态结构特点之间的关系。     

Ontogenetic development of digestive functionality in golden pompano Trachinotus ovatus (Linnaeus 1758)

Ontogenetic development of the digestive system in golden pompano (Trachinotus ovatus, Linnaeus 1758) larvae was histologically and enzymatically studied from hatch to 32 day post-hatch (DPH). The development of digestive system in golden pompano can be divided into three phases: phase I starting from hatching and ending at the onset of exogenous feeding; phase II starting from first feeding (3 DPH) and finishing at the formation of gastric glands; and phase III starting from the appearance of gastric glands on 15 DPH and continuing onward. The specific activities of trypsin, amylase, and lipase increased sharply from the onset of first feeding to 5–7 DPH, followed by irregular fluctuations. Toward the end of this study, the specific activities of trypsin and amylase showed a declining trend, while the lipase activity remained at similar levels as it was at 5 DPH. The specific activity of pepsin was first detected on 15 DPH and increased with fish age. The dynamics of digestive enzymes corresponded to the structural development of the digestive system. The enzyme activities tend to be stable after the formation of the gastric glands in fish stomach on 15 DPH. The composition of digestive enzymes in larval pompano indicates that fish are able to digest protein, lipid and carbohydrate at early developmental stages. Weaning of larval pompano is recommended from 15 DPH onward. Results of the present study lead to a better understanding of the ontogeny of golden pompano during the larval stage and provide a guide to feeding and weaning of this economically important fish in hatcheries.     

真鲷消化道的组织学和形态学研究

采用扫描电镜和光镜技术对真鲷的消化道进行了组织学和形态学研究。具发达颌齿的口咽腔之后，真鲷消化道由分化明显的食道、胃、小肠和直肠构成。口咽腔粘膜表面为复层上皮，其中含有怀状细胞和味蕾，表层细胞具微褶（脊）；食道粘膜也衬着复层上皮，由表层具微褶（脊）的扁平细胞、中层的怀状细胞及底部的基底细胞组成，食道粘部分区域 衬着单层柱状上皮；胃Ｖ形，粘膜表层为单层柱状上皮，贲门部和盲囊部上皮下有一厚层胃腺组织；     

Morphological and histological changes in digestive tract development during starvation in the miiuy croaker

A histological method was used to describe the ontogenetic development of the digestive tract of laboratory-reared miiuy croaker (Miichthys miiuy) and to evaluate the effects of short-term food deprivation on the morphology and histology of the digestive tract. Larvae and juveniles were maintained at 24 °C in a thermostatically controlled system. Three starvation experiments were conducted during different developmental stages: 1–7 days after hatching (dah; prior to benthic swimming); 26–35 dah (during settling); and 42–53 dah (after benthic swimming). According to the structural changes in the ontogenetic development of the digestive tract, three stages were observed. The first stage was from hatching to 3 dah; the digestive tract was undifferentiated in newly hatched larvae and then showed remarkable morphological changes and differentiation. During this period, larvae depended on endogenous nutrition. The second stage (4–20 dah) was a critical period in which larvae transitioned from endogenous feeding to exogenous feeding and the digestive tract fully differentiated into the buccopharynx, oesophagus, stomach, anterior intestine and posterior intestine. Goblet cells and vacuoles appeared in the digestive tract, and pharyngeal teeth and taste buds developed. During the third stage (20–36 dah), the gastric glands developed and the stomach differentiated into the fundic, cardiac and pyloric regions. At 25 dah, pyloric caeca developed and mucosal folds and spiral valves were clearly distinguishable. After 30 dah, the digestive tract did not undergo any noticeable differentiation, indicating the complete development of the digestive system. The wet weight and SGR (specific growth rate) of miiuy croaker larvae and juveniles greatly decreased when they were deprived of food, and compensatory growth was observed in re-feeding juveniles. The livers of starved larvae and juveniles were atrophied and dark coloured, the intestines were transparent and thin, and the stomach cubages were reduced. The histological effects of starvation were mainly evident in the degeneration of cells in digestive organs, as seen in the shrinkage and separation of cells and the loss of intercellular substances in the liver, pancreas, intestine and stomach. These changes became more severe with increased duration of starvation. In addition, the histological structure of the digestive tracts of starved larvae and juveniles partly recovered after re-feeding, and the effects of starvation on miiuy croaker were age dependent.     

白鲫消化系统胚后发育的组织学研究

用连续石蜡切片方法对全长５～１５５ｍｍ的白鲫消化系统胚后发育进行了光镜观察，描述了其仔鱼、稚鱼、幼鱼摄食器官、消化器官发育的组织结构特征；讨论了腭褶、鳃耙侧突起胚后发育的组织结构特点在摄食中的作用及消化系统胚后发育的组织结构特点同摄食方式和食性转化的关系。     

黄斑篮子鱼消化道组织学和组织化学研究

采用HE和AB—PAS染色方法分别从组织学和组织化学方面对黄斑篮子鱼（Siganus oramin）消化道进行了研究。结果显示,黄斑篮子鱼口小,口咽腔不宽阔。上颌具细长、尖锐齿,下颌齿短,排列紧密。犁骨、腭骨和舌上无齿。鳃耙齿分叉,食道细长,胃部稍膨大,“V”型,幽门盲囊5～6条,肠长比为2．73。胃腺发达,为管状腺体,开口于胃小凹。幽门部粘膜褶高度降低,褶皱上开始出现类似肠绒毛结构。前肠均分布有许多长条形粘膜褶,空泡状杯状细胞丰富。依据AB—PAS的染色结果将该鱼}肖化道的粘液细胞分为4种类型：I型呈红色,Ⅱ型呈蓝色,Ⅲ型呈紫红色,Ⅳ型呈蓝紫色。食道以Ⅱ型和Ⅲ型为主,胃、肠道和幽门盲囊主要以Ⅱ型和Ⅳ型为主,后肠中Ⅱ型〉III型〉IV型,其中中肠和后肠Ⅱ型占总粘液细胞的比率最大。     

Digestion of larval American shad by cyprinids

Cyprinids have pharyngeal teeth for grinding food before swallowing and a continuous gut with no discrete stomach. This digestive tract structure, as well as the feeding behavior traits shown by cyprinids, makes it difficult to identify and measure the amount of food consumed by these fishes. The relations among quantity of food in cyprinid gut, time after feeding and predator size were described by log-linear multiple regression. The number of intact American shad (Alosa sapidissima (Wilson)) larvae eaten in laboratory experiments was estimated by extrapolating the regression for the amount of food in the gut over time for predators of various size. The numbers of larval American shad in guts of fish captured in the Juniata River, Pennsylvania, were not significantly different from those estimated with the equations derived from laboratory data. In view of their abundance in rivers and their potential digestion rate for larval fish, cyprinids can be expected to have a marked influence on reducing the numbers of larval American shad.     

尼罗罗非鱼仔鱼、稚鱼和幼鱼消化系统的发育及其食性的研究

本文研究了尼罗罗非鱼仔幼鱼消化器官的形态特征及其对食性变化的形态适应；系统地观察了尼罗罗非鱼各发育阶段的食性。     

甲壳动物幼体消化酶研究进展

通过研究近年来国内外学者关于甲壳动物幼体消化酶方面的研究现状,发现目前已测定出甲壳动物幼体消化酶的种类主要有：蛋白酶、胰蛋白酶、羧肽酶A、羧肽酶B、氨肽酶、胶原酶、弹性蛋白酶、胃蛋白酶、糜蛋白酶、酯酶、脂肪酶、淀粉酶、纤维素酶、几丁质酶、麦芽糖酶、蔗糖酶、昆布多糖酶等种类,初步归纳了甲壳动物幼体主要消化酶的分子量、最适pH和最适温度;分析了幼体发育过程中消化酶活力变化模式以及与食性的关系,并采用淀粉酶/蛋白酶活力（A/P）比值或淀粉酶/类胰蛋白酶（A/T）比值作为甲壳动物幼体的食性指标;观察了幼体消化器官的发育,阐明幼体消化酶的合成与分泌不仅由遗传控制、中肠腺发育程度等因子决定,而且还与饲料的营养水平有关,提出采用幼体消化酶对饲料组成的适应性研究幼体营养需求的新途径.[中国水产科学,2006,13（3）：492-501]     

云龙石斑鱼胃排空特征和摄食消化特性研究

为阐明养殖新品种云龙石斑鱼(Epinephelus moara♀×E.lanceolatus♂)摄食胃排空特征和消化酶活性变化规律,本研究检测了体重为(680.35±39.84)g云龙石斑鱼摄食后胃内容物百分比,比较了线性模型、平方根模型和立方模型对胃排空曲线的拟合程度,分析了云龙石斑鱼摄食后血清中葡萄糖、皮质醇含量和肝脏消化酶活性变化,并对胃排空率与消化酶进行了相关性分析。结果发现,云龙石斑鱼摄食后,胃排空率呈典型的先慢后快再慢的消化类型。3种模型均能拟合云龙石斑鱼的胃排空数据,其中,立方模型拟合效果最佳。由立方模型可知,云龙石斑鱼胃80%排空(食欲基本恢复)时间为9.5 h,100%排空(食欲完全恢复)约为14.8 h。血清中葡萄糖、皮质醇含量及肝脏中消化酶(淀粉酶、糜蛋白酶和脂肪酶)活性在摄食胃排空过程中均呈先升高后降低的趋势。摄食后,血清中皮质醇、葡萄糖含量和肝脏内消化酶活性逐渐升高,0~3 h上升速率较慢,3~6 h内呈急剧上升的变化趋势,且在摄食后6 h,血清中皮质醇、葡萄糖含量和肝脏内消化酶活性达到最高(P<0.05),之后呈显著下降趋势,云龙石斑鱼瞬时排空速率与消化酶活性呈正相关(P<0.05)。综上,基于云龙石斑鱼胃排空特征和摄食消化特性,结合生产实践,在食欲基本恢复后开始投喂,投喂间隔为10 h左右,每日投喂2次,效果最佳。     

Precocious development of the digestive system in relation to early appearance of piscivory in striped bonito Sarda orientalis larvae

ABSTRACT: Striped bonito Sarda orientalis larvae and juveniles were reared in a laboratory from hatching to 14 days post hatching, and the development of their digestive system was investigated histologically. On day 2 (first feeding day), the larval-type digestive system was differentiated. On day 3, a blind sac with densely distributed gastric glands developed and pyloric ceca appeared, suggesting that the digestive system was attaining adult-type structure. The yolk was completely absorbed on day 4. Bonito larvae preyed on rotifers and/or Artemia nauplii on day 2, but almost the whole gut was occupied by fish larvae from day 4. In the striped bonito, the adult-type digestive system was established right after first feeding, and this precocious development was well synchronized with the appearance of piscivory.     

Digestive dynamics during chyme formation of Octopus maya (Mollusca,Cephalopoda)

In the present study, digestive dynamics, measured through the changes in the in situ pH along the digestive tract, was evaluated along with the glycogen concentration in the digestive gland (DG) and the proteolytic enzyme activity of the gastric juice (GJ) (both acid and alkaline proteases) to obtain useful information that will allow for the understanding of the DG's function and the role that it plays as an extracellular digestive enzyme source and for energy storage, providing new information on the digestive physiology of Octopus maya. The results showed that pH along the digestive tract changed according to the postprandial time following the food transit. At the beginning, the pH on crop (St) was 5, changing to 6 when the food arrived. Similar changes were observed on the caecum (Ce) and DG. Glycogen from DG is used as a source of energy during digestion and recovered 8 h after feeding. Maximum activities of digestive gland GJ enzymes were observed 6 h after feeding, indicating that chyme enzymes are still active when they arrive at the DG's lumen. The presence of food in the digestive tract modifies the pH, which, in combination with GJ, favours the activity of the released enzymes of O. maya.     

Effect of number of meals and frequency of feeding on voluntary feed intake of Colossoma macropomum (Cuvier)

Juvenile, 0.87 g Colossoma macropomum (Cuvier) were submitted to different ad libitum feeding regimes. Feeding frequency ranged from one to five meals per day and intervals between meals from 3 h to 24 h. Higher feeding frequencies resulted in higher feed uptake, a higher growth rate and a decreased feed utilization efficiency. Feed consumption was lower at 0700 h than at 1900 h. The amount of feed from different meals persisting in the digestive tract was determined with chromic-oxide-marked feed. This method revealed that with ad libitum feeding, about 21% of the feed remained uneaten. Feed losses did not differ significantly between feeding regimes. Feed accumulated in the digestive tract in the morning and early afternoon. In the late afternoon most feed rests disappeared from the digestive tract and feed consumption increased. It is suggested that feed uptake and growth of C. macropomum can be improved by extending the feeding period after 1900 h.     

Development and distribution of intestinal enzymatic activity in Paralabrax maculatofasciatus (Steindachner, 1868) larvae fed with live prey

We describe the development and distribution of intestinal aminopeptidase M, dipeptidyl aminopeptidase IV, non-specific esterase, alkaline phosphatase and acid phosphatase, using enzyme histochemistry techniques, in the spotted sand bass larvae ( Paralabrax maculatofasciatus ) under culture conditions. All digestive enzymes tested showed a positive reaction from first feeding (day 2) and throughout the study period (day 30). At first feeding, the main enzymatic activity was in the mucosa throughout the intestines. Later, enzymatic activity occurred in the liver, kidney and stomach. All enzymatic activities increased from days 15 to 20, remaining constant until the end of the study. This enzymatic activity suggests the onset of maturation of the digestive tract. After day 20, a positive reaction was recorded in the pyloric caeca for all tested enzymatic activities. Our study confirms the digestive and absorptive functions in the intestines in spotted sand bass larvae from first feeding. It also brings new insight to establish an early weaning strategy during cultivation of spotted sand bass larvae.     

幼鲤肝胰脏、肠道消化酶活性比较研究

采用同日龄幼鲤在同一饲养条件下,连续测得38、76、114日龄时肝胰脏、肠道蛋白酶、脂肪酸和淀粉酶活性。结果表明：肝胰脏、肠道蛋白酶活性,肝胰脏淀粉酶活性随日龄增加而增加;38至76日龄时肠道脂肪酶、淀粉酶活性明显增加,76至114日龄变化不明显,而肝胰脏脂肪酶活性显著增加;38至76日龄时肠道蛋白酶、脂肪酶、淀粉酶活性高于肝胰脏,114日龄时肝胰脏蛋白酶、脂肪酶活性高于肠道,淀粉酶活性与肠道接近。