牙鲆消化道发育的组织学观察

牙鲆（Paralichthys olivaceus）肉质鲜美、营养价值高，是我国重要的海水养殖鱼类之一，同时，牙鲆二次变态显著，是研究硬骨鱼类变态发育很好的模式生物。在其变态过程前后，外型上最大的变化是其右眼的移位，内部器官如脑颅骨、骨骼肌等都发生结构和功能上的改变，而消化道的发育和分化，特别是其胃在变态前后有显著的变化。消化系统的发育关系到饵料的选择，与仔鱼成活率有直接关系，有较为重要的研究价值。[第一段]     

真鲷幼鱼消化道组织学研究↑（*）

６月龄真鲷（Ｐａｇｒｏｓｏｍｕｓｍａｊｏｒ）幼鱼通过解剖,切片、染色和显微摄像,结果表明：整个消化道从解剖水平可以分为口、口咽腔、食道、胃、肠及直肠等６个功能区。口部有犬齿、臼齿和不规则的粒状齿;口腔内有咽（含咽齿）及鳃耙,鳃耙形成了对食物颗粒的屏障,面向食管保护鳃丝;短的食管起源于咽腔,终止于胃,两者间没有明显的解剖上的差别;Ｙ型的胃分为贲门部、幽门部和胃盲囊３部分。组织学观察可见：胃由单层柱状上皮细胞组成,在贲门区和幽门区的上皮层下面,具有相似细胞组成的胃腺;有４个幽门盲囊,幽门盲囊与肠组织结构基本一致。胰腺管和肝管从幽门盲囊的基部生出。肠道短,肠道前部起源于幽门括约肌之后,在肠瓣处变窄,使整个肠道分为肠和直肠两部分;肠与直肠相比粘膜上有较多的褶皱;肠道上皮由柱状上皮细胞和粘液分泌细胞组成,粘膜下层有致密的结缔组织和大量嗜酸性颗粒的细胞。     

褐菖鲉消化道的组织学和组织化学

褐菖鲉消化道的组织学和组织化学=Study on histology and histochemistry of digestive tract in Sebastiscus marmoratus[刊，中]/石戈（浙江海洋学院海洋科学学院，浙江 舟山 316004），王健鑫，刘雪珠，王日昕//水产学报.－2007，31（03）.－293～302 利用光镜技术对褐菖鲉消化道进行了组织学和组织化学研究。组织学研究表明：褐菖鲉消化道由口咽腔、食道、胃和肠4部分组成。口咽腔较大，上下颌，犁骨及腭骨均有细齿带,粘膜由复层鳞状上皮组成，并含有大量黏液细胞和少量杯状细胞；食道粗而短，上皮组织包括扁平上皮层区域和单层柱状上皮层区域，上皮含有大量杯状细胞和黏液分泌细胞，粘膜层的固有膜中含有腺体；胃呈Y型，包括贲门、胃体和幽门3个区域，胃粘膜由单层柱状上皮组成，在贲门和胃体部的粘膜层中有厚的结实层，上皮有大量的胃小凹和胃腺组织；胃幽门部括约肌明显，幽门上皮不含胃小凹；胃与肠相接处有8～9个指状幽门盲囊，其形态学和组织学特征与前肠类似；肠道上皮由单层柱状上皮细胞组成，丰富的微绒毛形成明显的纹状缘，上皮中含有大量杯状细胞，肠道系数为0.54。组织化学研究显示：幽门、幽门盲囊和肠上皮细胞顶端胞质和纹状缘具碱性磷酸酶活性；幽门盲囊及肠道上皮细胞顶端胞质中检测到酸性磷酸酶活性；在贲门部和胃体部的固有层以及幽门上皮还检测到酯酶活性，且酯酶定位于幽门柱状上皮细胞胞质的上半部。整个消化道的粘膜层中存在许多粘液细胞：食道上皮含大量酸性粘液细胞，胃上皮细胞均含有中性粘液，而肠道由前向后中性粘液物质逐渐减少，酸性粘液物质逐渐增多。组织学和组织化学的结果表明褐菖鲉食道有润滑和微弱的消化作用，胃有消化脂类和吸收糖类的功能；幽门和盲囊有较强的吸收脂类的功能；前肠、中肠和后肠有活跃的细胞内消化和吸收功能，整个消化道结构与其肉食性功能密切相关。图3参29     

Organogenesis of the digestive system in Pacific red snapper (Lutjanus peru) larvae

This study reports the ontogenetic development of the digestive system of larval Pacific red snapper (Lutjanus peru), an important candidate species for aquaculture on the Pacific coast of Mexico. Histological sections of larvae were cut and dyed using the haematoxylin–eosin technique. The development of the digestive tract of Pacific red snapper larvae follows a general pattern of differentiation that can be divided into three stages. Stage I lasted from 1–3 days post hatching (DPH) and included the endogenous nutrition period; it was characterized by the initial differentiation of the digestive tract in preparation for the onset of exogenous feeding (3 DPH). At this time, the digestive tract was differentiated into buccopharynx, oesophagus, stomach anlage, anterior intestine, posterior intestine and a short rectum. The liver, pancreas and kidney were also present. The mouth and anus were open. Stage II occurred after first feeding, lasted for 16 days (4–23 DPH) and included both preflexion and flexion larvae. The main changes that occurred during this stage reflected the adaptation to exogenous feeding and the concomitant growth. Stage III (24–30 DPH) included post‐flexion larvae and started with the appearance of the gastric glands and pyloric caeca. The presence of the gastric glands suggests that early weaning during culture trials of the Pacific red snapper larvae may be possible at this early age.     

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。     

西伯利亚鲟消化道形态学和组织学的初步研究

对人工养殖2龄西伯利亚鲟消化道的形态解剖学和显微组织学结构进行了观察。研究结果表明,西伯利亚鲟的消化道从前至后分为口咽腔、食道、胃、幽门盲囊、十二指肠、瓣肠和直肠,食道与胃的分界不明显,形成一个"食道-胃过渡区",胃分为贲门部、胃体部和幽门部。组织学研究显示:西伯利亚鲟的消化道由内向外一般分为粘膜、粘膜下层、肌层和浆膜四层。其中食道粘膜上皮为复层扁平上皮,含杯状细胞和粘液细胞。"食道-胃过渡区"已有腺体存在。胃上皮细胞为单层柱状上皮细胞,无杯状细胞,胃的粘膜表面有许多上皮凹陷形成的胃小凹,幽门部的胃小凹较贲门部和胃体部深;贲门部和胃体部中含有大量的胃腺,幽门部无胃腺。幽门盲囊的管腔内被向内深入的肌层分割成许多完全或不完全的囊腔;粘膜褶皱和褶皱上的绒毛纵横交错,形成网状。肠上皮均为单层柱状上皮,上皮细胞间分布有大量的杯状细胞;粘膜褶皱的高度和数量、杯状细胞的数量从前至后递减:十二指肠粘膜褶皱细而高,上有许多绒毛;瓣肠粘膜和粘膜下层向管腔内突出并卷曲,形成螺旋瓣;直肠的粘膜褶皱矮且宽。     

野生鲻鱼和养殖鲻鱼消化系统的组织学观察

野生与养殖鲻鱼(Mugil cephalus)的消化系统在形态和组织结构上存在一定差异.(1)形态方面:食道粗而短,胃呈球形,包括贲门部、盲囊部、胃体部和幽门部4个区域,胃与肠相接处有2个指状幽门盲囊,肠道在腹腔内盘旋5圈.肝脏黄褐色,右叶较左叶大,未发现独立的胰脏.养殖鲻鱼消化道周围包裹更多脂肪,胃较小但胃腔更大,肠...     

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.     

pH对大眼鳜和翘嘴鳜蛋白酶活性的影响

研究了不同pH值对大眼鳜消化道不同部位蛋白酶活性的影响及在最适pH条件下与翘嘴鳜消化道蛋白酶活力的差异。结果表明,大眼鳜消化道不同部位蛋白酶的活性强弱顺序为:幽门盲囊>胃>前肠>后肠,其最适pH分别是:10.4、2.8、9.5、10.1。翘嘴鳜的胃和幽门盲囊蛋白酶活力明显高于大眼鳜(P<0.01),而肠的蛋白酶活力略低,差异不显著(P>0.05)。     

长鳍篮子鱼消化道内分泌细胞的免疫组织化学鉴别和定位

应用4种兔抗胃肠激素抗体和SABC免疫组织化学方法,对长鳍篮子鱼(Siganus canaliculatus)消化道中的内分泌细胞进行鉴别和定位。结果表明:5-羟色胺(5-HT)细胞在消化道各段均有分布,食道和胃中分布数量多,在幽门盲囊和肠道分布数量少;生长抑素(Som)细胞集中位于食道和胃部,数量多,幽门盲囊和肠道中未检出;神经肽Y(NPY)细胞在肠道有少量分布,其余各段均未检出;胃泌素(Gas)细胞在幽门盲囊和肠道有少量分布,食道和胃中均未检出。4种内分泌细胞的数量分布和形态特征存在一定的差异,并对其可能的生理作用进行了讨论。     

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。     

野生与养殖黄鳍鲷消化道中粘液细胞的类型及分布

采用常规石蜡组织切片及AB-PAS的染色方法对野生和养殖黄鳍鲷（Sparus latus）消化道中粘液细胞的类型及分布情况进行了比较观察研究。黄鳍鲷粘液细胞在消化道各部位均有分布,不同部位粘液细胞的类型和分布均有差异。食道中以Ⅰ、Ⅱ型粘液细胞为主;贲门部和胃体部只有Ⅰ、Ⅱ型粘液细胞分布,幽门部只有Ⅰ型粘液细胞;幽门盲囊、肠道及直肠都是Ⅱ型粘液细胞最多。野生与养殖黄鳍鲷粘液细胞的区别在于消化道的相同部位养殖鱼比野生鱼粘液细胞数量更多。根据研究结果推测粘液细胞的类型和分布与鱼的生活环境及食物相关,也可能与消化道中各种菌群的分布有关。     

军曹鱼消化系统的形态及组织学研究

利用活体解剖和光镜技术对军曹鱼Rachycentron canadum消化系统进行形态及组织学研究。结果显示,军曹鱼消化道由口咽腔、食道、胃、幽门盲囊、前肠、中肠和后肠几部分组成。口咽腔大,粘膜上皮为复层鳞状上皮,内含少量杯状细胞。食道很短,但上皮包括复层鳞状上皮区和单层柱状上皮区。胃膨大,呈Y形,在贵门和幽门部可观测到杯状细胞,胃体粘膜层下有大量的胃腺细胞。幽门盲囊发达,肠短但分3部分,前肠、中肠和后肠,肠道系数为0．43,肠道由前向后杯状细胞和粘膜皱褶不断减少。消化腺包括肝脏和胰腺,肝小叶分界不明显,肝细胞内脂肪含量丰富,胰腺属于散在性的,其外分泌部有许多腺泡组成,胰岛分散于外分泌部间。     

豹纹鳃棘鲈消化道粘液细胞的类型与分布

应用AB-PAS染色法对工厂化养殖条件下豹纹鳃棘鲈(Plectropomus leopardus)消化道粘液细胞的类型与分布进行了观察研究。结果显示:豹纹鳃棘鲈粘液细胞在消化道各部位均有分布,不同部位的粘液细胞密度和类型均有差异,豹纹鳃棘鲈消化道粘液细胞可分为Ⅰ型、Ⅱ型、Ⅲ型、Ⅳ型。其中,食道粘液细胞以Ⅲ型为主,胃以Ⅰ型为主,幽门盲囊和肠以Ⅲ型为主,直肠以Ⅲ型和Ⅳ型为主;胃部粘液细胞分布密度最大,达(111.37±21.74)cell·mm~(-2),极显著高于消化道其它部分,直肠、幽门盲囊、肠的粘液细胞分布密度分别为(35.09±8.74)、(30.23±5.37)、(28.00±4.67)cell·mm~(-2),相互之间差异不显著,食道的粘液细胞分布密度最低,为(10.83±1.94)cell·mm~(-2),与消化道其它部分相比差异极显著。另外,消化道各段单位面积内粘液细胞的分泌能力顺序为食道直肠肠幽门盲囊胃。通过对消化道各部位粘液细胞的分类对比可以发现,粘液细胞的类型和分布与其所在部位的功能有密切关系。     

The ontogeny of the alimentary tract during larval development in common pandora Pagellus erythrinus L.

The ontogenesis of the alimentary tract and its associated structures (liver, pancreas, gall bladder) was studied histologically in common pandora from hatching (0 DAH, days after hatching) until day 50 (50 DAH). Larvae were obtained by natural spawning from a broodstock adapted to captivity. They were stocked in 1500 l tanks supplied with Isochrysis galbana and Tetraselmis suecica from hatching until the Artemia feeding stage, at a temperature of 18.5–20 °C. Larvae were fed Selco-enriched Brachionus plicatilis from day 3, Artemia nauplii from day 28 and formulated feed from day 35. At hatching, the digestive tract was a histologically undifferentiated straight tube lying dorsally to the yolk sac. At first feeding (3–4 DAH) both the mouth and anus had opened and the digestive tract was differentiated into four portions: buccopharynx, oesophagus, incipient stomach and intestine. The pancreas, liver and gall bladder were also differentiated at this stage. Within 2 days after the commencement of exogenous feeding, the anterior intestinal epithelium showed large vacuoles indicating the capacity for absorption of lipids, whereas supranuclear ninhydrin-Schiff (NS) positive inclusions indicating protein absorption were observed in the posterior intestinal epithelium. Both the bile and main pancreatic ducts had opened in the anterior intestine, just after the pyloric sphincter, at this stage. Intestinal coiling was apparent since 4 DAH, while mucosal folding began at 10 DAH. Scattered PAS-positive mucous cells occurred in the oral cavity and the intestine, while they were largely diffused in the oesophagus. Gastric glands and pyloric caeca appeared at 28 DAH, indicating the transition from larval to juvenile stage and the acquisition of an adult mode of digestion.     

卵形鲳鲹消化酶活性的研究Ⅴ大规格幼鱼消化酶活性在不同消化器官中的分布及盐度对酶活性的影响

研究了卵形鲳鲹(Trachinotus ovatus)大规格幼鱼(全长10.53±1.41 cm,体质量15.02±2.46 g)蛋白酶、淀粉酶和脂肪酶活性在不同消化器官中的分布,以及5、15、25、30、35五种盐度对肠、幽门盲囊、胃和肝脏中消化酶活性的影响.结果表明:在不同盐度下,蛋白酶、淀粉酶、脂肪酶活性在各消化...     

Digestive enzyme responses of tambaqui (Colossoma macropomum) fed on different levels of protein and lipid

The adaptation of digestive proteases, amylase and lipase was studied in tambaqui fed with 350, 253, 301 and 205 g kg^?1 of crude protein, and 49, 81, 113 and 145 g kg^?1 of lipid, in isocaloric diets. Digestive protease increased when dietary protein increased in stomach, where the highest specific activity was observed. Unspecific protease activity in intestine was very low. Lipase was observed throughout the gastrointestinal tract, and higher activities were observed in the stomach. However, pyloric caecum and the anterior and posterior intestines were the responsive sections to the dietary lipid. Amylase was detected throughout the gastrointestinal tract, but pyloric caecum was the most relevant amylase producer. Positive correlations were observed between anterior intestine lipase versus dietary lipid and pyloric caecum amylase versus dietary protein. Tambaqui is responsive to the food composition adapting the main digestive enzymes to the best profile.     

鱼类消化道内分泌细胞概述及研究方法

消化道内分泌细胞能产生多种具有调节胃肠功能的胃肠激素。该类激素除了能促进胃肠对营养物质的消化与吸收外,还能控制摄食行为、调控消化道运动以及细胞营养作用,甚至能够影响其他一些内分泌腺的活动。了解肠道内分泌细胞的基本概况有助于深入地研究鱼类的消化生理,组织化学、免疫细胞化学和电子显微镜等技术是研究消化道内分泌细胞鉴别、定位以及形态学的重要方法,利用这些技术能够揭示鱼类消化道内分泌细胞的生物功能及作用机理,对研究鱼类摄食、消化和吸收等生理机制有重要意义。因此,本文综述了近年来国内外鱼类消化道内分泌细胞的研究进展及主要研究手段,旨在为鱼类消化生理学、内分泌学和营养学提供参考资料。     

鱼类消化道内分泌细胞概述及研究方法

消化道内分泌细胞能产生多种具有调节胃肠功能的胃肠激素。该类激素除了能促进胃肠对营养物质的消化与吸收外,还能控制摄食行为、调控消化道运动以及细胞营养作用,甚至能够影响其他一些内分泌腺的活动。了解肠道内分泌细胞的基本概况有助于深入地研究鱼类的消化生理,组织化学、免疫细胞化学和电子显微镜等技术是研究消化道内分泌细胞鉴别、定位...     

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。