调查吹蝇嗅觉在绵羊蝇击中的作用

IF 1.4 4区 农林科学 Q2 Agricultural and Biological Sciences
Guanjie Yan, Anthony C. Schlink, Shimin Liu, Johan C. Greeff, Gavin R. Flematti, Graeme B. Martin
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引用次数: 0

摘要

颊囊蝇蛆病是一种由颊囊蝇(Lucilia cuprina)幼虫引起的令人痛苦、衰弱并可能致命的疾病,尽管经过多年的研究,它仍然是澳大利亚美利奴羊业的一个严重的经济和动物福利问题。常用的预防方法,即杀虫剂、拐杖和 "骡子",都存在问题,因此需要替代方法。从根本上说,培育抗臀击病的绵羊是一个很有吸引力的建议,但这一性状本身很难在大规模生产系统中对大量绵羊进行量化,而且成本高昂。有几个间接性状与飞虱的易感性相关,但大部分易感性的变化仍无法解释。这些间接性状的共同点是气味,因此我们转而研究昆虫嗅觉的生物学特性及其在苍蝇与绵羊相互作用中的作用。L. cuprina利用气味来探测和定位远距离的潜在宿主,引导方向和着陆行为,并选择产卵地点。初步研究表明,我们的工作必须仅限于雌性丘疹鹅,同时也验证了使用实验室饲养的苍蝇进行实验的重要性。我们利用实验室饲养的苍蝇以及气相色谱-质谱联用技术和电触觉检测技术,从绵羊身上鉴定出了丘疹蛙触角可以检测到的气味化合物。为了确定鉴定出的化合物是具有吸引力还是具有排斥力,我们需要进行行为测试。在初步研究中,我们比较了四种行为生物测定方法(Y 型管、着陆时间、访问频率和诱捕器),发现诱捕器最为有效。我们观察到,L. cuprina 会被美利奴羊毛中的几种化合物所吸引,包括辛醛、壬醛和二甲基三硫。我们还发现,美利奴羊羊毛中辛醛和壬醛的含量是可遗传的,这表明这些化合物可能有助于选择抗飞虱的性状。另一种可能性是,这些具有嗅觉活性的化合物可能会指导人们改变绵羊的基因组,甚至是杯状绵羊的基因组。这些努力的成功可为澳大利亚美利奴产业每年节省多达 2 亿澳元,同时还能改善羊毛在世界市场上的形象。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigating the role of blow fly olfaction in flystrike in sheep

Breech flystrike is a painful, debilitating and potentially lethal disease caused by the larvae of the blowfly, Lucilia cuprina, and, despite many years of research, it remains a serious financial and animal-welfare issue for the Merino sheep industry in Australia. The common methods of prevention, namely insecticides, crutching and ‘mulesing’, are problematical, so alternative approaches are needed. Breeding for resistance to breech strike is a fundamentally attractive proposition, but the trait itself is difficult and expensive to quantify in large numbers of sheep in extensive production systems. Several indirect traits are correlated with susceptibility to flystrike, but a large proportion of the variation in susceptibility remains unexplained. The common thread through those indirect traits is odour, so we turned to the biology of insect olfaction and its role in fly–sheep interactions. L. cuprina uses odours to detect and locate potential hosts over long distances, to guide orientation and landing behaviour, and to select egg-laying sites. Preliminary studies demonstrated the importance of confining our work to gravid female L. cuprina, and also validated the use of flies reared in the laboratory for experimentation. Using laboratory-reared flies and a combination of gas chromatography–mass spectrometry with electroantennographic detection, we identified odouriferous compounds from sheep that the antenna of L. cuprina can detect. To determine whether the identified compounds were attractive or repulsive, we needed to use a behaviour test. In preliminary studies, we compared four behaviour bioassays (Y-tube, landing time, visiting frequency, and trap) and found the trap to be the most effective. We observed that L. cuprina was attracted by several compounds in Merino wool, including octanal, nonanal and dimethyl trisulfide. We also found that the wool levels of octanal and nonanal are heritable in Merino sheep, suggesting that these compounds might be useful as traits in selection for flystrike resistance. Another possibility is that these olfactory-active compounds might guide efforts to modify the genome of sheep, or perhaps even L. cuprina. Success in these endeavours could save as much as A$200 m per year for the Australian Merino-based industries, while also improving the image of wool in world markets.

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来源期刊
Animal Production Science
Animal Production Science Agricultural and Biological Sciences-Food Science
CiteScore
3.00
自引率
7.10%
发文量
139
审稿时长
3-8 weeks
期刊介绍: Research papers in Animal Production Science focus on improving livestock and food production, and on the social and economic issues that influence primary producers. The journal (formerly known as Australian Journal of Experimental Agriculture) is predominantly concerned with domesticated animals (beef cattle, dairy cows, sheep, pigs, goats and poultry); however, contributions on horses and wild animals may be published where relevant. Animal Production Science is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.
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