饥饿胁迫对中华绒螯蟹(Eriocheir sinensis)仔蟹的影响

在26.2 ～28.4℃水温条件下,研究了饥饿对中华绒螯蟹(Eriocheir sinensis)仔蟹的形态、行为、存活及体重损失的影响,同时确定了仔Ⅱ的营养饱和储存点(PRS)和不可恢复点(PNR).结果表明:饥饿胁迫下中华绒螯蟹仔Ⅰ、仔Ⅱ、仔Ⅲ的初次死亡时间(T1)分别为8.0、14.0和20.3 d,50％死亡时间(Ts0)分别为11.4、16.0和25.5 d,100％死亡时间(T100)分别为15.0、22.0和32.3 d,耐饥饿能力为仔Ⅲ＞仔Ⅱ＞仔Ⅰ;饥饿期间中华绒螯蟹体内水分含量持续升高,干重量降低显著,干重损失速率也随时间延长逐渐减小;先饱食后饥饿的给饵模式中仔Ⅱ蜕皮率随初始饱食时间延长而升高,50％个体完成蜕皮所需饱食时间(PRS50)为2.10d,各处理组仔Ⅱ的蜕皮周期与持续饱食组均无显著差异(P＞0.05),但只有饱食3d以上才能达到持续饱食饲养蟹的增重率;先饥饿后饱食的给饵模式中,仔Ⅱ的蜕皮率随着初始饥饿时间的延长而下降,其中仔Ⅱ50％不能蜕皮的初始饥饿时间(PNR50)和100％不能蜕皮的初始饥饿时间(PNR100)分别为10 d和14 d,并且蜕皮周期相对延长,延长时间约等于初始饥饿时间,不存在额外的摄食时间来弥补饥饿期间损失的能量,各处理组蜕皮后仔蟹与对照组体重无显著差异(P＞0.05).     

生态育苗池中的桡足类与河蟹苗产量的关系

探讨了辽宁盘锦辽河三角洲地区中华绒螯蟹(Eriocheir sinensis)生态育苗池中出现的近亲真宽水蚤(Eurytemor affinis)和细巧华哲水蚤(Sinocalanus tenellus)与中华绒螯蟹幼体的关系.结果表明：近亲真宽水蚤和细巧华哲水蚤都严重地影响Ⅰ期中华绒螯蟹溞状幼体的成活率,其密度越大,Ⅰ期溞状幼体的成活率就越低(P＜0.01); Ⅲ期中华绒螯蟹溞状幼体可捕食桡足类无节幼体,且捕食量随着无节幼体密度增加而变大(P＜0.01);Ⅴ期中华绒螯蟹溞状幼体和大眼幼体容易捕食到近亲真宽水蚤而很难捕食到细巧华哲水蚤;蟹苗池中大眼幼体的产量与育苗初期池塘中桡足类的数量呈负相关关系,且不同桡足类密度下大眼幼体收获量差异极显著(P＜0.01).提出了控制和利用蟹苗池中桡足类的措施.     

狭额绒螯蟹的幼体发育

在水温18—20℃、盐度18‰—20‰、光照度200～600Ix的条件下,狭颚绒鳌蟹幼体发育经5个溞状幼体和1个大眼幼体期。从幼体出膜到大眼幼体出现历时15d、到仔蟹出现需23d。狭颚绒鳌蟹和中华绒鳌蟹的第一期溞状幼体可从第2触角的外肢、腹部侧刺数加以区别;两大眼幼体可从额角形状、第2—4胸足指节、腹肢外肢刚毛数及尾节刚毛着生情况进行区分。     

中华绒螯蟹胰脂酶基因克隆及表达分析

采用cDNA末端快速扩增技术(RACE)克隆获得了中华绒螯蟹(Eriocheir sinensis)胰脂酶基因(pancreatic lipase, PL)的cDNA序列全长。该序列全长1 970 bp,开放阅读框长度为1 374 bp,编码457个氨基酸,5'和3'非编码区(UTR)长度分别为372 bp和224 bp。理化分析表明其预测分子量为51.066 kD,理论等电点为4.65。其序列中检测到脂肪酶典型的催化三联体结构、"盖子"结构以及"亲核弯"结构。蛋白同源性和进化树分析表明,中华绒螯蟹胰脂酶和其他物种同源性较高(50%左右),且和甲壳动物聚为一支而与脊椎动物相聚较远。组织表达模式分析表明,EsPL基因主要在肝胰腺、肠道、胸神经节表达较高;幼体发育阶段表达模式分析表明,EsPL基因在溞状幼体Ⅰ~Ⅲ期表达量逐渐递增,Ⅳ期显著下降,Ⅴ期较Ⅳ又显著增加,大眼幼体阶段表达最低;同一脂肪水平下,相比于含高不饱和脂肪酸的鱼油而言,植物油如豆油和亚麻油的添加均会增加胰脂酶基因的表达,且亚麻油鱼油混合油组促进效果最显著。上述结果表明饵料脂类显著影响中华绒螯蟹胰脂酶,从而为提高中华绒螯蟹对饵料脂类利用率提供了研究依据。     

中华绒蟹幼体消化道甲壳质消化细菌的研究

1　引　　言随着中华绒螯蟹 (Eriocheirsinensis)人工育苗规模的扩大 ,生产实践中有关小型甲壳类活体饵料投喂问题受到生产者和一些学者的重视[1,3 ,4] ,本研究分析中华绒螯蟹幼体消化道内甲壳质消化细菌 ,试图从该方面探讨中华绒螯蟹幼体与甲壳类活体饵料动物之间的关系 .有关水生动物消化道内甲壳质消化细菌 ,曾在鱼胃中有发现 .中华绒螯蟹消化道内微生物的研究未见有报道 ,我们对中华绒螯蟹 氵蚤Ⅰ大眼幼体消化道内甲壳质消化细菌进行了分离筛选 ,以探讨其消化机理 ,并为人工育苗生产中合理选择时机投喂卤虫 (Artemiasalina)、枝角类等…     

孵育温度对虾蟹幼体质量影响的初步研究

研究了亲体催产、幼体孵化和幼体培养温度对斑节对虾和中华绒螯蟹胚胎及早期幼体生长发育的影响．在实验温度（中华绒螯蟹,17～21℃;斑节对虾,26～30℃）范围内,胚胎及幼体的生长发育随温度升高而加快,但幼体的大小和蜕皮变态存活率随温度升高而降低．虾蟹幼体孵育的温度效应决定于亲体催产温度及升温方式、幼体孵化温度和培养温度．着重探讨了孵育温度等环境条件对幼体质量的影响,并提出从虾蟹胚胎和幼体发育期间能量代谢和物质代谢等途径开展进一步研究．     

中华绒螯蟹Eriocheir sinensis H.Milne-Edwards的幼体发育

1.本文所报道毛蟹的幼体发育试验,全部是在实验室内进行的。 2.毛蟹的幼体发育共经五个(氵蚤)状幼体期和一个大眼幼体期。卵孵化出膜的幼体即为第一(氵蚤)状幼体,而不是早期(氵蚤)伏幼体或原(氵蚤)伏幼体。这两种幼体应该是在卵膜内度过的。 3.在水温11—22℃,盐度为9‰的实验室条件下,从幼体出膜到第一期幼蟹的出现,共经39—40天。每蜕一次皮,即进入另一发育时期,其所需的时间,随着温度的升高而缩短。其发育速度见下表: 幼体名称 水温(℃) 日数 第一(氵蚤)状幼体 11—17 7—9 第二(氵蚤)状幼体 17—18 5—6 第三(氵蚤)状幼体 18—20 6—7 第四(氵蚤)状幼体 16—19.5 5—6 第五(氵蚤)状幼体 16.5—19 7—8 大眼幼体 19—22 9—10 4.饵料、盐度、水温和水质等因子对幼体有着不同程度的影响。 5.(氵蚤)状幼体以两对颚足外肢末端的羽伏刚毛的数目,胸、腹肢的大小与形状和尾叉内面中部刚毛的数目为分期的主要依据。     

中华绒螯蟹遗传变异的RAPD分析

用31个可重复性好的随机引物对中华绒螯蟹(Eriocheir sinensis)的辽河、瓯江和长江种群进行了RAPD分析。121个扩增片段中有27个多态片段。遗传距离指数（D）表明中华绒螯蟹种内遗传变异较低(D=0.004～0.063)。3个种群中,辽河种群(D=0.018)和瓯江种群(D=0.025)遗传变异较高,而长江种群遗传变异较低(D=0.013);辽河种群和瓯江种群间遗传距离(D=0.023)小于它们与长江种群间的遗传距离(D值分别为0.028和0.032)。提示人类经济活动可能已使这2个种群发生了基因交流。     

中华绒螯蟹水通道蛋白11基因克隆及表达分析

为研究水通道蛋白11基因(AQP11)在中华绒螯蟹(Eriocheir sinensis)生长蜕壳过程中的功能作用,采用RACE技术克隆获得中华绒螯蟹水通道蛋白11基因cDNA全长序列.该序列总长为1 746bp,5'端和3'端非编码区分别为463 bp和476 bp,开放阅读框为807 bp,推测编码268个氨基酸,预测分子量29.46 kDa,理论等电点为5.38.生物学信息分析表明,AQP11含有4个跨膜区(第62～84,第159～181,第194～216,第231～250)和2个NPV单元,属于稳定蛋白;同源性和进化树分析表明,中华绒螯蟹AQP11氨基酸序列与凡纳滨对虾(Litopenaeus vannamei)的同源性最高(82.0％),与凡纳滨对虾的聚为一支,与甲壳动物的亲缘关系最近.实时荧光定量PCR(RT-qPCR)的检测显示,AQP11基因在中华绒螯蟹各组织中均有表达,其中在肠道中表达量最高,其次是脑、肌肉和胸神经节,在肝胰腺、鳃和血中表达量最低.研究发现,AQP11基因在中华绒螯蟹肠道中的表达呈现,在蜕壳间期(C期)和蜕壳前期(D期)过程中表达量均较低,在蜕壳期(E期)表达量开始上升,蜕壳后期(AB期)表达量不变.AQP11基因在肌肉中的表达呈现,蜕壳间期(C期)表达量低,蜕壳前期(D期)表达量开始上升,蜕壳期(E期)达到峰值,随后到蜕壳后期(AB期)下降.研究结果表明,中华绒螯蟹AQP11基因在其蜕壳过程中发挥着重要的作用.     

中华绒螯蟹幼体发育阶段对淀粉营养需要的研究

本实验研究了饲料中淀粉含量对中华绒螯蟹幼体生长发育与淀粉酶活力的影响。结果表明:饲料中不同淀粉含量对中华绒螯蟹幼体存活率、变态率和增重量的影响显著(P1、Z2、Z3、Z4)或下降(Z5、M)趋势,且饲料中淀粉含量对幼体淀粉酶活力变化有显著影响(P1、Z2、Z34、Z5、M的适宜淀粉需求量分别为18%、22%、18%、18%-22%、18%、14%-18%。       

Effects of prehatching salinity and initial larval biomass on survival and duration of development in the zoea 1 of the estuarine crab, Chasmagnathus granulata, under nutritional stress

The effects of individual larval biomass, and salinity experienced during embryogenesis (i.e., prehatching salinity) on starvation tolerance and growth of zoea 1 of the estuarine crab (Chasmagnathus granulata) were evaluated in laboratory experiments. Freshly hatched zoeae 1 were obtained from broods maintained at three salinities (15‰, 20‰ and 32‰), and cultured at 20‰ under different initial feeding periods and subsequent food deprivation (“point of reserve saturation” experiment: PRS) or under initial periods of food deprivation and subsequent feeding (point of no return experiment: PNR). Another group of larvae were used for determination of biomass (dry weight, carbon, and nitrogen) of zoea 1.Larval survival and duration of development depended on the length of feeding period: no larvae reached the second instar under complete starvation; survival was higher and duration of development shorter as the feeding period lengthened. After different initial feeding periods (PRS experiment), zoeae 1 that hatched from eggs incubated at the prehatching salinities of 15‰ and 20‰ showed higher survival and shorter duration of development than those at 32‰. Prehatching salinity also affected the amount of reserves accumulated during the first 2 days after hatching, with larvae from 15‰ and 20‰ showing the highest percentage of total accumulation of carbon and nitrogen. Initial larval biomass did not affect survival, but it had a slight effect on duration of development, with larger larvae (in terms of biomass) developing faster. After different initial starvation periods (PNR experiment), prehatching salinity did not affect survival, but it affected duration of development: larvae from 15‰ and 20‰ reached the second instar earlier. Variability in survival and duration of development was explained in part by among-brood variability in initial larval biomass: larvae with higher biomass showed higher survival and shorter duration of development. Thus, C. granulata, survival and duration of development under food stress depend on the interaction between environmental conditions experienced before and after hatching (pre- and posthatching factors, respectively).     

The significance of diet in the growth and development of larvae of the blue crab,Callinectes sapidus rathbun,under laboratory conditions

The following protistan diets were tested on blue crab larvae: the algae Isochrisis galbana Parke, Monochrisis lutheri Droop, Dunaliella sp., and an unknown mixture; and the ciliated protozoans Euplotes vannus Muller and Parauronema virginianum(2/1) Thompson. None of these diets resulted in development past the first zoea stage, although some apparently were ingested and delayed mortality as compared to unfed controls.The rotifer Brachionus plicatilis Müller sustained good survival through early zoea development; however, rotifer-fed larvae did not metamorphose to the megalopa. Larvae of the polychaete Hydroides dianthus (Verrill) sustained crab larvae throughout zoea development, resulting in 17% survival to metamorphosis. The percentage mortality per stage was significantly lower in polychaete-fed larvae when compared with rotifer-fed larvae during zoea stages III, VI, and VII. Mean intermolt duration varied between diet treatments during the first three stages, but showed no differences during later zoea development. In tests on groups of late stage sibling larvae, Artemia salina L. nauplii gave development to metamorphosis, whereas rotifers did not.All the diets so far tested on blue crab larvae are classified according to their ability to sustain development. It is demonstrated that the two diets which allow completed development, Hydroides dianthus larvae and Artemia salina nauplii, contain 2–3 times as much lipid per dry weight as do rotifers. A metabolic requirement for lipid late in development may be indicated. Invertebrate larvae derived from yolky telolecithal and centrolecithal eggs may be an important dietary component for brachyuran larvae.     

Effects of pH, temperature, and osmolarity on the morphology and survival rate of primary hemocyte cultures from the Mitten Crab, Eriocheir sinensis

Hemocytes are the main immune defense cells in crustacean, and its in vitro culture can be a useful tool for the study of host and pathogen interaction. In the present study, the primary hemocyte culture of Chinese mitten crab (Eriocheir sinensis), including mixed and single hemocyte, was set up for the first time. In this study, different pH (6.4, 6.8, 7.2, 7.6, and 8.0), temperature (26, 28, and 30°C), and osmolarity (500, 700, 900, 1,100, and 1,300 mOsm kg^?1) values were tested. Moreover, the effects of two types of medium (1× L-15 and 3× L-15) with the same osmolarity on hemocyte culture were evaluated. After incubation at different culture conditions, the morphological changes (degranulation, lysis, shrinkage, and detachment) and survival rate of hemocytes were taken into account in order to evaluate the culture condition effect. Our results showed that the total hemocyte counts of Chinese mitten crab were about 2.5?×?10⁷ cells ml^?1, and three subpopulations of hemocytes were distinguished as granulocytes (43.46?±?4.98%), semigranulocytes (31.04?±1.95%), and hyalinocytes (25.50?±4.89%). The optimal culture condition for primary hemocytes of Chinese mitten crab was 3× L-15 medium, 1,100 mOsm kg^?1, pH 6.8 at 28°C. Hemocytes at optimal culture condition could retain a better morphology and higher survival rate: hemocytes retained a survival rate >60% after 5 d and >40% after 7 d. Furthermore, the hemocyte subpopulations were isolated by Percoll step gradient centrifugation and cultured in optimized hemocyte culture conditions. The results showed that hyalinocytes and semigranulocytes could maintain a survival rate of >50% after 15 d, while granulocytes only retained a survival rate of 26% after 5 d.     

An Experimental Study on the Gait Patterns and Kinematics of Chinese Mitten Crabs

Despite the many studies on eight-legged animals and the importance of their mechanics of terrestrial locomotion, the mechanical energy of crabs in voluntary locomotion on uneven, unpredictable terrain surfaces has received little attention thus far. In this paper, motion video images of Chinese mitten crab (Eriocheir sinensis Milne-Edwards) locomotion on five types of terrains were recorded using a high-speed three-dimensional (3D) recording video system. The typical variables of locomotion such as gait patterns, duty factor, mechanical energy of the mass center, mass-specific rate of the total mechanical power of the mass center, and percentage recovery, were analyzed. Results show that the Chinese mitten crab uses random gaits instead of the alternating tetrapod gait with the increasing terrain roughness. The duty factors of the rows of the leading legs are greater for all terrains than those of the rows of the trailing legs. On smooth terrain, the duty factors of the rows of the trailing legs are greater than that on rough terrains. Kinematic measurements and calculations reveal that similar to mammals, birds, and arthropods, the Chinese mitten crab uses two fundamental gaits to save mechanical energy: the inverted pendulum gait and the bouncing gait. The bouncing gait is the main pattern of mechanical energy conservation. The low probability of injury and energy expenditure due to adaptations to various terrains induce the Chinese mitten crab to modify the mass-specific rate of the total mechanical power of the mass center. The statistical results of percentage recovery also reveal that the Chinese mitten crab has lower energy recovery efficiency over rough terrains compared with smooth terrains.     

黑水虻幼虫的耐饥力及饥饿幼虫复食后的生物学特性

【目的】旨在明确黑水虻Hermetia illucens幼虫的耐饥力及饥饿幼虫复食后的发育、生殖力等生物学特性,为评估饥饿对黑水虻后续发育的影响并指导生产实践提供依据。【方法】将不同日龄或不同体重黑水虻幼虫进行不同时长的饥饿处理,测定和分析其耐饥力与日龄、百头重的关系;对7日龄幼虫进行不同时长的饥饿处理后再复喂,测定不同饥饿时长对其预蛹出现时间、总预蛹率、预蛹重、成虫繁殖等的影响。【结果】黑水虻幼虫饥饿后的半数致死时间(LT₅₀)与日龄成指数关系,与体重呈线性相关。7日龄幼虫的耐饥力较强,LT₅₀超过了50 d,饥饿30 d时存活率仍然达到了95%。百头重小于0.5 g的个体,其LT₅₀小于30 d;百头重在2～2.5 g的个体,其LT₅₀在45～70 d。幼虫超过8日龄时或百头重超过4.5 g时,多数个体在饥饿5 d时就提前进入了后续发育阶段。7日龄幼虫饥饿40 d内复食,其预蛹率未受到影响,但预蛹重显著增加;短期饥饿(0～10 d)对其成虫产卵量无显著影响,长期饥饿(30～40 d)使其成虫产卵量显著下降;饥饿长达30 d以上时,卵孵化率也显著降低。【结论】本研究明确了不同体重或不同日龄的黑水虻幼虫都具有一定的耐饥力;饥饿幼虫复食后预蛹重显著增加。     

稻田网箱养殖辽河水系中华绒螯蟹幼蟹的个体生长

本实验在室外网箱内监测辽河水系中华绒螯蟹(Eriocheir sinensis)幼蟹阶段个体生长发育的每一次蜕壳生长情况。2013年实验选取雄蟹和雌蟹各200只,记录了每个蜕壳阶段雌蟹和雄蟹的生长,包括壳长、壳宽、总重和蜕壳间隔时长(d),并且观察雌蟹和雄蟹形态特征的变化。实验共进行111 d,幼蟹共蜕壳11次。实验结束时,雄蟹剩余34只,雌蟹剩余42只;雄蟹的特定生长率为(7.176 5±0.168 4)%/d,雌蟹的特定生长率为(7.283 3±0.174 3)%/d;雌蟹生长蜕壳过程中腹部的形态变化大,腹部由三角形变成卵圆形;雄蟹在生长蜕壳过程中螯足的增长明显较雌蟹快,并且在本实验最后一次即第11次蜕壳后螯足腹面内侧出现1小撮绒毛,外侧也出现少量绒毛,但不易被发现。     

Feeding dynamics and the connection with the molting of larvae and juveniles of the red king crab Paralithodes camtschaticus (Tilesius, 1815) (Decapoda: lithodidae)

The feeding dynamics of the larvae (zoea III, IV) and juveniles (stages 1–3) of the red king crab Paralithodes camtschaticus was studied. The duration of the zoea III and IV stages of the molting cycle was determined; the premolting stage was found to be the longest stage (about 60%). It was determined that apolysis and formation of new morphological structures in the early premolting stage entailed no significant impact on the ability of larvae to food capture and intake. However, in the late premolting period, a gradual decrease in individual daily diet was observed during preparation for molting in zoea IV and juveniles. It was concluded that the feeding dynamics of the red king crab was related to the molting and included both translational (a smooth change of diet between moltings) and stepwise (the cessation of feeding during molting and its recovery) stages.     

饥饿与重摄食对河蟹肠道菌群结构的影响

研究采用16S rRNA测序研究饥饿以及重摄食的河蟹(Eriocheir sinensis)肠道菌群结构变化, 结果显示, 在饥饿胁迫下, 河蟹肠道细菌群落Alpha多样性指数下降, 重摄食后仍未改变肠道菌群多样性指数下降的趋势, 但与对照组无显著差异(P>0.05); 而在菌门组成方面, 随着饥饿时间的增加, 4个优势菌门占比呈现了相应的变化, 变形菌门、厚壁菌门以及拟杆菌门占比逐渐增加, 软壁菌门占比逐渐下降, 但在重摄食后, 4个优势菌门恢复至对照组水平; 而通过对比不同状态下差异菌群, 在科属水平下筛选出8个具有显著差异(P< 0.05)的菌群, 其中Candidatus Bacilloplasma菌属因具有较高的菌群丰度, 且对饥饿以及重摄食响应较为显著, 其菌群的特定功能值得进一步深究。研究首次报道了饥饿状态以及重摄食后河蟹肠道菌群的变化, 对于后续探究菌群的特定功能提供基础数据。     

草地贪夜蛾幼虫耐饥力及饥饿对其生长发育和繁殖的影响

本文旨在明确草地贪夜蛾Spodoptera frugiperda(J.E.Smith)幼虫耐饥力及饥饿处理对其生长发育、繁殖力的影响.选取初孵幼虫(幼虫孵化1 h内)、2、4、6、8和10日龄的幼虫进行饥饿处理,测定存活率和存活时间分析其耐饥力;进一步选取8日龄幼虫分别饥饿1、2、3和4d后再复食,分别统计和分析饥饿胁...     

饥饿程度对美国白蛾生长发育和繁殖的影响

不同龄期幼虫饥饿对美国白蛾Hyphantria cunea(Drury)生长发育和繁殖影响的研究结果表明:美国白蛾低龄(2龄)幼虫短时间的饥饿对其生长发育和繁殖的影响不明显;美国白蛾中龄(4龄)幼虫饥饿2,4,6d使美国白蛾的历期相应增长,存活率、化蛹率、羽化率、产卵量都相应降低,交配率与对照之间没有差异;老熟(6龄)幼虫短时间饥饿(4d)的存活率、羽化率、交配率、产卵量都稍有下降;长时间饥饿(12d)的老熟幼虫有70%左右因饥饿而提前化蛹,提前化蛹的蛹体外没有薄茧的包裹。提前化蛹的美国白蛾的羽化率、交配率均非常低,产卵量很少。