Development of a regional climate change model for Aedes vigilax and Aedes camptorhynchus (Diptera: Culicidae) in Perth, Western Australia.

IF 1.6 3区 农林科学 Q2 ENTOMOLOGY
Bulletin of Entomological Research Pub Date : 2024-02-01 Epub Date: 2024-01-18 DOI:10.1017/S0007485323000561
Kerry Staples, Peter J Neville, Steven Richardson, Jacques Oosthuizen
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引用次数: 0

Abstract

Mosquito-borne disease is a significant public health issue and within Australia Ross River virus (RRV) is the most reported. This study combines a mechanistic model of mosquito development for two mosquito vectors; Aedes vigilax and Aedes camptorhynchus, with climate projections from three climate models for two Representative Concentration Pathways (RCPs), to examine the possible effects of climate change and sea-level rise on a temperate tidal saltmarsh habitat in Perth, Western Australia. The projections were run under no accretion and accretion scenarios using a known mosquito habitat as a case study. This improves our understanding of the possible implications of sea-level rise, accretion and climate change for mosquito control programmes for similar habitats across temperate tidal areas found in Southwest Western Australia. The output of the model indicate that the proportion of the year mosquitoes are active increases. Population abundances of the two Aedes species increase markedly. The main drivers of changes in mosquito population abundances are increases in the frequency of inundation of the tidal wetland and size of the area inundated, increased minimum water temperature, and decreased daily temperature fluctuations as water depth increases due to sea level changes, particularly under the model with no accretion. The effects on mosquito populations are more marked for RCP 8.5 when compared to RCP 4.5 but were consistent among the three climate change models. The results indicate that Ae. vigilax is likely to be the most abundant species in 2030 and 2050, but that by 2070 Aedes camptorhynchus may become the more abundant species. This increase would put considerable pressure on existing mosquito control programmes and increase the risk of mosquito-borne disease and nuisance biting to the local community, and planning to mitigate these potential impacts should commence now.

针对西澳大利亚州珀斯市的伊蚊(Diptera: Culicidae)和樟斑伊蚊(Aedes camptorhynchus)开发区域气候变化模型。
蚊子传播的疾病是一个重要的公共卫生问题,在澳大利亚,罗斯河病毒(RRV)是报告最多的一种病毒。这项研究结合了两种蚊子传播媒介(伊蚊和康氏伊蚊)的蚊子发展机理模型,以及三种气候模型对两种代表性气候路径(RCPs)的气候预测,研究了气候变化和海平面上升对西澳大利亚珀斯温带潮汐盐沼生境可能产生的影响。以一个已知的蚊子栖息地为例,在无增殖和增殖情景下进行了预测。这加深了我们对海平面上升、增殖和气候变化可能对西澳大利亚西南部温带潮汐区类似栖息地的蚊虫控制计划产生的影响的理解。该模型的输出结果表明,蚊子活跃的年份比例增加。两种伊蚊的种群数量明显增加。蚊子种群数量变化的主要驱动因素是潮汐湿地淹没频率的增加和淹没面积的扩大、最低水温的升高,以及海平面变化导致水深增加时日温波动的减小,尤其是在无增水的模型下。与 RCP 4.5 相比,RCP 8.5 对蚊子数量的影响更为明显,但三种气候变化模式的影响是一致的。结果表明,在 2030 年和 2050 年,伊蚊可能是数量最多的物种,但到 2070 年,凸眼伊蚊可能成为数量更多的物种。这一增长将给现有的蚊虫控制计划带来巨大压力,并增加当地社区遭受蚊虫传播疾病和滋扰性叮咬的风险,因此现在就应开始规划以减轻这些潜在影响。
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来源期刊
CiteScore
4.00
自引率
0.00%
发文量
160
审稿时长
6-12 weeks
期刊介绍: Established in 1910, the internationally recognised Bulletin of Entomological Research aims to further global knowledge of entomology through the generalisation of research findings rather than providing more entomological exceptions. The Bulletin publishes high quality and original research papers, ''critiques'' and review articles concerning insects or other arthropods of economic importance in agriculture, forestry, stored products, biological control, medicine, animal health and natural resource management. The scope of papers addresses the biology, ecology, behaviour, physiology and systematics of individuals and populations, with a particular emphasis upon the major current and emerging pests of agriculture, horticulture and forestry, and vectors of human and animal diseases. This includes the interactions between species (plants, hosts for parasites, natural enemies and whole communities), novel methodological developments, including molecular biology, in an applied context. The Bulletin does not publish the results of pesticide testing or traditional taxonomic revisions.
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