饲料中不同淀粉水平对中华绒螯蟹幼蟹生长、饲料利用的影响

实验配制7种等氮(粗蛋白35%)、等脂(粗脂肪6%)的不同淀粉水平(4%、10%、16%、22%、28%、34%、40%)的饲料,投喂中华绒螯蟹(Eriocheir sinensis)幼蟹[初始均重(6.2±0.1)g]8周,通过生长和生理指标评价中华绒螯蟹幼蟹对饲料碳水化合物的利用能力。为避免互相残杀,河蟹采用静水单个养殖,每种饲料40只河蟹。玉米淀粉作为实验饲料碳水化合物主要来源。实验结果表明:饲料中34%—40%淀粉组的摄食率显著低于4%—16%组(P0.05)。随饲料中淀粉含量提高幼蟹的体重和壳长特定生长率也相应提高,34%淀粉组体重特定生长率显著高于4%淀粉组(P0.05),22%淀粉组的壳长特定生长率显著高于4%淀粉组(P0.05);饲料中淀粉含量的增加显著提高了饲料效率,且在40%淀粉组最高。饲料高淀粉可提高蛋白储积率,蟹的肝体比在16%淀粉组最低,而蜕壳率和成活率在该组最高。蟹体干物质、粗蛋白、粗脂肪和灰分在高饲料淀粉组较高。幼蟹胰蛋白酶活力在16%淀粉组最高(P0.05);肝糖原含量随饲料淀粉水平升高呈线性(y=0.2268x+17.256,R2=0.9453,n=7,P0.05)上升。通过二次多项式回归可以得出河蟹获得最大特定生长率时饲料淀粉的含量为25.6%。     

中华绒螯蟹一龄早熟和二龄成熟家系生长规律的比较研究

中华绒螯蟹(Eridcheir sinensis)1龄性早熟是扣蟹养殖过程中的一个重要问题,尚不清楚1龄性早熟和2龄正常性成熟后代的生长发育规律是否存在差异,本研究通过构建1龄性早熟和正常性成熟中华绒螯蟹家系,综合比较了单养条件下两种家系子一代(以下简称早熟F1和正常F1)在扣蟹和成蟹阶段的生长蜕壳规律、雌蟹腹脐覆盖腹甲宽度比例、成熟后的性腺指数(GSI)和肝胰腺指数(HSI)。结果显示:(1)早熟F1雄体在第1、2次和第7、8次蜕壳后的体重显著大于正常F1雄体(P0.05);而早熟F1雌体在第1~5次和第7次蜕壳后的体重显著大于正常F1雌体(P0.05);(2)第1和2次蜕壳后早熟F1的增重率较高,正常F1在第3~8次蜕壳后的增重率略高于早熟F1,两群体在扣蟹阶段的特定生长率均呈下降趋势,且正常F1高于早熟F1,其中雌雄个体在第3~4次蜕壳后的特定生长率均存在显著差异(P0.05);(3)早熟F1在第1~5次蜕壳间隔较长,而第6~8次蜕壳间隔较短;两种家系在扣蟹养殖阶段蜕壳4~6次,成蟹养殖阶段蜕壳2~4次,其中早熟F1在扣蟹阶段的平均蜕壳次数低于正常F1,而在成蟹阶段的平均蜕壳次数高于正常F1;(4)早熟F1腹脐覆盖腹甲宽度比例一直高于正常F1,但二者无显著差异(P0.05);(5)无论雌体还是雄体,早熟F1和正常F1的性腺指数和肝胰腺指数均无显著差异,单养条件下性腺均可发育成熟(P0.05)。综上,单养条件下,中华绒螯蟹早熟F1和正常F1的生长模式存在显著差异,两者都可以完成生殖蜕壳和性腺发育成熟,这为今后深入研究中华绒螯蟹个体生物学提供了理论依据和参考资料。     

不同规格中华绒螯蟹母本子代的生长特性比较

为研究中华绒螯蟹(Eriocheir sinensis)不同规格母本子代的生长发育,本实验在生态池塘中放置网箱养殖中华绒螯蟹,按照母本规格不同设置4个组,组A、B、C和D分别为母本体重(175.7±5.3)g、(150.4±5.8)g、(125.6±5.5)g和(100.2±5.9)g的子代,4组的父本体重无显著差异,每个组4个平行,每个平行雄蟹10只、雌蟹20只。每个网箱放养中华绒螯蟹大眼幼体500只,以水花生(Altemanthena philoxeroides)为隐蔽物,保持生长环境尽量相同且适宜生长。经过158 d的养殖,A、B、C和D组个体的体重从(6.0±0.5)mg分别增长到(7 599.8±954.8)mg、(6 232.7±638.7)mg、(6 112.4±854.6)mg、(5 316.0±745.3)mg,分别增长了1 266.6、1 038.8、1 018.7和886.0倍,且A组特定生长率显著高于D组(P0.05)。蜕壳11次成长为1龄蟹种后综合指标(体重、壳长、壳宽、体高)最好的是A组,A组显著好于B、C、D组(P0.05);次之为B、C组,再者是D组,B与C组差异不显著(P0.05),但均显著好于D组(P0.05)。B组成活率最高,分别比A、D、C组高1.4%、3.6%、4.6%;次之为A组,分别比D、C组高2.2%、3.2%;再者为D组,比C组高1.4%。综合研究表明,在1龄蟹种阶段,大规格母本后代生长性状表现出优于小规格母本后代的趋势。     

池养条件下中华绒螯蟹的若干生物学特征

开展中华绒螯蟹(Eriocheirsinensis)生物学研究,对指导养殖具有重要意义.1993年6月20日购于上海市崇明县的仔蟹放养于湖北省保安湖渔场的一个试验塘(2330m2),每天投喂小杂鱼和螺蚌肉.在试验期间,河蟹成活率为18.6%.协方差分析表明,性别对各月体重与壳长、体重与壳宽及壳宽与壳长回归方程的截距和斜率均无显著影响(p＞0.05);但是,两性数据混合后的不同月份间回归方程的截距却有显著差异(p＜0.01).在每次取样时,雄蟹与雌蟹的壳长、壳宽及体重均不存在显著差异(p＞0.05),这表明雄蟹与雌蟹可能具有相同的生长率.在各次取样时统计的性比(雄∶雌)均无异于理论值1∶1(X2检验,p＞0.10).在九月中旬发现大部分雌蟹开始青春期蜕壳,在11月下旬雌蟹性成熟比例为88%,性成熟雌蟹壳长变幅为26.2-49.8mm,均值为34.1mm.     

中华绒螯蟹蜕壳生长及其与相关基因表达的关联分析

蜕壳是甲壳动物常见的生长发育现象,但对调控蜕壳与生长的内在机制尚缺乏足够了解。本研究在室内条件下,对中华绒螯蟹(Eriocheir sinensis)一个蜕壳周期内的个体蜕壳与生长现象进行了连续观察,分析了2个蜕壳相关基因,即蜕皮激素受体基因(Ec R)和维甲类X受体基因(RXR),以及1个生长相关基因肌肉生长抑制素基因(MSTN)的表达及其与生长性状的相关性。结果发现,中华绒螯蟹在蜕壳后会出现一个跳跃式生长期,之后进入了一个缓慢持续上升过程,当营养物质积累到一定程度(肥满度达60%左右时)时启动下一次蜕壳;MSTN基因的表达与壳长(r=﹣0.450,P0.05)、壳宽(r=﹣0.410,P0.05)增长率呈显著负相关,而与肥满度呈显著正相关(r=0.450,P0.05),Ec R和RXR基因的表达与体重、壳长和壳宽的增长率均没有显著相关性;相对来说,MSTN在蜕壳后的表达量越高,则增重率越小;而Ec R和RXR在蜕壳后表达量越高,其增重率越大。本研究结果表明,中华绒螯蟹在蜕壳后其生长具有一定的规律性,肥满度可以作为衡量中华绒螯蟹体内营养积累启动蜕壳的指标,Ec R、RXR及MSTN基因表达与生长表型具有一定的相关性。     

植酸酶对中华绒螯蟹幼蟹生长、消化性能及物质利用率的影响

为探讨植酸酶对中华绒螯蟹(Eriocheir sinensis)幼蟹生长、消化性能及物质利用率的影响, 设计了6种配合饲料, 以不含植酸和植酸酶的组别为对照组(C), 在含有10 g/kg植酸的饲料中, 分别加入0、500、1000、1500 U/kg的植酸酶, 分别记为P0、P500、P1000、P1500和P2000。投喂初始体重为(4.34±0.05) g的幼蟹, 56d后称重并取样分析。结果发现: P0幼蟹增重率、特定生长率、蛋白质效率低于对照组, 饲料系数则高于对照组(P<0.05); 幼蟹增重率、特定生长率、蛋白质效率随着饲料中植酸酶含量的增加而升高, 在P2000达到最高, 且该组的饲料系数最低(P<0.05); P1500和P2000全蟹体磷含量显著高于P0 (P<0.05); 在P2000中, 幼蟹肝胰腺中胰蛋白酶、淀粉酶以及肠道胰蛋白酶活力达到最高(P<0.05); 中华绒螯蟹蛋白质消化率和磷透析率随着饲料中植酸酶含量的增加而逐渐升高, 其中P2000显著高于P0(P<0.05), 与对照组无显著差异(P>0.05); P2000幼蟹的氮、磷保留率最高(P<0.05)。以上结果表明, 在含有植酸的饲料中添加2000 U/kg的植酸酶, 能够显著提高幼蟹的生长和胰蛋白酶活力, 进而提高幼蟹对蛋白质的利用率, 降低饲料系数。此外, 植酸酶的添加也能有效提高幼蟹体磷含量和氮/磷保留率。     

中华绒螯蟹对苦草生境的依赖与破坏

确定浅水草型湖泊水草资源对放养中华绒螯蟹的承载量是探明水草多元功能的途径之一。本研究通过构建中华绒螯蟹栖息与生长所需的小生境,观察和分析了蟹-草之间的相互关系。试验结果显示苦草对放养中华绒螯蟹的承载量为1.08ind/100g/m~2,中华绒螯蟹的生长比速SGR(％/day)与其对苦草的拥有量Vp(g/m~2/ind)呈正相关,即SGR=0.464 0.003Vp。中华绒螯蟹特别是雄蟹对苦草的影响主要表现为破坏性,破坏率VD(g/ind/m~2/d)与雌、雄蟹的放养密度(S_F,S_m,ind/m~2)有显著的线性关系,即V_D=2.08 0.11S_F 5.83S_M。实验结果为草型湖泊渔-蟹混养生态渔业管理提供了理论依据。     

中华绒螯蟹幼蟹对亮氨酸和异亮氨酸的需要量

以初始体重为(0.900.02) g的中华绒螯蟹幼蟹为试验对象, 采用酪蛋白、明胶、进口鱼粉和晶体氨基酸为蛋白源, 配制成12组试验饲料, 研究中华绒螯蟹幼蟹对亮氨酸(Leu)和异亮氨酸(Ile)的需要量。饲料中Leu水平为0.87%、1.26%、1.64%、2.03%、2.39%和2.81% (分别记为Leu-1Leu-6组), Ile水平为0.69%、1.21%、1.70%、2.19%、2.70%和3.21% (分别记为Ile-1Ile-6组)。试验周期为60d。结果表明: (1)饲料中Leu含量为2.39%时, 幼蟹特定生长率和全蟹粗蛋白含量达到最大值, 而各组之间的成活率和全蟹水分、粗脂肪以及灰分无显著差异(P 0.05)。当饲料Leu含量大于2.39%时, 河蟹肌肉Leu含量、肌肉必需氨基酸总量和肌肉氨基酸总量均显著高于其他各试验组(P 0.05)。(2)饲料中Ile含量为2.19%时, 幼蟹特定生长率和全蟹粗蛋白含量达到最大值, 而各试验组之间的成活率和全蟹水分、粗脂肪以及灰分差异不显著(P 0.05)。河蟹肌肉Ile含量、必需氨基酸总量和氨基酸总量随饲料中Ile含量增加呈先升高后降低的趋势, 最大值均出现在Ile-5组(2.70% Ile), 但Ile-4组(2.19% Ile)与Ile-5组差异不显著(P 0.05)。根据特定生长率与饲料Leu或Ile水平的折线模型, 确定中华绒螯蟹幼蟹饲料亮氨酸和异亮氨酸的适宜需要量分别为饲料干物质的2.36%和2.25%, 即饲料蛋白的5.88%和5.72%。       

河蟹的生物学特性及其养殖技术

一、河蟹的生物学特性 1、外部形态河蟹,学名中华绒螯蟹,又称毛蟹、螃蟹、大闸蟹,是一种全身被一层坚韧甲壳的高等甲壳类动物。在河蟹的头胸部两侧,左右对称着生五对胸足。第一对特别发达,称螯足。其余四对胸足结构相同,均称步足。由于河蟹经常依靠强壮的步足在水底爬行,与其相关的腹部及腹部附肢就随之退化,成一薄片,卷贴于头胸部之下,称为蟹脐。在幼蟹阶段,雌雄个体的腹部均为狭长形。但随着生长,雌蟹腹部渐呈圆形,雄蟹渐呈狭长的三角形。前者称团脐,后者称尖脐,这     

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.     

长江口中华绒螯蟹放流亲蟹的繁殖力评估

在长江口中华绒螯蟹亲蟹生殖洄游期间, 通过研究中华绒螯蟹放流群体和自然群体繁殖力随壳宽的变化规律, 比较放流群体和自然群体繁殖力的差异, 从而评估人工增殖放流亲蟹的繁殖力。结果显示, 随着壳宽的增大, 中华绒螯蟹放流群体和自然群体的繁殖力都显著增加(P<0.05)。在相同壳宽范围内, 放流群体和自然群体的繁殖力之间没有显著差异(P>0.05)。回归分析显示, 放流群体繁殖力(F)与壳宽(CW)呈幂函数关系: F=3.979CW6.208(R2=0.822);自然群体F与CW呈幂函数关系: F=1.696CW6.636(R2=0.673)。协方差分析显示, 放流群体与自然群体F与CW的两条曲线在显著性为0.05时拟合较好。研究结果表明, 放流群体与自然群体的繁殖力与壳宽之间无显著性差异, 推断放流亲蟹能够适应长江口天然水域环境, 并与自然群体的繁殖力水平相当。     

Phylogenetic analysis of intestinal bacteria in the Chinese mitten crab (Eriocheir sinensis)

AIMS: To identify the dominant intestinal bacteria in the Chinese mitten crab, and to investigate the differences in the intestinal bacteria between pond-raised and wild crabs. METHODS AND RESULTS: The diversity of intestinal bacteria in the Chinese mitten crabs was investigated by denaturing gradient gel electrophoresis (DGGE) fingerprinting, 16S rRNA gene clone library analysis and real-time quantitative PCR. The principal component analysis of DGGE profiles indicated that substantial intersubject variations existed in intestinal bacteria in pond-raised crab. The sequencing of 16S rRNA genes revealed that 90-95% of the phylotypes in the clone libraries were affiliated with Proteobacteria and Bacteroidetes. Some genera were identified as unique in wild crabs and in pond-raised crabs, whereas Bacteroidetes was found to be common in all sampled crab groups. Real-time quantitative PCR indicated that the abundance of Bacteroides and the total bacterial load were approximately four-to-10 times higher in pond-raised crabs than in wild crabs. A significant portion of the phylotypes shared low similarity with previously sequenced organisms, indicating that the bacteria in the gut of Chinese mitten crabs are yet to be described. CONCLUSIONS: The intestinal bacteria of pond-raised crabs showed higher intersubject variation, total diversity and abundance than that observed in wild crabs. The high proportion of the clones of Proteobacteria and Bacteroidetes in the clone library is an indication that these bacteria may be the dominant population in the gut of the Chinese mitten crab. SIGNIFICANCE AND IMPACT OF THE STUDY: This study demonstrated obvious differences in the intestinal bacterial composition of pond-raised crabs and wild crabs. This knowledge will increase our understanding of the effects of aquaculture operations on bacterial community composition in the crab gut and provide necessary data for the development of probiotic products for crab cultivation.     

Microsatellite analysis of genetic diversity and population structure of Chinese mitten crab （Eriocheir sinensis）

Chinese mitten crab (Eriocheir sinensis) has higher commercial value as food source than any other species of Eriocheir in China.To evaluate the germplasm resources and characterize the genetic diversity and population structure of the crabs in different water systems,two stocks and two farming populations were assessed with 25 polymorphic microsallite loci available in public GenBank.Basic statistics showed that the average observed heterozygosity (Ho) amongst populations ranged from 0.5789 to 0.6824.However,a remarkable presence of inbreeding and heterozygote deficiencies were observed.To analyze population structure,pairwise FST coefficients explained only ～10.3% variability from the subdivision of mitten crab populations,the remaining variability stems from the subdivision within subpopulations.Although the four populations had slight differentiation,different allelic frequencies resulted in distinct population structures.Two stocks and one farming population were clustered together to the phylogenetic branch of Yangtze crab,with an approximate membership of 95%.Whereas,another fanning population was clustered singly to the phylogenetic branch of the Liaohe crab,with a membership of 97.1%.The tests for individual admixture showed that Yangtze crab had probably been contaminated with individuals from other water systems.Genetic relationships between populations also supported the conclusion that Yangtze crab and Liaohe crab had different gene pools in spite of the origins of the same species.     

Chinese mitten crab <Emphasis Type="Italic">Eriocheir sinensis</Emphasis> in the Baltic Sea—a supply-side invader?

Although the Chinese mitten crab Eriocheir sinensis (H. Milne-Edwards, 1853) (Crustacea, Decapoda, Varunidae) invaded the Baltic Sea about 80 years ago, published information on its present distribution and abundance in this region is lacking. We provide here information on its Baltic-wide distribution and long-term population dynamics. The species has been found all over the coastal Baltic Sea and also in some adjacent rivers and lakes. The Chinese mitten crab appears to have increased in abundance in recent years in the northeastern part of the Baltic Sea (Gulf of Finland, Gulf of Riga, northern Baltic Proper). Higher catch rates were observed in spring (April–June) and autumn (September–November). The size variation of crabs in different samples was low (mean carapace width 6.1–6.3 cm). Despite findings of gravid females, the reproduction of the mitten crab in the central, northern and eastern Baltic region is considered unlikely due to low salinity and the individuals caught are assumed to actively migrate into the region from the species’ main European distribution area (southeastern North Sea), certainly over 1500 km migration distance. Thus, the dynamics of the North Sea population is probably regulating, at least in part, the occurrence of the Chinese mitten crab in the Baltic Sea area.     

Effect of Eyestalk-Ablation on Circulating Ecdysteroids in Hemolymph of Snow Crabs, Chionoecetes opilio: Physiological Evidence for a Terminal Molt

Bering Sea snow crabs (Chionoecetes opilio) are a commerciallyimportant crab harvested in the Bering Sea. Optimal managementof this species requires an understanding of the biology ofthis crab that is currently incomplete. Fisheries managers applya continuous growth model in their management of snow crab,which assumes that male crabs increase in size throughout theirlifespan. Male snow crabs undergo a morphometric molt that leadsto a disproportionate increase in chelae size and it is stilldebated whether this molt is associated with a terminal molt.This study was conducted to determine whether adult male C.opilio are anecdysic. Using current knowledge of the hormonalregulation of crustacean growth, snow crab physiology was manipulatedto induce an increase in molting hormones (ecdysteroids). Sincefemale snow crabs are known to undergo a terminal molt afterattaining reproductive maturity, we compared ecdysteroid levelsin eyestalk-ablated terminally molted females, small-clawedmales and large-clawed males. Snow crabs were collected fromthe Bering Sea and maintained in circulating seawater at approximately6°C. Animals were either eyestalk-ablated or left intact.Ecdysteroid levels in hemolymph were quantified using an enzyme-linkedimmunosorbant assay (ELISA). Circulating ecdysteroids were significantlyhigher in small-clawed male crabs when compared to large-clawedmales or terminally molted females. Eyestalk-ablation increasedcirculating ecdysteroids in small-clawed males, but had no significanteffect on circulating ecdysteroids in large-clawed males orin terminally molted females.     

Invasion biology of the Chinese mitten crab Eriochier sinensis: A brief review

The Chinese mitten crab Eriocheir sinensis is a native of freshwater and estuarine habitats along the east coast of Asia. Invasive populations have existed in northern Europe since the early 20th century, and more recently a breeding population has become established in the San Francisco Bay system along the west coast of North America. Ballast water is the most probable vector for both invasions, although there is also potential for escape from ethnic markets and from the ornamental aquarium industry. Invasive populations of mitten crabs have caused millions of dollars in economic and ecological damage. Economic impacts center largely on the burrowing activity of the crabs, which damages stream banks and levees, and the annual spawning migration, which interferes with fishing activities and irrigation projects. Chinese mitten crabs have recently appeared in the Chesapeake and Delaware Bays on the east coast of the USA, and there are confirmed reports of breeding females in both estuaries. The potential for large populations of mitten crabs in these estuaries has not been determined. This paper presents a review of the biology and ecology of native and invasive populations of the species and provides recommendations for research relevant to the prediction of future mitten crab invasions.     

中华绒螯蟹MSTN基因SNPs多态性及与生长性状的关联分析

为研究中华绒螯蟹(Eriocheir sinensis)肌肉生长抑制素基因(myostatin, MSTN)的多态性及其与生长性状的相关性, 对中华绒螯蟹3个群体(育种群体、大赛群体、野生群体)共321个个体MSTN基因的多态性进行筛选, 发现该基因的第1外显子存在3个多态性SNP位点(S1: C714T; S2:G729A; S3:G753T), 均为处于Hardy-Weinberg平衡(P>0.05)的中、高度多态性位点。利用一般线性模型分析3个位点及其基因型组合与生长性状的相关性, 发现S1位点对中华绒螯蟹的体重和壳长等生长性状有显著影响(P≤0.05), 而其余2个位点与生长性状无显著关联性。结果表明S1位点的TT基因型对中华绒螯蟹的生长最为有利, 可作为分子标记辅助育种的候选标记。     

Epizootiology of the parasitic dinoflagellate Hematodinium sp. in the American blue crab Callinectes sapidus

Hematodinium sp. is a parasitic dinoflagellate that infects and kills blue crabs Callinectes sapidus. Periodic outbreaks of dinoflagellate infections with subsequent high host mortalities prompted a study of the epizootiology and distribution of the crab pathogen. Hemolymph samples from over 13000 crabs were assessed for infections over 8 yr. Moderate to high prevalences were found at several locations along the Atlantic and Gulf coasts of the United States. In the coastal bays of Maryland and Virginia, prevalence followed a seasonal pattern, with a sharp peak in late autumn. Infections were significantly more prevalent in crabs measuring less than 30 mm carapace width; host sex did not influence prevalence. Prevalences were highest in crabs collected from salinities of 26 to 30%o; no infected crabs were found in salinities below 11%o. Intensity of infection did not vary among crab sizes, molt stages, or sexes. Naturally and experimentally infected crabs died over 35 and 55 d in captivity, with a mean time to death of approximately 13 and 42 d, respectively. Several other crustaceans, including gammaridean amphipods, xanthid (mud) crabs, and the green crab Carcinus maenus, were found with Hematodinium-like infections. Considering its widespread distribution and high pathogenicity, we suggest that Hematodinium sp. represents a significant threat to blue crab populations in high salinity estuaries along the Atlantic and Gulf coasts of the USA.     

池养长江蟹、辽河蟹生长性能及其遗传-环境交互作用分析

在江苏省高淳县和安徽省绩溪县两地同时进行中华绒螯蟹长江种群和辽河种群二龄成蟹生长比较试验。①在同一饲养环境里 ,4— 9月 ,两种群间差异不显著 (P >0 0 5 )。②长江蟹比辽河蟹生长期长一个月 ,长江蟹 1 0月底出池 ,故其商品蟹体重大于 9月底出池时辽河蟹体重 (P <0 0 5 )。③长江蟹成活率高于辽河蟹 (P <0 0 1 )。④两种群的雄性个体都大于雌性个体 (P <0 0 1 ) ;但雌、雄差异明显增大的时间是 ,辽河蟹始于 7、8月份 ,长江蟹始于 8、9月份。⑤在绩溪山区池塘低温和饵料贫乏的生态环境中 ,两种群的生长、成活率都比在高淳平原池塘的较好生态环境下低 (P <0 0 1 )。种群与环境、性别与环境的交互作用都极显著 (P <0 0 1 )。在优良环境中 ,长江种群的生长优势和两种群内雄性的生长优势才能得到发挥     

七种捕食性鱼类对中华绒螯蟹幼蟹捕食风险的评估

分别以鲤、鳜、斑点叉尾、黄颡鱼、瓦氏黄颡鱼、大口鲇和乌鳢作为捕食者,以中华绒螯蟹幼蟹作为猎物,在室内水泥池(2.4 m3)进行捕食试验。以日捕获率和日摄食率为指标,评估这些鱼类对幼蟹的捕食作用和危害程度,为提高湖泊幼蟹放流效果、建立蟹—鱼复合的优质高效养殖模式提供科学依据。在幼蟹完全暴露的条件下,经过多次(至少9次)重复的试验(短期1d和长期7d),鳜对不同大小的硬壳和软壳(刚蜕壳的)幼蟹没有任何捕食作用;黄颡鱼对硬壳和软壳幼蟹也没有捕食作用,但还需做进一步观察;虽然鲤、瓦氏黄颡鱼对硬壳蟹的捕获率低,但对软壳的幼蟹有较大的危害性,对幼蟹的日摄食率分别为0.070%、0.012%;大口鲇、斑点叉尾、乌鳢对幼蟹具有较强的捕食能力,对幼蟹的日摄食率分别为0.122%、0.188%和0.284%。根据这些研究结果,可以建议:(1)在池塘和湖泊河蟹养殖中,完全可以将鳜作为套养或混养对象,以期提高养殖效益;(2)在河蟹放养的湖泊,需要抑制乌鳢和大口鲇种群,适当减少鲤和瓦氏黄颡鱼丰度,以期减少这些鱼类的捕食作用,提高幼蟹存活率;(3)在河蟹养殖池塘,不能放养乌鳢、大口鲇、斑点叉尾、瓦氏黄颡鱼和鲤。