{"title":"Climatic variations and Fasciola: a review of impacts across the parasite life cycle.","authors":"Galia Modabbernia, Behnam Meshgi, Amy C Kinsley","doi":"10.1007/s00436-024-08319-6","DOIUrl":null,"url":null,"abstract":"<p><p>Fasciolosis, caused by the liver fluke Fasciola spp., is a significant parasitic disease of livestock and humans worldwide. Fasciola transmission and life cycle are highly dependent on climatic conditions, especially temperature and humidity. This dependency has gained significance in the context of ongoing climate change. This literature review examined evidence on the effects of temperature variability on the developmental stages of Fasciola spp. and the snail intermediate hosts. We reviewed free larval stages of Fasciola spp. development, as well as snail intermediate hosts, while investigating the climate-related factors influencing each stage. We found that Fasciola spp. egg hatching and development were inhibited below 10 °C and optimal between 20 and 30 °C, miracidia hatching time decreased with higher temperatures and cercarial shedding by snail hosts accelerated around 27 °C. Further, metacercarial viability declined at higher temperatures but was prolonged by higher humidity. Snail intermediate host growth rates peaked at 25 °C, and their susceptibility to Fasciola infection depends on temperature, underscoring its importance in transmission dynamics. Overall, the Fasciola life cycle and snail host development exhibit stage-specific temperature thresholds, indicating a complex relationship between temperature fluctuations and parasite transmission potential. This research highlights the key role of temperature and humidity on Fasciola spp. and snail development, shedding light on the potential consequences of climate change on their survival, development, and disease transmission. Data limitations, primarily from the scarcity of high-resolution climate-related experiments, should drive future research to enhance predictive models and deepen our understanding of the impact of climate change on this parasitic disease.</p>","PeriodicalId":19968,"journal":{"name":"Parasitology Research","volume":null,"pages":null},"PeriodicalIF":1.8000,"publicationDate":"2024-08-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Parasitology Research","FirstCategoryId":"3","ListUrlMain":"https://doi.org/10.1007/s00436-024-08319-6","RegionNum":3,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"PARASITOLOGY","Score":null,"Total":0}
引用次数: 0
Abstract
Fasciolosis, caused by the liver fluke Fasciola spp., is a significant parasitic disease of livestock and humans worldwide. Fasciola transmission and life cycle are highly dependent on climatic conditions, especially temperature and humidity. This dependency has gained significance in the context of ongoing climate change. This literature review examined evidence on the effects of temperature variability on the developmental stages of Fasciola spp. and the snail intermediate hosts. We reviewed free larval stages of Fasciola spp. development, as well as snail intermediate hosts, while investigating the climate-related factors influencing each stage. We found that Fasciola spp. egg hatching and development were inhibited below 10 °C and optimal between 20 and 30 °C, miracidia hatching time decreased with higher temperatures and cercarial shedding by snail hosts accelerated around 27 °C. Further, metacercarial viability declined at higher temperatures but was prolonged by higher humidity. Snail intermediate host growth rates peaked at 25 °C, and their susceptibility to Fasciola infection depends on temperature, underscoring its importance in transmission dynamics. Overall, the Fasciola life cycle and snail host development exhibit stage-specific temperature thresholds, indicating a complex relationship between temperature fluctuations and parasite transmission potential. This research highlights the key role of temperature and humidity on Fasciola spp. and snail development, shedding light on the potential consequences of climate change on their survival, development, and disease transmission. Data limitations, primarily from the scarcity of high-resolution climate-related experiments, should drive future research to enhance predictive models and deepen our understanding of the impact of climate change on this parasitic disease.
肝吸虫病是由肝吸虫属引起的一种严重的寄生虫病,世界各地的牲畜和人类都患有这种疾病。法氏囊病的传播和生命周期高度依赖气候条件,尤其是温度和湿度。在当前气候变化的背景下,这种依赖性变得越来越重要。本文献综述研究了温度变化对法氏囊虫属和蜗牛中间宿主发育阶段影响的证据。我们回顾了法氏原虫的自由幼虫发育阶段以及蜗牛中间宿主,同时调查了影响每个阶段的气候相关因素。我们发现,法氏囊虫卵的孵化和发育在 10 ° C 以下受到抑制,在 20 ° C 至 30 ° C 之间达到最佳状态,蜃蛛的孵化时间随温度升高而缩短,蜗牛宿主的carcial脱落速度在 27 ° C 左右加快。此外,温度越高,蜕膜存活率越低,但湿度越高,存活时间越长。蜗牛中间宿主的生长速度在25 °C时达到顶峰,它们对法氏囊感染的易感性取决于温度,这突出了温度在传播动态中的重要性。总之,法氏囊虫的生命周期和蜗牛宿主的发育表现出特定阶段的温度阈值,表明温度波动与寄生虫传播潜力之间存在复杂的关系。这项研究强调了温度和湿度对法氏囊虫属和蜗牛发育的关键作用,揭示了气候变化对其生存、发育和疾病传播的潜在影响。数据的局限性(主要是缺乏高分辨率的气候相关实验)应推动未来的研究,以加强预测模型,加深我们对气候变化对这种寄生虫病影响的理解。
期刊介绍:
The journal Parasitology Research covers the latest developments in parasitology across a variety of disciplines, including biology, medicine and veterinary medicine. Among many topics discussed are chemotherapy and control of parasitic disease, and the relationship of host and parasite.
Other coverage includes: Protozoology, Helminthology, Entomology; Morphology (incl. Pathomorphology, Ultrastructure); Biochemistry, Physiology including Pathophysiology;
Parasite-Host-Relationships including Immunology and Host Specificity; life history, ecology and epidemiology; and Diagnosis, Chemotherapy and Control of Parasitic Diseases.