复口吸虫的研究进展

复口吸虫是淡水鱼类的一种常见的寄生虫,在欧洲、亚洲和北美等地区均有复口吸虫的分布。复口吸虫的生活史是一个复杂过程,分别经过虫卵、毛蚴、胞蚴、尾蚴、后囊蚴和成虫阶段,其中间寄主分别为第一中间寄主螺、第二中间寄主鱼和终末寄主鸟。在自然水体里,特别是在人工养殖水体中,复口吸虫具有明显的致病性,能使第二中间寄主鱼产生一系列的病症,严重的能引起寄主鱼的大量死亡。科学家对其的研究比较深入和广泛,而本文仅对复口吸虫的分类学、生活史、流行病学和致病机理的研究进展进行介绍。     

抗草鱼出血病病毒转基因稀有鮈鲫的初步研究

研究采用草鱼H1基因启动子,以草鱼呼肠孤病毒(Grass carp reovirus,GCRV)外衣壳蛋白VP7基因为靶基因,以增强型绿色荧光蛋白(eGFP)为报告基因,构建了3个小发卡RNA(shRNA)表达载体pH1siGCRV(x)-CMVeGFP。CIK细胞感染实验表明,pH1siGCRV2-CMVeGFP具有较高的病毒抑制作用。通过显微注射将pH1siGCRV2-CMVeGFP导入稀有鮈鲫(Gobiocypris rarus)受精卵,获得转基因稀有鮈鲫P0代群体。转基因稀有鮈鲫攻毒实验显示,转基因稀有鮈鲫死亡率为30%,抗草鱼出血病能力显著提高。进一步的实时荧光定量PCR检测证实,转基因稀有鮈鲫脾脏、后肠和肝脏中GCRV的含量显著低于对照鱼,并随着时间的延续逐渐减少,转基因稀有鮈鲫体内GCRV的复制受到有效抑制。研究为抗草鱼出血病转基因鱼育种奠定重要基础。       

稀有鮈鲫HAN近交系的免疫与生化标记分析

目的 筛选稀有鮈鲫HAN近交系遗传质量检测标记.方法 采用鳞片活体移植和同工酶聚丙烯酰胺凝胶电泳法对稀有鮈鲫HAN近交系的遗传纯度进行检测.结果 在免疫标记分析中,鳞片同体移植存活率为96.7％以上,野生群体移植存活率为7.4％,而HAN系F22鳞片异体移植的成功率为80％,显著高于野生群体.在生化标记分析中,在HAN系F22中无多态性位点,不同个体的同工酶谱呈现高度一致,在野生群体中有2个多态位点即est2和est3,多态位点的比例为15.56％.结论 经过多代近亲交配,稀有鮈鲫HAN近交系生化标记基因已经纯合,鳞片异体移植存活率达到80％,表明HAN系具有较高的遗传均一性.选用鳞片的异体移植及酯酶和肌蛋白分别作为免疫和生化标记对稀有鮈鲫HAN近交系进行遗传质量检测是可行的.     

三氯异氰尿酸和环丙沙星对水生生物的急性毒性

研究了三氯异氰尿酸(TCCA)和盐酸环丙沙星(CPFX)对小球藻、大型溞和稀有鮈鲫的急性毒性。毒性试验结果表明,TCCA和CPFX对小球藻的96hEC50分别为0.31mg·L-1和20.61mg·L-1、对大型溞48hLC50分别为0.19mg·L-1和135.15mg·L-1,TCCA对稀有鮈鲫96hLC50为1.76为mg·L-1,CPFX对稀有鮈鲫不产生急性毒性。对于TCCA,大型溞最敏感,小球藻次之,稀有鮈鲫最不敏感;对于CPFX,小球藻最敏感,大型溞次之,稀有鮈鲫最不敏感。     

东湖茶港排污口底泥对稀有鮈鲫的毒性

以东湖茶港排污口底泥复溶水为试验相,采用96h急性毒性试验和胚胎—卵黄囊吸收阶段毒性试验方法,研究了东湖茶港排污口底泥对稀有的鮈鲫毒性。结果显示,高浓度的复溶水对稀有鮈鲫胚胎、仔鱼和幼鱼具有明显的毒性效应,而胚胎—卵黄囊吸收阶段更为敏感。随着复溶水浓度的增加,稀有鮈鲫受精卵孵化率降低,仔鱼畸形率增高、成活率降低、生长减慢;对胚胎—卵黄囊吸收阶段的NOEC、LOEC和MATC分别为12.5%、25%和17.68%;对幼鱼96h LC50为69.1%。本文的研究还表明,底泥经晾晒后毒性大幅降低,暗示恢复东湖通江状态并让水位自然涨落,可能有助于缓解污染、恢复生态环境。     

EE2对稀有鮈鲫和斑马鱼幼鱼体内卵黄蛋白原诱导的比较

利用卵黄蛋白原(Vtg)作为类雌激素污染的生物标志物,比较研究了不同浓度的17α-乙炔基雌二醇(EE2)对斑 马鱼(Brachydanio rerio)和稀有鮈鲫(Gobiocypris rarus)幼鱼体内Vtg的诱导。研究结果表明:5ng/L,20ng/L和100ng/L EE2分别暴露5d后,稀有鮈鲫幼鱼体内的Vtg即可显著诱导,并且其含量随暴露时间的增加而增加,在暴露15d时 达到最大值;而斑马鱼幼鱼虽然100ng/LEE2暴露5d时可显著诱导体内Vtg的生成,但20ng/L EE2在暴露10d后, 5ng/L EE2在暴露15d后,才可显著诱导斑马鱼体内Vtg的生成。这一结果说明EE2暴露下对稀有鮈鲫体内Vtg的 诱导要比斑马鱼敏感。     

倪氏复口吸虫和湖北复口吸虫生活史的研究Ⅰ．早期幼虫的实验生态

本文比较研究了倪氏复口吸虫(Diplostomum niedashui pan＆Wang)和湖北复口吸虫(Diplostomum hupehensis pan＆Wang)早期生活史的实验生态,包括温度、光照度对它们直接和间接的影响及某些数量的变化。     

雅安地区棘口科吸虫及其中间宿主的研究

作者于1989年3—9月在雅安通过解剖检查13种贝类12628只并将其体内的棘口科吸虫囊蚴人工感染实验动物(家鸭、小白鼠)共检获12种棘口科吸虫,棘口科吸虫尾蚴在第一中间宿主体内的季节性消长亦经观察。并对棘口科吸虫囊蚴与贝类以及贝类与鸟禽类和嚯乳类动物间的相互关系作了讨论。     

稀有鮈鲫(Gobiocypris rarus)的骨骼特征及系统发育地位

稀有鮈鲫(Gobiocypris rarus)已作为新型实验动物而逐渐成为生物学研究各领域的热门对象,但是,其系统分类位置仍存在争议。本研究制作了稀有鮈鲫的透明骨骼标本,对其骨骼特征进行描述;选取47个形态特征,与鲤科各亚科鱼类的典型特征进行比较,建立了分支分析特征矩阵,并使用PAUP4.0软件中的最大简约法(MP)构建系统发育树。结果显示,稀有鮈鲫和鮈亚科鱼类聚在一起,属于鮈亚科。     

Cu~(2 )、Zn~(2 )诱导稀有鮈鲫应激蛋白质的研究

以稀有鮈鲫为材料,研究了应激蛋白质作为生物学指标的敏感性。结果表明,在无可观察效应浓度下,经5d亚慢性胁迫暴露,以Cu2+为胁迫因子,稀有鮈鲫被诱导出约54KDa的应激蛋白质;以Zn2+为胁迫因子,稀有鮈鲫被诱导出约94KDa,67KDa和40KDa的应激蛋白质。应激蛋白质有可能成为一种生物学指标运用于生态风险性早期预警。     

Attachment and penetration of Centrocestus armatus (Digenea: Heterophyidae) cercariae to gills of secondary intermediate fish hosts

The attachment and penetration of Centrocestus armatus cercariae into the fish host Zacco temmincki are described in this study. Light and scanning electron microscopy (SEM) were used to examine the topographical features and behavior of cercariae. Histochemistry and transmission electron microscopy (TEM) were employed to trace glandular products and secretions released by cercariae during penetration. Cercariae are first carried into the fish gill chambers via the respiratory currents. The frequency of respiratory-current reversals of fish increased when infected with cercariae. The behavior of cercariae, during breaks in current flow that preceded each current reversal, was observed using a specially devised apparatus. Cercariae produce a mucus-like secretion upon attachment, shed their tail, and employ a brief period of leech-like creeping behavior before penetration. In all cases, the site of penetration was via the surface of the primary gill lamellae. SEM revealed a well-developed anterior penetration apparatus, and a highly contractile body region, that created a driving force for penetration. TEM and histochemistry showed that the mucus observed on the surface tegument of cercariae during attachment were glandular secretions from the parasite. The significance of fish respiratory current reversals to the success of cercariae penetration nicely illustrates the exploitation by the parasite of a host response to a stimulus.     

High intensity and prevalence of two species of trematode metacercariae in the fathead minnow (Pimephales promelas) with no compromise of minnow anti-predator competence

Opportunity for parasites to manipulate host behavioral phenotype may be influenced by several factors, including the host ecology and the presence of cohabiting parasites in the same host. Metacercariae of Ornithodiplostomum ptychocheilus and "black spot" Crassiphiala bulboglossa have similar life cycles. Each parasite uses a littoral snail as a first intermediate host, fathead minnows as a second intermediate host, and a piscivorous bird as a final host. Metacercariae of black spot encyst in the dermal and epidermal tissues, while metacercariae of O. ptychocheilus encyst on the brain over a region that coordinates optomotor responses. Because of site differences within the host, we predicted that O. ptychocheilus metacercariae might manipulate the behavioral phenotype of minnows to facilitate transmission to the final host, but metacercariae of black spot would not. In our study population, prevalence was 100% for O. ptychocheilus , with an overall median intensity of 105 metacercariae per minnow. Prevalence of black spot was 60%, with a median abundance and intensity of 12 and 20 metacercariae per minnow for the overall sample and for infected fish, respectively. Minnows accumulated both parasites over time, producing significant correlations between intensity and minnow body length and between intensities of the 2 parasites. Minnows infected with black spot had on average twice as many O. ptychocheilus metacercariae as similar-sized minnows without any black spot cercariae. We found no correlation between body condition of minnows and intensity for either parasite. We measured 2 aspects of anti-predator competence to test for effects linked to parasite intensity. We found no correlation between intensity of either species of parasite and latency to behavioral response to attack from a mechanical model heron, nor was there any effect of parasite intensity on a measure of shoaling affinity. The absence of any detectable effect of metacercariae on anti-predator competence in minnows may reflect selection against parasite pathology from predation by non-hosts of the parasites and overwinter mortality due to low dissolved oxygen.     

Infection by Paragonimus miyazakii cercariae of their crab hosts, Geothelphusa dehaani, by percutaneous penetration

Identification of the transmission routes of the trematode parasite Paragonimus miyazakii into different intermediate hosts would help to explain the natural distribution of the parasite. The behavior of P. miyazakii cercariae released from snails into water and in the presence of a living host or a whole crab leg was observed by stereoscopic or light microscopy at various times after exposure started. On encountering a crab leg or cheliped, the cercariae became entangled with the host via mucoid strands arising from the cercariae. Within 3 hr, most cercariae were attached to the host; cuticular penetration took between 5 and 6 hr, after which cercariae were found in the cavity of the leg. Crabs examined 102-149 days after exposure to the cercariae contained fully developed metacercariae. The metacercariae were fed to 2 rats, and the rats were killed 83 or 111 days later. Some of the metacercariae had reached maturity in the rats. That the cercariae were not ingested by the crabs but penetrated the crabs percutaneously (through hard as well as soft tissue) means that transmission can occur even in areas in which crabs and the host snails do not coexist, as they would if the usual route were oral (when the crabs ate infected snails).     

Schistosoma mansoni infections in neonatal Biomphalaria glabrata snails.

In areas endemic for schistosomiasis, the population dynamics of the snail intermediate hosts have a direct effect on parasite transmission. The present study focused on the potential for neonatal Biomphalaria glabrata snails to become infected with Schistosoma mansoni and to produce cercariae under various conditions. It was found that snails as small as 0.74 mm in shell diameter could survive miracidial penetration and could release cercariae when as small as 1.6 mm in diameter. Cercariae produced by small snails were equally infectious for mice when compared with those shed by larger snails. Likewise, histological examination of neonatally exposed snails revealed normally developing parasites at all stages of infection. It was found that in 2 snail populations expressing either high or low susceptibility to the parasite, peak susceptibility occurred at 25 days of age in both groups. Daily cercarial production for neonatally exposed snails was initially low but increased dramatically as the snails grew, eventually reaching values as high as 2,100 cercariae/snail/day. A moderate to high percentage of snails infected as neonates was eventually capable of simultaneously producing both eggs and cercariae. These studies emphasize the potential importance of neonatal and preadult snails in helping to maintain foci of S. mansoni infection in endemic areas.     

Studies on lesions caused by plerocercoids of Triaenophorus nodulosmin some fish of an alpine lake, the Königssee

Lesions caused by plerocercoids of Triaenophorus nodulosus in the second intermediate hosts were studied in fish of an alpine lake, the Königssee. Four species (Arctic charr, Salvelinus alpinus; minnow, Phoxinus phoxinus; burbot, Lota lota: perch, Percafluviatilis) could be shown to be affected, whereas seven other fish species did not have macroscopical or histological signs of invasion. The capsules of T. nodulosus plerocercoids were usually located in liver tissue. Whereas only living parasites were found in charr and minnow, dead and destroyed plerocercoids could be demonstrated additionally in burbot and perch.
The histological picture is characterized by capsules surrounded by connective tissue and by fresh or older migration routes in charr and minnow. Furthermore, larvae migrating through the biliary ductules were found regularly in charr. In burbot and perch, different stages of destruction of the parasitic larvae took place. The ability to reject the parasite by immunological reactions seems to depend on the species of host. Even if heavy changes in the liver tissue could be demonstrated, no negative influences on condition and growth of affected fish could be established.     

Host manipulation by Ligula intestinalis: a cause or consequence of parasite aggregation?

Previous investigations suggest that the infection of the cyprinid roach, Rutilus rutilus, with the larval plerocercoid forms of the cestode, Ligula intestinalis, creates behavioural and morphological changes in the fish host, potentially of adaptive significance to the parasite in promoting transmission to definitive avian hosts. Here we consider whether these behavioural changes are important in shaping the distribution of parasite individuals across the fish population. An examination of field data illustrates that fish infected with a single parasite were more scarce than expected under the negative binomial distribution, and in many months were more scarce than burdens of two, three or more, leading to a bimodal distribution of worm counts (peaks at 0 and >1). This scarcity of single-larval worm infections could be accounted for a priori by a predominance of multiple infection. However, experimental infections of roach gave no evidence for the establishment of multiple worms, even when the host was challenged with multiple intermediate crustacean hosts, each multiply infected. A second hypothesis assumes that host manipulation following an initial single infection leads to an increased probability of subsequent infection (thus creating a contagious distribution). If manipulated fish are more likely to encounter infected first-intermediate hosts (through microhabitat change, increased ingestion, or both), then host manipulation could act as a powerful cause of aggregation. A number of scenarios based on contagious distribution models of aggregation are explored, contrasted with alternative compound Poisson models, and compared with the empirical data on L. intestinalis aggregation in their roach intermediate hosts. Our results indicate that parasite-induced host manipulation in this system can function simultaneously as both a consequence and a cause of parasite aggregation. This mutual interaction between host manipulation and parasite aggregation points to a set of ecological interactions that are easily missed in most experimental studies of either phenomenon.     

Proximate factors affecting the larval life history of Acanthocephalus lucii (Acanthocephala)

The growth and eventual size of larval helminths in their intermediate hosts presumably has a variety of fitness consequences. Therefore, elucidating the proximate factors affecting parasite development within intermediate hosts should provide insight into the evolution of parasite life histories. An experimental infection that resulted in heavy intensities of an acanthocephalan (Acanthocephalus lucii) in its isopod intermediate host (Asellus aquaticus) permitted the examination of parasite developmental responses to variable levels of resource availability and intraspecific competition. Isopods were infected by exposure to egg-containing fish feces, and larval infrapopulations were monitored throughout the course of A. lucii development. The relative rate of parasite growth slowed over time, and indications of resource constraints on developing parasites, e.g., crowding effects, were only observed in late infections. Consequently, the factors likely representative of resource availability to larval parasites (host size and molting rate) primarily affected parasite size in late infections. Moreover, at this stage of infection, competitive interactions, gauged by variation in worm size, seemed to be alleviated by greater resources, i.e., larger hosts that molted more frequently. The relatively rapid, unconstrained growth of young parasites may be worse for host viability than the slower, resource-limited growth of larger parasites.     

Intensity-dependent alteration of minnow (Pimephales promelas) behavior by a brain-encysting trematode

We examined the relationship between the numbers of brain-encysting trematodes (Ornithodiplostomum ptychocheilus) and the magnitude of altered behaviors in fathead minnows (Pimephales promelas). Because cysts develop within a brain region that integrates visual stimuli with motor response. we evaluated the standard optomotor response (OMR). Monitoring this task involved recording the time minnows spent following a spinning drum, on which alternating black and white stripes had been painted. Minnows were exposed to 0, 5, 20, 120, and 300 cercariae and then their OMR was evaluated at 2-wk postinfection. Surprisingly, only minnows that had high numbers of parasites (155 +/- 31 worms/fish) or low numbers of parasites (3 +/- 3 worms/ fish) differed significantly in their optomotor performance compared with controls. Reduced OMR of heavily infected minnows was positively correlated with reduction in minnow activity. In contrast, reduced OMR in lightly infected minnows was independent of host activity and was likely associated with the rapid development of parasite larvae within the optic tecta. The nonlinear relationship between parasite intensity and effect on host behavior was consistent with an earlier study, but the underlying mechanisms producing this pattern are unknown.     

Nestedness in assemblages of gyrodactylids (Monogenea: Gyrodactylidea) parasitising two species of cyprinid--with reference to generalists and specialists

The structure of gyrodactylid assemblages in individual fishes of two species of cyprinid was determined. A total of 100 specimens of minnow, Phoxinus phoxinus, and 137 specimens of roach, Rutilus rutilus, were investigated for presence of gyrodactylids. Host specificity, specialists vs. generalists, was noted in each host fish. A nested pattern was recorded in parasite assemblages of minnow, the host with a dominant number of specialist gyrodactylids. A non-nested pattern was observed in parasite assemblages of roach, the host with a dominant number of generalist gyrodactylids. The host specificity appears to be a meaningful factor that determines the pattern of gyrodactylid assemblages of both fish hosts.     

Intensity-dependent mortality of Paracalliope novizealandiae (Amphipoda: Crustacea) infected by a trematode: experimental infections and field observations

The impact of parasitism on population dynamics and community structure of marine animals is an area of growing interest in marine ecology. The effect of a microphallid trematode, Maritrema novaezelandensis on the survival of its amphipod host, Paracalliope novizealandiae, was investigated by a laboratory study combined with data from field collections. In the laboratory, the effect of infection level on host mortality was investigated. Four groups of individuals were exposed to 0 (control), 5 (low), 25 (moderate) and 125 (high) cercariae, respectively, and their survival was monitored during a 10-day period. The distribution and migration of unencysted cercariae within the host were examined during dissections 6 and 48 h post infection. Parasite-induced mortality under field conditions was investigated by quantifying the relationship between parasite load and host body size. In the laboratory experiment, a highly significant decrease in host survival was observed for amphipods in the moderate and high infection groups relative to that of control amphipods. Parasite-induced mortality was most pronounced in the first two days post infection suggesting that the increased mortality is due to penetration of host cuticula and migration of cercariae within the host. Field data showed a monotonic increase in the mean parasite load with the body size of the amphipods, indicating that M. novaezelandensis does not severely affect P. novizealandiae-populations under normal field conditions. However, a decrease in the variance-to-mean ratio for the largest size-classes indicates that heavily infected individuals are removed from the population as predicted by the experimental infections. The results from the laboratory study in conjunction with our knowledge of the transmission strategy of the parasite emphasize the potential effect of M. novaezelandensis on its amphipod host population during episodes of high temperature causing the rapid and massive release of cercariae from snail intermediate hosts.