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1.
蜜蜂具有很高的生态价值和经济价值,对农业生产帮助巨大。然而,狄斯瓦螨Varroa destructor寄生给西方蜜蜂Apis mellifera蜂群造成重大损失,对蜜蜂健康构成严重威胁,因此,狄斯瓦螨的防治变得尤为紧要。虽然化学防治是防治狄斯瓦螨常用且有效措施,但仍存在许多缺点,如造成蜂产品污染、导致蜂螨产生抗药性等。另一方面,培育抗螨蜂种被证明是可持续的狄斯瓦螨防治方法。瓦螨敏感卫生行为(Varroa sensitive hygiene, VSH)是蜜蜂重要的抗螨性状之一。本文从狄斯瓦螨的生活周期、对蜜蜂的危害、蜜蜂抗螨行为、瓦螨敏感卫生行为调控和遗传育种等方面进行综述,为狄斯瓦螨防治和抗螨蜂种选育提供参考。  相似文献   

2.
狄斯瓦螨Varroa destructor是对世界养蜂业危害最大的蜜蜂寄生虫,严重危害蜜蜂封盖幼虫、蛹和成蜂,并携带和传播蜜蜂病毒,造成蜂群生产力严重下降乃至全群毁灭。狄斯瓦螨的有效防治措施的研发有赖于对其研究进展的了解,本文综述了以下3方面的研究概况:1)狄斯瓦螨的繁殖特性;2)对蜜蜂的危害;3)主要防治方法。以期为蜂螨相关的研究和应用奠定基础。  相似文献   

3.
狄斯瓦螨是一种严重危害西方蜜蜂的体外寄生螨,是世界养蜂业的最大威胁.人们广泛采用化学方法防治狄斯瓦螨,但易引起狄斯瓦螨的抗药性、蜜蜂中毒和蜂产品药物残留等问题.为此,人们尝试了多种蜂螨绿色防控技术.其中利用蜜蜂信息素防治狄斯瓦螨是一个重要的研究方向.研究表明,狄斯瓦螨能利用蜜蜂信息素识别处于不同发育阶段的寄主,并对特定时期的寄主表现出高度的选择性.近年来,多种能作用于狄斯瓦螨的蜜蜂信息素相继被报道.这些信息素包括成蜂、蛹和幼虫信息素.有的信息素对狄斯瓦螨表现出驱避作用,有的则表现出引诱作用.本文对这些信息素的种类、主要组成成分、对狄斯瓦螨的作用等进行了综述,旨在为今后的研究与应用提供参考.  相似文献   

4.
狄斯瓦螨Varroa destructor是严重危害西方蜜蜂Apis mellifera的主要寄生螨之一,由于杀螨剂长期大量、单一和连续使用,狄斯瓦螨对杀螨剂的抗性发展日趋严重,探明狄斯瓦螨抗性机制对于治理狄斯瓦螨具有重要意义。狄斯瓦螨抗性形成受遗传因素、人为操作因素及其他生态因素的影响,其抗性机制与化学杀螨剂的种类有关,目前研究较多的是靶标不敏感性机制和解毒代谢增强机制,对拟除虫菊酯类杀螨剂抗性机制研究较为透彻,而对有机磷类和甲咪类杀螨剂抗性机制研究有限。本文基于文献,阐述了狄斯瓦螨对拟除虫菊酯类、有机磷类和甲咪类杀螨剂抗性机制的最新研究进展,讨论了抗性治理的最新研究成果及该领域未来的研究方向,以期为狄斯瓦螨有效治理、杀螨剂的安全有效使用及新型杀螨剂开发等研究提供参考。  相似文献   

5.
越冬期是蜂群损失最主要的阶段.通过比较分析45个意大利蜜蜂Apis mellifera ligustica蜂群在繁殖越冬蜂前的狄斯瓦螨Varroa destructor寄生率和病毒感染情况、越冬表现及越冬期存活蜂群的病毒感染情况等,探究与越冬期蜜蜂健康紧密相关的影响因素.结果表明,繁殖越冬蜂前蜂群的狄斯瓦螨寄生率与蜜蜂残翅病毒(DWV)和以色列急性麻痹病毒(IAPV)基因组拷贝数呈中等线性相关关系(pDWV=0.003,pIAPV=0.001),且狄斯瓦螨寄生率低于9%的蜂群与DWV感染程度相关性更高,而寄生率高于9%的蜂群与IAPV的相关性更高.越冬期死亡蜂群在繁殖越冬蜂前的狄斯瓦螨寄生率和IAPV病毒基因组拷贝数均显著高于存活蜂群.狄斯瓦螨和IAPV是本次实验中意蜂蜂群越冬期健康的首要影响因素.结合狄斯瓦螨寄生率和IAPV基因组拷贝数的正相关性,本研究认为在繁殖越冬蜂前将蜂螨寄生率控制在较低水平(9%以下)能有效减少越冬期意蜂蜂群损失.  相似文献   

6.
王星  王强  代平礼  刘锋  周婷 《昆虫知识》2007,44(6):859-862
重新界定的外寄生螨类---狄斯瓦螨Varroa destructor(Anderson and Trueman),严重危害全世界的西方蜜蜂Apis mellifera。但是对其原始寄主东方蜜蜂Apis cerana不构成可见的危害。在西方蜜蜂群中,狄斯瓦螨在雄蜂房和工蜂房都能进行繁殖。在其亚洲的原始寄主东方蜜蜂群中,它们可以寄生于雄蜂和工蜂,但在工蜂房中不育。蜜蜂的血淋巴是狄斯瓦螨生存和繁殖需要摄取的惟一食物来源,推测血淋巴中的某种物质含量会影响狄斯瓦螨的繁殖。对中华蜜蜂Apis ceranaFabricius和意大利蜜蜂ApismelliferaL.工蜂和雄蜂封盖幼虫血淋巴中游离氨基酸和与营养有关的微量元素含量进行了比较,发现其存在明显差异,并推测这些差异与东方蜜蜂抗螨能力强有关。  相似文献   

7.
蜜蜂Apis spp.是重要的经济昆虫,也是研究最为深入和广泛的社会性昆虫。狄斯瓦螨Varroa destructor是蜜蜂的体外寄生虫,是对西方蜜蜂Apis mellifera蜂群健康危害最为严重的生物因子。近十多年来,由于全球蜂群损失现象严重,而同时以蜜蜂为代表的授粉昆虫的健康直接关系到农业生产和生态安全,关于狄斯瓦螨与蜜蜂的寄生关系的研究受到极大关注。作为社会性昆虫的一种体外寄生虫,狄斯瓦螨不仅需要适应蜜蜂个体的生长发育,借助蜜蜂化蛹期间的封盖期完成繁殖,同时还要能够逃避蜜蜂社会性行为的清理。本文从狄斯瓦螨的生物学特性以及其与寄主间的互作关系等方面进行论述,以期进一步理解寄生虫-无脊椎动物寄主(特别是社会性昆虫寄主)的相互作用,为寄生虫病学研究提供借鉴。  相似文献   

8.
蜜蜂白垩病(chalkbrood disease)是由蜜蜂球囊菌(Ascosphaera apis)引起的蜜蜂幼虫死亡的真菌性疾病,该病已蔓延至世界各地并且发生率仍在上升。因此,抗白垩病机制的研究和抗白垩病蜂种的培育显得十分紧迫,而掌握蜜蜂抗白垩病的机制是成功培育抗白垩病蜂种的前提条件。本文综述了国内外白垩病研究和蜜蜂抗白垩病机制研究的最新进展,尤其对从分子水平研究蜜蜂的抗白垩病机制的重大意义进行了阐述,为利用分子遗传标记辅助选育和生物工程技术并结合传统的育种手段培育具有抗白垩病性能的优良蜜蜂品种(系)奠定基础。  相似文献   

9.
田慎鹏 《昆虫知识》2005,42(4):469-469
了解外寄生物一病原体一寄主三者之间的关系,不仅有重要的理论意义也有广阔的应用前景。狄斯瓦螨(Varroa)是蜜蜂的外寄生螨,可以导致蜜蜂后代的大量死亡,同时也可以携带和诱导很多病毒的发生。蜜蜂蛹感染狄斯瓦螨后,残翅病毒(deformed wings virus,DWV)的扩增水平明显增加,  相似文献   

10.
世界各地大范围的西方蜜蜂Apis mellifera蜂群损失现象已引起科学界和公众的持续关注。狄斯瓦螨Varroa destructor和蜜蜂残翅病毒(Deformed wing virus,DWV)是西方蜜蜂群中最主要的两大生物威胁。尽管二者侵害蜜蜂均已有较长历史,但直至近十年来的研究才发现两者间的协同效应对蜂群健康的影响远超过其单独作用时所造成的危害:(1)蜜蜂残翅病毒可在狄斯瓦螨体内大量复制,继而进一步传播;(2)狄斯瓦螨的刺吸行为使病毒粒子跨越寄主的生理屏障而直接进入蜜蜂血淋巴;(3)狄斯瓦螨的寄生促使蜜蜂残翅病毒的高毒力毒株在蜂群中优势扩增和盛行;(4)狄斯瓦螨影响蜜蜂个体发育与免疫系统等生理机能,以致降低了蜂群对病毒的抵抗力;(5)蜜蜂残翅病毒对宿主造成的免疫抑制有利于狄斯瓦螨的寄生与繁殖。狄斯瓦螨、蜜蜂残翅病毒和西方蜜蜂间的关系已经成为昆虫外寄生物、病原体与寄主相互作用研究的一个典型模型。本文对近十年该领域的相关研究进行综述,以期为蜂群损失的原因调查以及昆虫寄生虫、病原微生物与寄主间关系的研究提供参考和借鉴。  相似文献   

11.
Honey bees are exposed to a number of damaging pathogens and parasites. The most destructive among them, affecting mainly the brood, is Varroa destructor. A promising approach to prevent its spread is to breed for Varroa-tolerant honey bees. A trait that has been shown to provide significant resistance against the Varroa mite is hygienic behaviour, a behavioural response of honey bee workers to brood diseases in general. This study reports the development of a 44K SNP assay, specifically designed for the analysis of hygienic behaviour of individual worker bees (Apis mellifera carnica) directed against V. destructor. Initially, 70,000 SNPs chosen from a large set of SNPs published by the Honey Bee Genome Project were validated for their suitability in the analysis of the Varroa resistance trait 'uncapping of Varroa-infested brood'. This was achieved by genotyping of pooled DNA samples of trait bearers and two trait-negative controls using next-generation sequencing. Approximately 36,000 of these validated SNPs and another 8000 SNPs not validated in this study were selected for the construction of a SNP assay. This assay will be employed in following experiments to analyse individualized DNA samples in order to identify quantitative trait loci (QTL) involved in the control of the investigated trait and to evaluate and possibly confirm QTL found in other studies. However, this assay is not just suitable to study Varroa tolerance, it is as well applicable to analyse any other trait in honey bees. In addition, because of its high density, this assay provides access into genomic selection with respect to several traits considered in honey bee breeding. It will become publicly available via AROS Applied Biotechnology AS, Aarhus, Denmark, before the end of the year 2011.  相似文献   

12.
Mites in the genus Varroa are obligate ectoparasites of honey bee populations worldwide. Recent evidence from morphological, geographical, and especially genetic variation has spurred an important revision of Varroa taxonomy. Specifically, mitochondrial DNA (mtDNA) evidence suggests that the main mite pest on western honey bees (Apis mellifera) is not Varroa jacobsoni, as first described, but a distinct species now named Varroa destructor. Genetic markers also have been used to support a taxonomic basis for regional differences in how Varroa mites impact honey bees. Recent morphometric and molecular studies confirmed the presence of the species V. destructor also in the apiaries of the Campania region of southern Italy. In the three-year period 2001-2003 a survey was conducted in 118 municipalities of the five provinces of the Campania region in order to add data to the limited epidemiological information available regarding Varroa destructor in this zone. The level of infestation by the mite was assessed on a total of 521 apiaries (241 apiaries were inspected on 2001, 154 on 2002, and 126 on 2003). In each apiary, 100 comb cells were examined and in each province the level of infestation was calculated using the following formula: (number of Varroa specimens/number of open comb cells) x 100. In order to display the level of infestation, Geographical Information Systems were used in order to draw parasitological maps.  相似文献   

13.
Varroa destructor is a highly virulent ectoparasitic mite of the honey bee Apis mellifera and a major cause of colony losses for global apiculture. Typically, chemical treatment is essential to control the parasite population in the honey bee colony. Nevertheless a few honey bee populations survive mite infestation without any treatment. We used one such Varroa mite tolerant honey bee lineage from the island of Gotland, Sweden, to identify quantitative trait loci (QTL) controlling reduced mite reproduction. We crossed a queen from this tolerant population with drones from susceptible colonies to rear hybrid queens. Two hybrid queens were used to produce a mapping population of haploid drones. We discriminated drone pupae with and without mite reproduction, and screened the genome for potential QTL using a total of 216 heterozygous microsatellite markers in a bulk segregant analysis. Subsequently, we fine mapped three candidate target regions on chromosomes 4, 7, and 9. Although the individual effect of these three QTL was found to be relatively small, the set of all three had significant impact on suppression of V. destructor reproduction by epistasis. Although it is in principle possible to use these loci for marker-assisted selection, the strong epistatic effects between the three loci complicate selective breeding programs with the Gotland Varroa tolerant honey bee stock.  相似文献   

14.
蜜蜂病毒学研究进展   总被引:6,自引:2,他引:4  
张炫  陈彦平  和绍禹 《昆虫知识》2012,49(5):1095-1116
蜜蜂是自然界最重要的授粉昆虫,对维护自然生态系统的生物多样性和保持农业生态系统的增产效应发挥着巨大的作用。作为世界第一养蜂大国,中国养蜂业健康发展的意义不仅在于获取大量高品质的蜂产品,更重要的是发挥蜜蜂授粉的农业增产效应,保证我国的粮食安全。和其他动物一样,蜜蜂健康也受到多种病害的威胁,近年来蜜蜂病毒病在世界范围内的广泛流行与传播,是导致世界蜂群持续下降的一个重要原因。蜜蜂病毒长期广泛的以无明显发病症状的低浓度隐性感染方式存在于蜜蜂蜂群中,但多数蜜蜂病毒在特定环境条件下可被激活,在寄主体细胞内快速复制,表现出强烈的致病性,引发致死性蜜蜂病毒病的流行与爆发。蜜蜂病毒病知识的缺乏,以及复杂的蜜蜂病毒鉴定技术使得蜜蜂病毒病难以及时确诊和防治,因此每年在养蜂生产上造成的巨大损失已严重阻碍了我国养蜂业的健康发展。本文将综述这一领域的研究成果和学科发展趋势,为在我国开展蜜蜂病毒学研究提供参考,并介绍国外的一些蜜蜂病毒病诊断方法与防治经验服务于我国养蜂生产实践。  相似文献   

15.
Abstract. One way in which Apis mellifera honey bees resist Varroa destructor is by detection and elimination of nestmates. This study uses behavioural tests and electroanntennography to assess the role of chemostimuli in recognition by honey bees of this acarian ectoparasite. Behavioural tests using living or dead parasites involved observation of honey bee grooming activity (antennation) under controlled conditions in Petri dishes, and removal behaviour (uncapping and elimination of parasitized and unparasitized control brood cells) under natural conditions. Some bees from colonies with both small and large parasite populations showed aggressive behaviour (biting). No difference was observed according to whether the mite was dead or alive. Under natural conditions, bees uncapped more parasitized cells than control cells. Electroantennographic tests were performed to measure sensitivity to various Varroa extracts at three concentrations (10, 20 and 30 Varroa Equivalents). Only 30 Varroa Equivalent methanol extracts made from Varroa collected from brood cells elicited significantly greater antennal response than controls (pure solvent). All three methanol extracts elicited significantly greater antennal response than controls. No response was observed using Varroa extracts made with acetone or hexane. These findings suggest that polar products may act as chemostimuli for recognition of V. destructor by honey bees. Further study will be necessary to determine which polar products are involved in this recognition and assess grooming and removal behaviour using these products.  相似文献   

16.
Africanized honey bees (Apis mellifera, Hymenoptera: Apidae) in Brazil are tolerant of infestations with the exotic ectoparasitic mite, Varroa destructor (Mesostigmata: Varroidae), while the European honey bees used in apiculture throughout most of the world are severely affected. Africanized honey bees are normally kept in hives with both naturally built small width brood cells and with brood cells made from European-sized foundation, yet we know that comb cell size has an effect on varroa reproductive behavior. Three types (sizes) of brood combs were placed in each of six Africanized honey bee colonies: new (self-built) Africanized comb, new Italian comb (that the bees made from Italian-sized commercial foundation), and new Carniolan comb (built naturally by Carniolan bees). About 100 cells of each type were analyzed in each colony. The Africanized comb cells were significantly smaller in (inner) width (4.84 mm) than the European-sized comb cells (5.16 and 5.27 mm for Italian and Carniolan cells, respectively). The brood cell infestation rates (percentage cells infested) were significantly higher in the Carniolan-sized comb cells (19.3%) than in the Italian and Africanized cells (13.9 and 10.3%, respectively). The Carniolan-sized cells also had a significantly larger number of invading adult female mites per 100 brood cells (24.4) than did the Italian-sized cells (17.7) and the natural-sized Africanized worker brood cells (15.6). European-sized worker brood cells were always more infested than the Africanized worker brood cells in the same colony. There was a highly significant correlation (P<0.01) between cell width and the rate of infestation with varroa in four of the six colonies. The small width comb cells produced by Africanized honey bees may have a role in the ability of these bees to tolerate infestations by Varroa destructor, furthermore it appears that natural-sized comb cells are superior to over-sized comb cells for disease resistance.  相似文献   

17.
In Europe and North America honey bees cannot be kept without chemical treatments against Varroa destructor. Nevertheless, in Brazil an isolated population of Italian honey bees has been kept on an island since 1984 without treatment against this mite. The infestation rates in these colonies have decreased over the years. We looked for possible varroa-tolerance factors in six Italian honey bee colonies prepared with queens from this Brazilian island population, compared to six Carniolan colonies, both tested at the same site in Germany. One such factor was the percentage of damaged mites in the colony debris, which has been reported as an indicator of colony tolerance to varroa. A mean of 35.8% of the varroa mites collected from the bottoms of the Italian bee colonies were found damaged, among which 19.1% were still alive. A significantly greater proportion of damaged mites were found in the Carniolan bees (42.3%) and 22.5% were collected alive. The most frequent kind of damage found was damaged legs alone, affecting 47.4% of the mites collected from debris in Italian bees, which was similar to the amount found in Carniolan colonies (46%). The mean infestation rate by the varroa mite in the worker brood cells in the Italian bee colonies was 3.9% in June and 3.5% in July, and in drone brood cells it was 19.3% in June. In the Carniolan honey bee colonies the mean infestation rates in worker brood cells were 3.0 and 6.7%, respectively in the months of June and July and 19.7% in drone brood cells in June. In conclusion, the 'Varroa-tolerant' Italian honey bees introduced from Brazil produced lower percentages of damaged mites (Varroa destructor) in hive debris and had similar brood infestation rates when compared to 'susceptible' Carniolan bees in Germany. In spite of the apparent adaptation of this population of Italian bees in Brazil, we found no indication of superiority of these bees when we examined the proportions of damaged mites and the varroa-infestation rates, compared to Carniloan bees kept in the same apiary in Germany.  相似文献   

18.
Varroosis, a disease caused by the mite Varroa destructor Anderson and Treuman has killed hundreds of thousands of Apis mellifera L. colonies in various parts of the world. Nevertheless, the damage caused by this mite varies with the type of bee and climate conditions. Varroa causes little damage to Africanized bee colonies in Brazil, as the infestation rates are relatively stable and low. We evaluated the hygienic behavior (uncapping and removal of brood) of highly hygienic Africanized bees using combs with worker brood cells infested (naturally) and no infested with V. destructor. The daily uncapping rate, measured in eight colonies during six days, was 3.5 fold higher in the combs infested with varroa compared to no infested combs. The results show that the Africanized bees are able to recognise and remove brood cells naturally infested with V. destructor what is an important mechanism for tolerance against varroa.  相似文献   

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