对虾白斑综合征杆状病毒体内增殖模型的建立

应用对虾白斑综合征杆状病毒(WSSV),对淡水克氏螯虾、罗氏沼虾、日本沼虾和两种淡水蟹(中华绒螯蟹、长江华溪蟹)进行人工感染实验.结果除淡水克氏螯虾之外,其它受试的虾蟹均不能感染WSSV.克氏螯虾3个不同剂量组感染至12 d,平均死亡率为94%.从发病或死亡个体采集血淋巴,经电镜负染色可观察到完整的病毒粒子,其形态大小、靶细胞组织病理均与从中国对虾中分离的WSSV相似或相同.同时,通过原位杂交技术进一步证明该实验的可靠性.克氏螯虾重复感染效果良好,有可能成为研究WSSV的一种理想的病毒体内增殖模型.     

对虾白斑综合征杆状病毒体内增殖模型的建立

应用对虾白斑综合征杆状病毒（WSSV）,对淡水克氏螯虾、罗氏沼虾、日本沼虾和两种淡水蟹（中华绒螯蟹、长江华溪蟹）进行人工感染实验。结果除淡水克氏螯虾之外,其它受试的虾蟹均不能感染WSSV。克氏螯虾3个不同剂量级感染至12d平均死亡率为94％。从发病或死亡个体采集血淋巴,经电镜负染色可观察到完整的病毒粒子,其形态大小、靶细胞组织病理均与从中国对虾中分离的WSSV相似或相同。同时,通过原位杂交技术进一步证明该实验的可靠性。克氏螯虾重复感染效果良好,有可能成为研究WSSV的一种理想的病毒体内增殖模型。     

不同途径感染白斑综合征病毒 (WSSV) 对日本沼虾的致病性

日本沼虾肉质鲜美、经济价值高,但其对白斑综合征病毒(White spot syndrome virus,WSSV)的易感性尚不明确。采用流行病学调查、感染试验和荧光定量PCR(qPCR)等方法,研究了日本沼虾Macrobrachium nipponense对WSSV的易感性、感染发病率以及WSSV在其体内的增殖情况。结果表明:日本沼虾是WSSV的自然宿主,上海市附近省份地区120个样本的自然携带率为8.33%。日本沼虾可以通过注射、摄食、浸泡途径感染WSSV,10 d内累计感染率均为100%,累计死亡率分别为100%、75%和0%。其中注射途径感染日本沼虾,感染后5 d肌肉病毒含量达到感染后1 d的1 000倍,8 d死亡率达100%。用注射WSSV感染日本沼虾死亡率来测量病毒致死日本沼虾的半数致死剂量(LD_(50)),2.71×10~5病毒粒子/μL能使日本沼虾死亡率达到50%以上。在养殖生产中,日本沼虾可以通过摄食感染WSSV的病虾或死虾而感染WSSV,也能通过浸泡在含WSSV的水体中而感染,并因此成为一种传播媒介,从而影响了WSSV的迅速传播与致病。     

安徽地区克氏原螯虾白斑综合征的诊断及朔源

[目的]诊断安徽地区养殖的克氏原螯虾发生疫情的病原,追踪感染源,为疫病的防控提供依据.[方法]采集病料,参照OIE推荐的套式PCR法检测白斑综合征病毒(WSSV).将病螯虾鳃丝组织研磨后离心,取上清液接种健康克氏原螯虾.透射电镜观察病原特征.综合流行病源学及病原检测,分析养殖地区的可能感染源.[结果]发病螯虾感染了WSSV,动物实验可见和发病螯虾相同的临床症状,证实该病原引起养殖螯虾发病.电镜观察可见典型的白斑综合症病毒颗粒.流行病学调查显示,水产颗粒膨化饲料和冷冻饲料甲壳类检测阳性.[结论]该地区养殖的克氏原螯虾近年爆发的疫病病原为WSSV,推断地区性克氏原螯虾WSSV的感染并流行与污染的饲料有关.     

罗氏沼虾与克氏原螯虾血细胞的比较研究

对罗氏沼虾与克氏原螫虾血细胞的分类与组成进行了染色观察比较研究。根据染色后光镜下血细胞的核质比、颗粒的大小和数量等来对血细胞进行分类,罗氏沼虾与克氏原螯虾的血细胞均可分为透明细胞、半颗粒细胞和颗粒细胞三类;其血细胞浓度分别为1.02±0.21×10⁷ Ind·ml^-1和0.85±0.15×10⁷Ind·ml^-1。2种虾血细胞的颗粒形态存在显著差异;透明细胞、半颗粒细胞和颗粒细胞占血细胞总量的百分比在罗氏沼虾为21.3±6.3%,45.7±2.5%,33.0±6.8%:在克氏原螯虾为12.0±5.8%、49.5±5.1%和38.5±9.5%。     

克氏原螯虾源维氏气单胞菌的分离鉴定及组织病理学观察

为确定克氏原螯虾(Procambarus clarkii)暴发性死亡的病原体, 研究从一例患病克氏原螯虾的肝胰腺分离到了一株优势菌株QD160502, 根据菌株形态、生理生化特性, 16S rDNA及gyrB序列分析, 将其鉴定为维氏气单胞菌(Aeromonas veronii)。回归感染实验证明, 该分离株可使克氏原螯虾出现与自然发病相同症状。组织病理学观察可见克氏原螯虾肝胰腺、肠道与心脏组织病理损伤, 且随感染持续时间而逐渐加重, 在感染12h后肝小管分泌细胞中出现内含棕色颗粒的转运小泡; 感染24h后肝小管间炎性细胞浸润, 肠道结缔组织萎缩, 心脏组织出现空泡样扩张; 感染48h后肝小管储存细胞与分泌细胞大量解体并空泡化, 肠道上皮皱嵴减少, 心肌空泡样扩张增加; 感染72h后肝小管和肠道上皮细胞坏死, 且在心脏组织中发现透明血细胞聚集。药物敏感性检测发现QD160502菌株对恩诺沙星、诺氟沙星、四环素、强力霉素等敏感, 但对青霉素、链霉素、卡那霉素等抗生素耐药。研究为克氏原螯虾的健康养殖和细菌性疾病的防控提供指导依据。     

稻虾田黄鳝的食物组成及其对克氏原螯虾捕食强度研究

文章研究了稻田黄鳝(Monopterus albus)天然饵料生物资源、稻田黄鳝对克氏原螯虾(Procambarus clarkii)捕食选择及不同投喂策略下黄鳝对克氏原螯虾的捕食强度,旨在为构建与优化稻-虾-鳝综合种养模式提供依据。结果表明,稻田中黄鳝天然饵料生物种类丰富,达16种(属);克氏原螯虾是黄鳝最喜猎物,其次为米虾,再次为蚯蚓和水生寡毛类;稻田黄鳝自然生长期间,其胃和肠前端食物团中,克氏原螯虾重量百分比均显著高于其他猎物,其中8月份占比最大,达93.90%, 4月份占比最小,为76.85%;当克氏原螯虾为唯一食物时,每尾大规格成鳝(≥200 g)日均捕食量为(1.63±0.065) g;当克氏原螯虾、米虾和蚯蚓作为食物时,黄鳝主要捕食克氏原螯虾且不捕食蚯蚓,对三者的选择指数分别为0.066、–0.266和–1;若以克氏原螯虾、鱼糜-饲料为食物时,黄鳝主要摄食鱼糜-饲料,极少捕食克氏原螯虾,对两者的选择指数分别为–0.846和0.591。     

桂林地区克氏原螯虾对泽蛙蝌蚪的捕食

克氏原螯虾（Procambarus clarkii）已入侵我国江苏、湖北、江西、安徽等多个省（市）。为研究克氏原螯虾对其生境中主要两栖动物泽蛙（Rana limnocharis）的影响,我们于2006年5-6月对广西桂林地区自然生境中克氏原螯虾和泽蛙蝌蚪的数量和密度进行了调查,7月在室内进行了克氏原螯虾对泽蛙蝌蚪和饰纹姬蛙（Microhyla ornata）蝌蚪的捕食实验。野外调查结果表明克氏原螯虾的密度与泽蛙蝌蚪的密度呈显著负相关。室内实验结果表明克氏原螯虾对泽蛙蝌蚪的捕食强度与克氏原螯虾体长呈显著正相关,且对泽蛙蝌蚪的捕食强度高于饰纹姬蛙蝌蚪。表明克氏原螯虾对两栖类幼体有比较严重的危害,应加强监测,采取相应措施预防和控制其危害。     

克氏原螯虾的入侵生态学研究进展

克氏原螯虾(Procambarus clarkii)原产于美国南部和墨西哥北部,是一个著名入侵物种,作为一种水产经济资源物种在世界各地扩散。克氏原螯虾抗逆性强,所具有的广泛生境适应性、生长迅速、高生殖率等特点使它们迅速建立野生种群。近10余年的研究认为,克氏原螯虾通过捕食和资源竞争等机制严重威胁引入地的水生植物、无脊椎动物、两栖类等的生存,显著降低引入地的生物多样性。当前,由于克氏原螯虾的经济价值高,它会借助于人力的作用而继续扩散。为认清和减少克氏原螯虾对引入地的生态影响,应加强以下方面的研究:1)在中国开展克氏原螯虾的生态危害的调查和研究;2)克氏原螯虾种群调节和控制对策研究;3)被入侵地的生态恢复工作。     

克氏原螯虾Rab5、Rab6蛋白及其抗体对血淋巴细胞吞噬活性的影响

为研究克氏原螯虾(Procambarus clarkii)Rab5(PcRab5)和Rab6(PcRab6)的生物学功能, 利用同源重组技术构建了克氏原螯虾pET-B2m-PcRab5和pET-B2m-PcRab6原核表达载体, 并进行了诱导表达和多克隆抗体的制备, 采用ELISA和Western Blot技术检测了抗体效价和特异性。将PcRab5和PcRab6的原核表达蛋白和多克隆抗体注射到健康克氏原螯虾体内, 研究了其对血淋巴细胞吞噬活性的影响。实验结果表明构建的pET-B2m-PcRab5和pET-B2m-PcRab6原核表达载体经诱导后可表达目的蛋白, 分子量均为67 kD, 纯化后蛋白条带单一, 纯度较高。重组表达纯化后的PcRab5和PcRab6蛋白免疫日本大耳兔分别获得效价为1:2048 K和1:512 K的兔抗血清, 制备的抗体可分别特异性识别PcRab5和PcRab6蛋白。将PcRab5和PcRab6蛋白注射健康克氏原螯虾后, 其血淋巴细胞中可吞噬荧光微球的细胞比例分别显著上升至38%和30%(P＜0.01)。而将纯化的PcRab5和PcRab6多克隆抗体分别注射至螯虾体内后, 其血淋巴细胞的吞噬细胞比例均出现显著下降(P＜0.05), PcRab5和PcRab6蛋白参与了血淋巴细胞吞噬功能。实验为进一步研究克氏原螯虾PcRab5和PcRab6分子功能奠定基础, 也可为理解甲壳动物Rab5和Rab6在血淋巴细胞吞噬功能中的作用提供帮助。     

A rapid assay for simultaneous detection of Spiroplasma eriocheiris and white spot syndrome virus in Procambarus clarkii by multiplex PCR

Aims: To establish a multiplex PCR method for simultaneous and rapid detection of Spiroplasma eriocheiris and white spot syndrome virus (WSSV) in Procambarus clarkii with recommendations for application to other crustacea. Methods and Results: Three primer sets were mixed at a ratio of 1 : 3 : 1 to amplify specific fragments of the S. eriocheiris, WSSV, P. clarkii crayfish (control organism) genomes, respectively. S. eriocheiris and WSSV were used to challenge the susceptible crustacea in the experimental groups. Total DNA of the samples was purified and detected by multiplex PCR. The PCR‐amplified products produced four groups of results as follows. One fragment of 1195 bp, amplified by the primer set ITS‐crayfish/28S‐crayfish, served as an internal control, showed no pathogen detection, thus confirming the specificity of our positive tests. Two groups represented by: (i) samples challenged by S. eriocheiris alone, or (ii) challenged by WSSV alone, yielded two fragments each; i.e. those from S. eriocheiris (271 bp) plus the internal control and those from WSSV (530 bp) plus the internal control. Finally, for the fourth group, in cases of double challenged treatments, all three amplified products were detected simultaneously. Conclusions: Simultaneous and rapid detection of two pathogens in P. clarkii is important to maintain productive and healthy crayfish in aquaculture. The direct detection of S. eriocheiris and WSSV from P. clarkii is practicable with multiplex PCR. Significance and Impact of the Study: This study shows that the two pathogens are simultaneously and rapidly detected in P. clarkii by multiplex PCR, thus increasing the efficiency of pathogen detection.     

Susceptibility of the Australian freshwater crayfish Cherax destructor albidus to white spot syndrome virus (WSSV)

Cherax destructor occurs naturally and/or is farmed in all Australian mainland states and territories and is of major cultural, economical and conservation significance. The aim of this study was to determine susceptibility of the commercially important subspecies C. destructor albidus to white spot syndrome virus (WSSV), a hazard to crustaceans and currently considered to be exotic to Australia. In challenge tests by intramuscular injection, C. destructor albidus displayed a similar level of susceptibility to white spot disease (WSD) as Penaeus monodon (i.e. 100% mortality in 3 d). In one oral challenge test where C. destructor albidus was subjected to significant temperature stress, over 50% died of severe WSD within 14 d post challenge. All dead and moribund crayfish displayed histopathological lesions typical for WSD and gave positive results for WSSV in DNA dot blot hybridization tests. Survivors to 30 d (n = 3) showed no lesions and gave negative dot blot test results. In a second oral challenge test without temperature stress, mortality was delayed but reached 75% by 30 d. However, no typical WSD lesions were observed in the dead, dying or surviving crayfish and dot blot test results were negative. The results suggested that C. destructor albidus would be less susceptible than P. monodon to WSSV exposure via natural routes of infection in farms and in the wild. This information may be useful for disease import risk analysis for WSSV.     

家蚕蛹表达的重组Vp28疫苗对克氏原螯虾的抗病毒保护效应

The vaccine made of recombinant envelope protein (rVp28) of white spot syndrome virus (WSSV) expressed in silkworm (Bombyx mori) pupae using a baculovirus vector was used to investigate the efficacy of oral administration on WSSV disease resistance of Procambarus clarkii. Vaccine was mixed with diet at a ratio of 2% (w/w), and Procambarus clarkii were orally administered throughout 75 days. Vaccination with rVP28 showed the significantly higher cumulative survival compared with positive and negative control (P < 0.05) following an oral challenge on the 35th day post-vaccination (dpv), with PRP values 54.16% and 59.26%, respectively. rVP28 induced higher resistance via IM (intramuscular) injection challenge with WSSV stock, with PRP value of 46.12% and 49.99%, respectively. The survivors were subsequently re-challenged on the 55th dpv. rVP28 induced the significantly higher resistance to oral re-challenge (P < 0.05), with both PRP values 55.80% and 63.16%, respectively. rVP28 induced higher resistance to IM injection re-challenge, with both PRP values 31.25%. A DIG labeled WSSV DNA probe was used to detect WSSV by in situ hybridization. The positive cells were observed in epithelial cells of stomach, hepatopancreas and gut of the infected control crayfish, while negative reaction were observed in the tissues of survivors-vaccinated. These results indicated that vaccination of crayfish with recombinant protein had significant effect on oral infection, and had higher resistance against intramuscular injection challenge. This suggested the protection against WSSV could be induced in crayfish by recombinant protein rVp28 expressed in silkworm pupae.     

Shifts in aquatic macroinvertebrate biodiversity associated with the presence and size of an alien crayfish

To investigate the effects of Procambarus clarkii on macroinvertebrate diversity, we conducted a mesocosm experiment simulating small pools in rice field pads after the rice season. We hypothesized that crayfish predation would negatively impact macroinvertebrate diversity, and the magnitude of this impact should vary with the size of P. clarkii. We conducted a short-term mesocosm experiment to determine macroinvertebrate diversity in the presence of three size classes and in the absence of crayfish, as well as the diet composition of crayfish from the three size classes. At the end of the experiments, the diet of crayfish was composed of the most available taxa (Culicidae, Chironomus, Tanytarsini and Orthocladinae). These results also show evidence that, in confined areas, crayfish are important predators of major rice pests such as rice Chironominae larvae. Macroinvertebrate diversity was negatively affected by crayfish presence, but the effect was inversely proportional to crayfish size. The highest diversity index was obtained in the absence of P. clarkii, and juvenile crayfish significantly reduced macroinvertebrate diversity. Thus, the impact of P. clarkii on aquatic macroinvertebrates is size dependent and may be relevant in small pools formed in rice field pads from early autumn to late winter. Overall, our findings suggest that the negative effects of P. clarkii on macroinvertebrate diversity may be particularly strong in local natural assemblages confined to puddles of water or small ponds in wetland areas.     

Protection of Procambarus clarkii against white spot syndrome virus using inactivated WSSV

White spot syndrome virus (WSSV) is a highly pathogenic and prevalent virus infecting shrimp and other crustaceans. The potentiality of binary ethylenimine (BEI)-inactivated WSSV against WSSV in crayfish, Procambarus clarkii, was investigated in this study. Efficacy of BEI-inactivated WSSV was tested by vaccination trials followed by challenge of crayfish with WSSV. The crayfish injected with BEI-inactivated WSSV showed a better survival (P < 0.05) to WSSV on the 7th and 21st day post-vaccination (dpv) compared to the control. Calculated relative percent survival (RPS) values were 77% and 60% on the 7th and 21st dpv for 2 mM BEI-inactivated WSSV, and 63%, 30% on 7th and 21st dpv for 3 mM BEI-inactivated WSSV. However, heat-inactivated WSSV did not provide protection from WSSV even on 7th dpv. In the inactivation process WSSV especially their envelope proteins maybe changed as happened to 3 mM BEI and heat-inactivated WSSV particles. These results indicate the protective efficacy of BEI-inactivated WSSV lies on the integrity of envelope proteins of WSSV and the possibility of BEI-inactivated WSSV to protect P. clarkii from WSSV.     

Invasive crayfish in Europe: the impact of Procambarus clarkii on the littoral community of a Mediterranean lake

1. Despite the growing number of non‐indigenous crayfish species introduced worldwide, little scientific attention has been given to their effects on the recipient communities. Here, we quantified the impact of adult red swamp crayfish (Procambarus clarkii) on key components of the littoral community of a mesotrophic lake in central Italy. We used two densities of crayfish plus a no‐crayfish control, and two complementary methods –in situ enclosures and a laboratory study. 2. Both experiments showed that P. clarkii strongly affects the community even at a low density (4 m⁻²), although a high crayfish density (8 m⁻²) showed a more pronounced impact in a shorter time. 3. In enclosures, P. clarkii quickly consumed the pond snail Haitia acuta, notwithstanding its anti‐predator behaviour, but not the mosquitofish Gambusia affinis. The biomass of the hydrophytes Nymphoides peltata and Potamogeton spp. was strongly reduced by crayfish grazing, coupled with their non‐consumptive plant clipping and uprooting, which were particularly intense in the case of Potamogeton crispus. In contrast, Utricularia australis was avoided by P. clarkii, even when other resources were exhausted. 4. The introduction of P. clarkii could reduce biodiversity and increase biotic homogenisation in a short time.     

Effect of water temperature on the immune response and infectivity pattern of white spot syndrome virus (WSSV) in freshwater crayfish

The susceptibility of two species of freshwater crayfish, Pacifastacus leniusculus and Astacus astacus, to white spot syndrome virus (WSSV) by intramuscular injection was compared and the results show that both species are susceptible to WSSV. The effect of water temperature on the development of white spot disease in crayfish was also studied. Crayfish were exposed to different temperatures after WSSV injection or oral exposure and the mortalities were recorded over a period of 45 days. No mortality was observed when crayfish were held at 4+/-2 degrees C or 12+/-2 degrees C and reached 100% when these crayfish transferred to 22+/-2 degrees C. The mortalities of nearly moribund crayfish at 22+/-2 degrees C with WSSV could be delayed after transfer to temperature below 16 degrees C. These results clearly show that low temperature affects the WSSV pathogenicity in crayfish. Moreover, haemocyte counts, phenoloxidase activity, mRNA levels of prophenoloxidase (proPO) and the lipopolysaccharide and beta-1,3-glucan binding protein (LGBP) in crayfish exposed to various water temperatures were studied. Total haemocyte and granular cell counts of crayfish held at different temperatures were not significantly (P>0.05) different, except for the total haemocyte number at 18 degrees C was significantly (P<0.05) higher than in crayfish at 4 degrees C. The percentage of granular cells in crayfish held at 4 degrees C was the highest compared to crayfish maintained at other temperatures. The phenoloxidase activities in haemocyte lysate supernatant (HLS) of crayfish at all temperature groups remained similar. The amount of proPO-mRNAs in haemocytes was much higher than the amount of LGBP-m RNAs in all the experimental groups. However, there was no change in the level of pro PO-mRNA at the tested temperatures. Interestingly, the level of LGBP-mRNA of crayfish kept at 22 degrees C was much lower than in those held at lower temperatures. Proliferation of the haematopoietic tissues was higher at high temperatures which may support replication of WSSV, and explain the high mortality of crayfish with WSSV infection at high temperature. Based on these studies it is concluded that crayfish might act as a carrier of WSSV at low water temperature and could develop white spot disease if the water temperature is increased.     

The Decline of the Endangered Populations of the Native Freshwater Crayfish (Austropotamobius pallipes) in Southern Spain: It is Possible to Avoid Extinction?

The southeastern mountains of Spain represent the southernmost limit of the genus Austropotamobius and the species A. pallipes (Lereboullet). The taxonomic position of this isolated crayfish in southern Spain is not clear, being genetically close to A. italicus, but morphologically distinct. A severe decline occurred during the 1980s, especially due to expansion of the alien species Procambarus clarkii, a North American freshwater crayfish and a vector of the aphanomycosis disease. In order to design a strategy for native crayfish conservation, recent trends in native crayfish populations, influence of isolation and habitat variables on their survival and possibilities for their recovery through restocking were studied. A decline in populations was observed between 1991 and 2002 (from 26 to 14 populations), and a total extinction could be predicted within the next 13 years. Two well-defined periods of rapid extinction rates were detected, 1991–1994 (1.25 populations/year) and 1999–2002 (1.50 populations/year). Main causes of extinction for these two periods were invasion by P. clarkii and mortality by unknown causes, respectively. The isolation variables had some positive effects on survival of populations but these cannot offer a sufficient guarantee, since several cases of extinction can be affected by a large component of stochastic factors, including random catastrophes. On the other hand, survival trials and restocking experiments showed that it was possible to recover lost habitats, when P. clarkii was absent and environmental conditions were good. It is concluded that it is possible to avoid extinction of the native crayfish populations; however, the conservation strategies must be based on an urgent stocking/restocking program.     

Surface-displayed VP28 on Bacillus subtilis spores induce protection against white spot syndrome virus in crayfish by oral administration

Aim: Surface‐displayed heterologous antigens on Bacillus subtilis spores can induce the vertebrate animals tested to generate local and systematic immune response through oral immunization. Here, the protection potential of the recombinant spores displaying the VP28 protein of white spot syndrome virus (WSSV) was investigated in the invertebrate crayfish (Cambarus clarkii). Methods and Results: The VP28 protein was successfully displayed on the surfaces of B. subtilis spores using CotB or CotC as a fusion partner. Crayfish were administrated orally by feeding the feed pellets coated with B. subtilis spores for 7 days and immediately followed by WSSV challenge. Oral administration of either spores expressing CotB‐VP28 or CotC‐VP28 resulted in significantly higher relative survival rates of 37·9 and 44·8% compared with the crayfish orally administrated with the spores nonexpressing VP28 (10·3% relative survival rate). When challenges were separately conducted at 7 and 21 days after oral administration, the relative survival rates increased to 46·4 and 50% at 7 days post‐oral administration, but decreased to 30 and 33·3% at 21 days after oral administration. Conclusion: These evidences indicate that the surface‐displayed VP28 on B. subtilis spore could induce protection of crayfish against WSSV via oral administration. Significance and Impact of the Study: This is the first report to use the spore surface display system to deliver orally a heterologous antigen in an aquatic invertebrate animal, crayfish. The results presented here suggest that the spore‐displayed VP28 might be suitable for an oral booster vaccine on prevention of WSSV infection in shrimp farming.