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食线虫真菌防治家畜胃肠道线虫研究进展 总被引:1,自引:0,他引:1
在自然界,食线虫真菌本身作为动物胃肠线虫的天敌而存在,它们在世界各地各种各样的环境中被发现。目前,利用食线虫真菌对动物寄生线虫的生物防治已取得初步成果,论文介绍了食线虫真菌在家畜胃肠道线虫生物防治方面的研究进展,重点阐述了捕食线虫性真菌对家畜寄生线虫的体内外杀虫试验和田间试验的现状。诸多研究表明,鞭式达丁屯氏菌(Duddingtonia flagrans )由于能通过动物的消化道,因而对控制家畜胃肠道线虫病最具应用潜力。建议今后在规模化生产生防制剂关键技术上取得突破,使其尽快用于畜牧业生产。 相似文献
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嗜线虫真菌Duddingtonia flagrans是目前发现的一种最具有动物胃肠道线虫病生物防治应用潜力的真菌。为了解该菌捕杀绵羊粪便中感染性幼虫效果与剂量的关系,为今后该制剂应用和质量检验标准的制定提供依据,用不同剂量的厚垣孢子,分别以不经消化道直接加入感染羊粪便,或作添加剂通过饲喂进入消化道后采集直肠粪便,经培养检测感染性幼虫数量的变化。结果表明,嗜线虫真菌Duddingtonia flagrans具有良好的捕杀胃肠道线虫感染性幼虫的生物学特性。以制剂厚垣孢子4×103/g剂量加入感染羊粪便,或以每天5×105/kg体质量的剂量饲喂绵羊,可使粪便培养物中线虫感染性幼虫数减少83.6%~87.5%。 相似文献
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用WA或PA琼脂平板制备嗜线虫真菌一级种子,用以小麦为基质加土豆汁的固体培养基或以土豆汁、微量盐为基础的液体培养基制备二级种子。再以上述固体培养基进行扩大培养,26℃培养3-4周,制剂厚垣孢子量可达1×106/g。研究了该制剂不经胃肠道和经胃肠道捕杀幼虫的生物学活性。用1×106/kg体重的剂量饲喂绵羊,对围栏草场中人工感染胃肠道线虫的绵羊进行生物防治临床效果观察,试验组羊克粪便虫卵数较对照组减少87.5%,草场中感染性幼虫减少82.6%,该制剂对绵羊胃肠道线虫病有良好的生物防治效果。 相似文献
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防制家畜寄生性线虫病的新措施 总被引:1,自引:0,他引:1
家畜寄生性线虫病在家畜中普遍存在,分布广、感染率高、危害大。通常对这类寄生虫病的控制,都是采用化学药物驱虫。但长期使用驱虫药,对人畜及环境会产生严重的不良问题。从自然界分离培养捕食线虫性真菌,对家畜饲喂一定剂量的捕食线虫性真菌,可有效的防制家畜寄生性线虫病。 相似文献
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嗜线虫真菌Duddingtonia flagrans防制绵羊胃肠道线虫病 总被引:2,自引:0,他引:2
将 30只 4~ 6月龄羊分为 2组 ,分别在各自的围栏草场中放牧。用毛圆线虫和血矛线虫为主的第 3期幼虫对所有羊只人工感染 2次后 ,一组羊按每千克体重 1× 10 6 个的剂量每天饲喂嗜线虫真菌的厚垣孢子制剂 ;另一组羊作对照 ,仅饲喂等量的上述制剂基质——小麦。第 2次人工感染后 8周 ,2组羊粪便 EPG基本相近 ,但与对照组相比较 ,真菌组粪便培养物中感染性幼虫减少了 6 9.7% ;草场草样中感染性幼虫数也较对照组减少 6 7.8%。再把以上 2组羊驱虫后分别放养于上述围栏草场 ,8周后真菌组羊粪便 EPG较对照组减少 87.3% ;草场感染性幼虫也较对照组减少82 .6 %。上述结果显示 ,嗜线虫真菌 Duddingtonia flagrans在绵羊胃肠道寄生性线虫病生物防制中具有良好的应用前景 相似文献
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嗜线虫真菌捕食绵羊粪便中捻转血矛线虫幼虫的效果观察 总被引:2,自引:0,他引:2
采集感染捻转血柔线虫等胃肠道线虫绵羊粪便培养、分离三期幼虫,加入嗜线虫真菌纯培养物中,72h后84%的幼虫被真菌丝绕和捕获;将该真菌培养物与感染捻转向矛线虫等胃肠道线虫的绵羊粪便便混合后共同培养10d,粪便培养物中的三期幼虫减少82%。 相似文献
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本试验选用耐高温高压的菌种袋作为玉米粒培养基的培养容器,对Duddingtonia flagrans厚壁孢子进行批量培养,然后经孢子洗脱液将孢子洗脱后,将其制备成冻干制剂,并在内蒙古地区的呼和浩特市和林格尔、包头市萨拉齐、呼伦贝尔西旗等地养殖场共165头绵羊中进行了临床应用研究。通过设立不同的试验组和对照组,使用常用驱虫药伊维菌素进行驱虫试验,同时配合口服捕食线虫性真菌Duddingtonia flagrans厚壁孢子,在不同时间进行动物直肠采粪,对粪便进行第三期幼虫培养,然后检测比较不同组别粪便中感染性幼虫的数量,评价捕食线虫性真菌临床应用模式效果。结果显示,将伊维菌素与D.flagrans冻干制剂联合应用于绵羊的寄生性线虫病防治,可使粪便中幼虫数量降低100%,效果优于单独用药组。结果表明,捕食线虫性真菌Duddingtonia flagrans冻干生物制剂与驱虫药物联合使用的临床应用模式,可以取得较好的家畜线虫病临床防控效果,值得进一步在生产实践中进行深入研究和推广。 相似文献
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近年来,国内外为防治家畜蠕虫病研制出了高效、低毒、广谱的驱虫新药和新剂型.用中国农科院上海家畜寄生虫病研究所研制的芬苯哒唑长效控释丸,作为首选驱虫药来研究其对羊线虫的临床驱虫效果,为防治羊线虫病提供可靠的依据.芬苯哒唑是一种苯丙咪唑类广谱驱线虫药物,该药对羊血矛线虫、奥斯特线虫、毛圆线虫、古柏线虫、细颈线虫、仰口线虫、夏伯特线虫、食道口线虫、毛首线虫、网尾线虫的成虫及幼虫均有高效杀灭作用,并具有抑制雌虫排卵作用,但有关其临床上的有效用药剂量说法不一.为探讨该药一次有效使用剂量,以方便临床应用,于2004年9月份进行了不同剂量芬苯哒唑对自然感染线虫病羊的驱虫效果比较试验,现将试验过程与结果报道如下. 相似文献
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Alowanou Géorcelin Goué Azando Erick V. B. Adenilé Adam D. Koudandé Delphin O. Chrysostome Christophe A. M. Hounzangbé-Adoté Sylvie M. 《Tropical animal health and production》2020,52(1):309-319
Tropical Animal Health and Production - Gastrointestinal (GI) nematodes remain a major constraint on livestock production throughout the world. This study assessed the in vivo efficacy of the... 相似文献
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For oral applications, biocontrol of animal parasitic nematodes in ruminants, ion beam implanted nematode-trapping fungi must have the capacity to survive the passage through the digestive tract and be efficient in reducing infective larvae of nematodes in the faeces.Ion beams induced mutation in the spores of nematode-trapping Arthrobotrys oligospora. Mutants with genetic stability were bred. The fungi were cultured in bottles with corn kernels as growth media, and spores of different doses were, respectively, administered orally to each group of sheep naturally infected with gastrointestinal nematodes. The control group did not receive fungi. The faeces of these experimental animals were collected and faecal cultivations carried out. The fungal germination, growth, reproduction and predation of livestock parasitic nematode larvae were tested in laboratory. The efficacy of an A. oligospora N mutant in nematode-trapping larvae after passage through the digestive tract of sheep was tested. The results indicated that the ion beam implantation induced mutation of the nematode-trapping fungi is a positive mutation. The mutant spores through the digestive tract of sheep can kill livestock parasite nematode larvae in vitro. These results indicate the potential of the A. oligospora N mutant as a biological control agent for sheep nematodes.This study showed that such biotechnology could be explored for improving the effectiveness of the use of fungal infections to control livestock parasitic nematodes. This work represents the first application of nematode-trapping fungi in eukaryotic microorganisms. 相似文献
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Extract Recent local reports of nematodes resistant to anthelmintics should concern everyone involved with the livestock industries. The discovery, however, should come as no surprise. In a country that relies so heavily on anthelmintics for parasite control, it was inevitable that resistant nematodes would appear sooner or later. 相似文献
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L.A. Smith G. Marion D.L. Swain P.C.L. White M.R. Hutchings 《Preventive veterinary medicine》2009,91(2-4):95-106
In grazing systems, heterogeneous distributions of forage resources and faeces result in localised accumulations of nutrients and parasites (both macroparasites and microparasites), creating trade-offs between the costs of exposure to infestation or infection and the benefits of nutrient intake. Each contact between livestock and faeces in the environment is a potential parasite/pathogen transmission event. Thus, herbivores must make foraging decisions in complex environments which will affect their intake of both nutrients and parasites. However, the pattern of forage and faecal resources in agricultural environments will also be affected by the grazing management system in place. The aim of this study was to investigate the effect of grazing management on the risk of infection/infestation to livestock. We used a spatially explicit individual based stochastic foraging model to simulate livestock contact (both grazing and investigative) with faeces in the environment. The model was parameterised to simulate cattle grazing under three types of grazing management: set stock (i.e. where sward growth and cattle intake are in equilibrium in a single field); a two pasture rotation grazing system with increasing number of rotations; and a rotational grazing system with two rotations and increasing subdivisions of the pasture. Overall the amount of cattle contact with faecal-contaminated patches was similar in both set stocking and rotational grazing scenarios, suggesting no difference in the risk of infection or infestation between the different systems. However, the timing and absolute amounts of peak contact varied greatly indicating that different grazing management systems expose livestock to risks of different types of parasites at different times of the grazing season. Intensive rotational systems with small pasture blocks (especially the first grazing period) maximised livestock contact with fresh faeces, and thus exposure to microparasites (e.g. bacterial pathogens). Livestock re-entering pasture blocks in rotational systems and set stocked livestock had the highest contact with old faeces and thus have a greater risk of macroparasite transmission (gastrointestinal nematodes). This study highlights how livestock management affects the highly dynamic interaction between livestock and distributions of parasites in the environment and thus the levels of livestock exposure to parasites and pathogens via the faecal–oral route. 相似文献
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Gregor W. Yeates Sten-Olof Dimander Peter J. Waller Johan Höglund 《Acta Agriculturae Scandinavica, Section A - Animal Sciences》2013,63(4):233-242
Management of nematode parasites of grazing livestock is essential, but there is concern about the potential environmental risk from agents used in their control. In this experiment, parasites in young cattle were controlled, using ivermectin boluses or the predacious fungus Duddingtonia flagrans , over 3 years. Treatment differences were sought among the soil nematodes recovered from soil samples collected from the paddocks on which treated animals grazed, and compared with similar samples taken from an untreated control paddock. Analysis of the soil nematode fauna on 21 occasions failed to demonstrate any impact of parasite management on soil nematodes. In 0-22 mm soil total nematode abundance averaged 524 000 m -2 , with 18 nominal taxa and H' diversity 2.41. There were both underlying paddock and year-to-year, climate-related, differences. The results of this trial not only confirm the lack of any adverse environmental impact of D. flagrans , a promising biological control agent, on soil nematodes, but also fail to show any impact arising from the use of ivermectin boluses. 相似文献
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Parasitic nematodes are among the most common and economically important infectious diseases of grazing livestock, especially in small ruminants in the tropics and subtropics in Kenya the control of gastrointestinal nematode infections in sheep and goats is usually made with synthetic anthelmintics but substantial levels of anthelmintic resistance have been recorded. A number of medicinal plants, that may provide possible alternatives, and are used by pastoralists and smallholder farmers in Kenya as deworming agents for their livestock and equines, namely Aframomum sanguineum, Dodonea angustifolia, Hildebrandtia sepalosa, Myrsine africana, Rapanea melanophloeos from Kenya, and Azadirachta indica from Kenya and Malaysia, together with the chemicals embelin and santonin that occur in some of these plants, were evaluated against Heligmosomoides polygyrus in mice. Commercial anthelmintics, namely ivermectin, pyrantel and piperazine, were also investigated, both to validate the mouse model system and to assess efficacy of these drugs against H. polygyrus. Pyrantel and ivermectin were highly effective in reducing the numbers of H. polygyrus worms as well as eggs in faeces of the mice, but piperazine had a lower activity. Application of santonin and M. africana significantly reduced the number of total worm counts (TWC) but not faecal egg counts (FEC). The use of embelin, R. melanophloeos and A. indica reduced FEC but not TWC. In all cases, however, reductions were well below the a priori level of 70% required for biological significance. A. sanguineum, D. angustifolia and H. sepalosa had no effect on either TWC or FEC. In conclusion, none of the plant preparations had any biologically significant anthelmintic effect in this monogastric host-parasite model system. 相似文献
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中草药黄芪在畜禽生产中的应用 总被引:4,自引:0,他引:4
黄芪是一味补益类中草药,因其毒副作用小,兼药物性和营养性作用,被广泛应用于畜牧业生产.笔者就黄芪作为免疫增强剂和营养性添加剂在畜禽生产中的应用作一综述. 相似文献
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Waller PJ 《New Zealand veterinary journal》1992,40(1):1-3
Control of nematode parasites in ruminants is directed almost exclusively at the parasitic stage in the host using conventional anthelmintic therapy. However, to complete their life cycle, parasites have to develop through a series of free-living stages on pasture. It is within this environment that there is a vast range of cohabiting micro-organisms, some of which are known to infect or prey on nematodes. These include bacteria, protozoa, viruses and fungi. To date, most interest has been focused on those organisms producing chemical toxins which have been developed as anthelmintics, e.g. Streptomyces/avermectins. Yet the potential of predacious and nematoxic fungi and bacteria for the biological control of nematode parasites of livestock remains largely untapped. These organisms may well offer a cheaper and more sustainable approach to reducing the impact of parasitism in livestock. 相似文献