锯缘青蟹人工养殖技术

锯缘青蟹人工养殖技术张万隆（广西合浦县水产局５３６１００）锯缘青蟹ＳｃｙｌｌａＳｅｒｒａｔａ（Ｆｏｒｓｋａｌ），俗称青蟹，盛产于我国长江口以南沿海，自然海区最大个体２ｋｇ，是国内外著名的食用蟹。近年来，青蟹产区多数渔业衰退，青蟹市价猛增，国内市场膏蟹...     

锯缘青蟹的人工育苗试验

本文报道在室内水缸中进行锯缘青蟹人工育苗的试验结果,通过对拖卵蟹的培育,孵出蚤状Ⅰ期幼体300万只,蚤状幼体从第Ⅰ期培育到第Ⅱ期的成活率最高的达66.7%,并从其中两个试验缸中,培育出稚蟹995只     

锯缘青蟹人工繁殖技术

为了解决南方苗种少的困难及为北方增加新的养殖品种,在北方地区人工繁殖锯缘青蟹,生产苗种大量返销南方。2001年由南方购进待二次产卵膏蟹14只。在室内水泥池培育,抱卵率达42%,幼体成活率达50%。共孵化出幼体13 2万只,平均单位水体出苗(C1-C3)1100只/m3,怀卵量低与二次抱卵蟹卵质量较差有关,幼体死亡率高,主要是蜕皮不遂。     

土霉素在锯缘青蟹体内的药物代谢和消除规律

采用高效液相色谱法检测土霉素,研究土霉素口灌给药途径下在锯缘青蟹体内的药代动力学。锯缘青蟹口灌给药土霉素50 mg/kg后,其血浆、肌肉和肝胰脏中的药峰浓度分别为16.78±1.98 mg/L、9.39±2.12μg/g和32.12±6.12μg/g,达峰时间分别为4 h、8 h和4 h。血浆中土霉素浓度-时间关系曲线符合一级吸收的二室开放动力学模型。土霉素在锯缘青蟹体内分布广泛,其表观分布容积(Vd)为2.129 L/kg;分布半衰期(t1/2α)和消除半衰期(t1/2β)分别为3.200 h和47.856 h,总体清除率(CLs)为0.063 mL/(kg.h)。肌肉和肝胰脏中土霉素浓度与时间关系的药动学参数采用统计矩原理分析,其消除半衰期(t1/2 z)分别为60.145 h和71.009 h,总体清除率(CLz)分别为0.054 g/(kg.h)和0.037 g/(kg.h)。土霉素在精巢和卵巢中达峰时间分别为8 h和12 h,峰浓度分别为9.83μg/g和10.26μg/g。给药后24 d时,血浆、肌肉、肝胰脏、精巢和卵巢中土霉素含量都已低于0.10μg/g。土霉素在锯缘青蟹体内消除比较缓慢。     

汕头市锯缘青蟹病害调查

通过对广东省汕头市海水池塘养殖锯缘青蟹的病害调查,发现病害的种类有：呼肠孤病毒病、弧菌病、黄斑病、黑鳃病、蟹奴、纤毛虫病、黄水病、芒病、饱水病、蜕壳不遂病、线虫病等。通过调查。掌握了青蟹病害发生流行的基本规律,确定了青蟹病害防治的基本方法。     

锯缘青蟹苗种培育的科技进展

锯缘青蟹是我国南方沿海各省传统养殖的海水蟹类,在当前农业产业结构调整中被列为主要发展品种之一。鉴于苗种是限制青蟹养殖业发展的主要因素,本文根据目前的研究现状对青蟹的种质、性成熟机制,产卵、孵化条件,幼体培育过程中营养条件、盐度、温度、光照、疾病等,以及从大眼幼体到仔蟹的中间培育技术等作了简要归纳,并对研究现状和进入产业化急需解决的问题进行了探讨。     

锯缘青蟹人工育苗规模化试验

2003年营口市水产科学研究所继续开展辽宁省海洋与渔业厅下达的“锯缘青蟹人工育苗的研究”,实行规模化试验运作,取得了较好的经济效益,现将试验情况报告如下。1　试验材料与方法1 1　育苗设施的准备2003年在营口水产科学研究所鲅鱼圈试验基地进行生产性育苗实验。亲蟹培育     

锯缘青蟹幼体饵料的营养强化

用酵母、水球藻、鱼油强化和豆油强化四种不同方式培养轮虫，再分别投喂锯缘青蟹幼体，分析测定轮虫和体的生化组成，结果显示，（1）不同方式培养的轮虫之间以及摄食这些轮虫的锯缘青蟹幼体之间的蛋白质含量都没有显著差异；（2）轮虫的脂类含量和脂肪酸组成与培养方式密切相关，小球藻轮虫的脂类含量最高，20：5n-3(EPA)占总脂肪酸的比例也最高 ，为18.05%，鱼油轮虫则含有最多的22：6n-3(DHA)，占总脂肪酸3.16%，脂类含量仅次于小球藻轮虫；（3）锯缘青蟹幼体的脂类含量和脂肪酸组成受相应饵料营养成分的影响。另外，幼体培育实验也发现，饵料营养成分影响幼体的存活率，结果表明，提高轮虫的EPA和DHA含量，尤其晨DHA含量，将有利于锯缘青蟹幼体的存活和发育。     

锯缘青蟹育苗过程中的病害及其防治措施

锯缘青蟹俗称青蟹,在人工育苗过程中,因育苗水体小,幼体密度大,各种饵料残余等因素,易使水质恶化,幼体易感染一些病害,笔者根据两年来锯缘青蟹育苗工作中的实践经验,总结出一套防治锯缘青蟹病害的有效方法。现将具体疾病预防措施及常见病害防治方法介绍如下:一、预防具体措施1.做好亲蟹和抱卵蟹的疾病预防工作亲蟹健壮是育苗的基本保障,只有健壮的亲蟹才能产出优质的受精卵。要得到体质健壮的蚤状幼体要做到以下两点:①选择体格健壮无病的膏蟹作亲蟹。②加强亲蟹、抱卵蟹的饲育管理。亲蟹、抱卵蟹的饵料要求口感好、营养丰富。抱卵蟹要单独…     

锯缘青蟹养殖试验

为研究在崇明地区进行锯缘青蟹养殖的可行性及相关技术,于2004年～2005年进行了两年养殖试验,试验中分别对不同池塘面积、盐度、放养密度、饵料种类等进行比较,并根据试验结果提出了养殖锯缘青蟹的实用技术要点。     

Ovarian maturation stages of the mud crab Scylla serrata

Ovarian maturation in adult wild‐sourced and pond‐grown Scylla serrata (Forsskål) was determined based on gross morphology and histological appearance. There were no significant differences noted in the histological features of both wild and pond‐reared S. serrata females. Ovarian maturation was classified into five stages: immature, early maturing, late maturing, fully mature and spent. The immature ovaries are thin and translucent to off white and contain oogonia, primary oocytes with large nuclei. The follicle cells were found around the periphery of the lobes and an area among groups of oogonia and oocytes. The follicle cells gradually enclosed the oocytes. The early‐maturing ovaries were yellow and small yolk globules started to appear in larger oocytes. In late‐maturing ovaries, the colour became light orange and lobules were apparent. Yolk globules occurred in the cytoplasm with larger globular inclusions towards the periphery, while follicle cells were hardly recognizable. Fully mature ovaries were orange to deep orange and had swollen lobules. Large yolk globules were apparent in the entire cytoplasm. Follicle cells were hardly seen. Spent ovaries were similar to the early‐maturing and late‐maturing stage in partially spawned females. The ovarian development was correlated closely to the gonadosomatic index, oocyte diameter, and ovarian histology. The classification of ovarian maturation provides baseline information for further studies on reproductive biology. Likewise, the information provides a guide for broodstock management in the hatchery.     

锯缘青蟹促雄腺进行全浆分泌的证据

采用透射电镜技术，对锯缘青蟹(Scylla serrata)促雄腺细胞的分泌活动进行了观察。结果表明，腺细胞具有2种类型：A型细胞核内常染色质丰富，具有大量的扁平嵴的线粒体、粗面内质网与核糖体，A型细胞进行分泌时，细胞质大量排出，属于全浆分泌方式；B型细胞异染色质绕核内膜分布，仅见极少量的细胞器或细胞质完全消失。B型细胞为A型细胞完成分泌后的存在形式。本研究为甲壳动物促雄腺的全浆分泌活动提供了直接的证据。     

影响锯缘青蟹幼体成活的几个因素

本文对海捕和养殖的锯缘青蟹抱卵及胚胎发育情况进行了观察,并对幼体饵料营养强化、适口性、幼体的培育方式等进行了研究。结果表明：自然诲区捕获的亲蟹其抱卵率和幼体质量要好于人工养殖的亲蟹;胚胎发育的最适盐度为28～33,最适温度为26～30℃;幼体\期和大眼幼体时期摄食的饵料以边缘毛状的活体为佳,便于抱握;涵状幼体、期起应降低苗池中的直射光,投饵多餐少量．增加附着面积．可降低相互残杀率。     

锯缘青蟹促雄腺发育的组织学研究

采用组织切片技术，以OlympusBH-2型显微镜对锯缘青蟹(Scylla serrata)促雄腺的发育进行观察。结果显示，促雄腺附着于射精管近末端，发育过程可分为4期：Ⅰ期促雄腺短小，腺细胞数量少；Ⅱ期促雄腺呈明显的索状；Ⅲ期促雄腺体积达到最大，一些部位膨大增生；Ⅳ期促雄腺不再生长，腺体急剧退化。腺细胞具有2种类型：A型细胞，核圆、异染色质少、胞质染色浅；B型细胞，核扁平、异染色质多，细胞染色深、界限不清晰，有时细胞质消失。促雄腺发育过程中，A、B型细胞数量、比例发生变化。B型细胞为A型细胞完成分泌后的存在形式，B型细胞比例反映了促雄腺分泌活动的状况。锯缘青蟹促雄腺发育和精巢成熟具有一定的相关性。     

Acute toxicity of nitrite to mud crab Scylla serrata (Forsskål) larvae

Early larval stages of mud crab Scylla serrata were exposed to different concentrations of nitrite (40, 80 and 160 mg L⁻¹ and a control, without added nitrite) and three salinity levels (25, 30 and 35 g L⁻¹) using a static renewal method. No interactive effect of nitrite and salinity was detected. Estimated LT₅₀ in 96‐h toxicity tests decreased in all stages with increasing nitrite concentrations in all salinity levels. The 96‐h LC₅₀ values of nitrite‐N were 41.58, 63.04, 25.54, 29.98 and 69.93 mg L⁻¹ for zoea 1, 2, 3, 4 and 5 respectively. As the larvae grew, they showed a progressive increase in tolerance to nitrite. The toxicity of nitrite to larvae increased with exposure time. The median lethal concentration was not affected by salinity. The chloride component of salinity within 25–35 g L⁻¹ did not seem to be as effective in alleviating toxicity as has been reported in other crustacean species. Based on 96‐h LC₅₀ and an application factor of 0.1, the ‘safe level’ of rearing mud crab larvae was calculated to be 4.16, 6.30, 2.55, 2.99 and 6.99 mg L⁻¹ nitrite‐N for zoea 1, 2, 3, 4 and 5 respectively.     

利用AFLP技术筛选锯缘青蟹性别差异DNA片段

采用高盐和酚氯仿异戊醇 (PCI)结合法提取DNA ,利用AFLP技术 ,应用 5 2个引物组合 ,检测了锯缘青蟹 (Scyllaser rata)雌雄基因组DNA的多态性 ,筛选与锯缘青蟹性别相关的分子标记。实验中共扩增出 4 312条带 ,筛选出候选差异DNA片段 74 8条。这些差异DNA片段的获得 ,为研究锯缘青蟹性别的分子标记奠定了基础     

Ingestion of Brachionus plicatilis and Artemia salina nauplii by mud crab Scylla serrata larvae

Two feeding experiments were conducted to determine if Brachionus plicatilis and Artemia salina nauplii were ingested by mud crab Scylla serrata larvae. In the first experiment, larvae were fed with increasing densities of Artemia nauplii with or without Brachionus to determine consumption with increasing densities of Artemia and with increasing zoeal stage. This experiment also aimed to determine if the presence of Brachionus as an alternative prey influenced the intake of Artemia by the crab larvae. There was generally an increase in intake with increasing densities of Artemia and increased consumption of Artemia as the larvae grew. Consumption of Brachionus was consistently high in all zoeal stages. There was a significant reduction in the intake of Brachionus with increasing consumption of Artemia in the early zoeal stages (Z1, Z2, Z3), but at later stages (Z4, Z5) the intake of Artemia was no longer affected by the presence of Brachionus. In the second experiment, daily ingestion within instar of zoeal stages and megalopa were compared. There was an increased consumption of Artemia nauplii on the day before molting and increased ingestion of Brachionus on the day after larvae had molted, except at Z3. Megalopae exhibited a decline in Artemia nauplii intake on the days before metamorphosis to crablet.     

锯缘青蟹血细胞的形态及分类

对锯缘青蟹（Scylla serrata）血细胞染色的抗凝剂、染色方法进行筛选。蟹样品体质量约250g。采用亚甲基蓝、瑞氏法染色后，在Olympus油镜下观察、记数、测量，再结合电镜超薄切片观察结果对锯缘青蟹血细胞进行分类。根据血细胞质中颗粒的有无、大小、折光性、染色特性及细胞的大小、核质比等，将锯缘青蟹血细胞分为4种：（1）无颗粒细胞，细胞质中无颗粒；（2）小颗粒细胞，细胞质中有深蓝色小颗粒；（3）中间型细胞，细胞质中既有深蓝色小颗粒，又有折光性红色大颗粒；（4）大颗粒细胞，细胞质中充满了具有折光性的红色大颗粒。4种血细胞的大小顺序从小到大依次为无颗粒细胞、小颗粒细胞、中间型颗粒细胞、大颗粒细胞；核质比则相反，分别为54．01％、37．13％、25．37％、17．49％；其数量百分比分别占20．92％、40．30％、19．39％、19．39％。根据伪足的多少。对4种血细胞在机体的免疫防御机制中所起的不同作用进行了简单探讨。