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Climatic variations and Fasciola: a review of impacts across the parasite life cycle
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Climatic variations and Fasciola: a review of impacts across the parasite life cycle
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Climatic variations and Fasciola: a review of impacts across the parasite life cycle
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Journal Article
Climatic variations and Fasciola: a review of impacts across the parasite life cycle
2024
Overview
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.
