IF 5.8 1区 农林科学 Q1 BIOLOGY
Thomas L Schmidt
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引用次数: 0

摘要

远距离传播(LDD)为蚊子入侵新地区和传播适应性等位基因(包括赋予杀虫剂抗性的等位基因)提供了一种手段。大多数远距离传播是在人类运输船上进行的,通常比主动飞行更罕见,方向也更受限制,但却能将原本互不相通的种群和地区连接起来。这些特点使 LDD 成为蚊子研究中值得特别考虑的问题。本文回顾了最近关于LDD的进化研究及其对蚊子种群和蚊子控制的影响。LDD是蚊子分布范围扩大的主要来源,基因组学方法现在可以追溯新入侵蚊子在特定城镇或城市的起源。基因组学方法还可以粗略显示入侵者的数量,如果数量很少,可能会导致优势等位基因在入侵瓶颈期随机丢失。一旦入侵确立,LDD 就会在种群之间传播适应性等位基因。对杀虫剂抗性进化的新认识表明,LDD 在全球物种范围内反复传播抗性突变,但这些广泛的模式因另外两个进化过程而变得错综复杂:同一基因或基因簇的平行适应;不同种群中不同基因的多基因适应。这些过程共同产生了与地理距离脱钩的抗性基因的相似性和差异性模式。城市中的 LDD 研究较少,但对规划和评估当地的防治工作非常重要。对 LDD 的城市调查可能有助于确定受到杀虫剂选择压力较弱的地区,以及作为控制目标的孤立地区。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evolutionary consequences of long-distance dispersal in mosquitoes.

Long-distance dispersal (LDD) provides a means for mosquitoes to invade new regions and spread adaptive alleles, including those conferring insecticide resistance. Most LDD takes place on human transport vessels and will typically be rarer and more directionally constrained than active flight but can connect populations and regions that are otherwise mutually inaccessible. These features make LDD worthy of specific consideration in mosquito research. This paper reviews recent evolutionary research on LDD and its consequences for mosquito populations and mosquito control. LDD is the main source of mosquito range expansions, and genomic methods can now trace the origins of new invasions to specific towns or cities. Genomic methods can also give a rough indication of the number of invaders, which if very small may lead to the stochastic loss of advantageous alleles during invasion bottlenecks. Once invasions are established, LDD spreads adaptive alleles between populations. Emerging insights into insecticide resistance evolution indicate that LDD has repeatedly spread resistance mutations across global species ranges, but these broad patterns are convoluted by two other evolutionary processes: parallel adaptation at the same gene or gene cluster and polygenic adaptation at different genes in different populations. Together, these processes have produced patterns of similarity and dissimilarity at resistance genes that are decoupled from geographical distance. LDD within cities is less well studied but is important for planning and evaluating local control efforts. Urban investigations of LDD may help identify areas experiencing weaker selection pressures from insecticides and isolated areas to target for control.

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来源期刊
Current opinion in insect science
Current opinion in insect science BIOLOGYECOLOGYENTOMOLOGY-ECOLOGY
CiteScore
10.40
自引率
1.90%
发文量
113
期刊介绍: Current Opinion in Insect Science is a new systematic review journal that aims to provide specialists with a unique and educational platform to keep up–to–date with the expanding volume of information published in the field of Insect Science. As this is such a broad discipline, we have determined themed sections each of which is reviewed once a year. The following 11 areas are covered by Current Opinion in Insect Science. -Ecology -Insect genomics -Global Change Biology -Molecular Physiology (Including Immunity) -Pests and Resistance -Parasites, Parasitoids and Biological Control -Behavioural Ecology -Development and Regulation -Social Insects -Neuroscience -Vectors and Medical and Veterinary Entomology There is also a section that changes every year to reflect hot topics in the field. Section Editors, who are major authorities in their area, are appointed by the Editors of the journal. They divide their section into a number of topics, ensuring that the field is comprehensively covered and that all issues of current importance are emphasized. Section Editors commission articles from leading scientists on each topic that they have selected and the commissioned authors write short review articles in which they present recent developments in their subject, emphasizing the aspects that, in their opinion, are most important. In addition, they provide short annotations to the papers that they consider to be most interesting from all those published in their topic over the previous year.
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