Climate-driven variation in the phenology of juvenile Ixodes pacificus on lizard hosts

Parasites & Vectors, Journal Year: 2025, Volume and Issue: 18(1)

Published: April 15, 2025

Abstract Background Ectothermic arthropods, like ticks, are sensitive indicators of environmental changes, and their seasonality plays a critical role in the dynamics tick-borne disease warming world. Juvenile tick phenology, which influences pathogen transmission, may vary across climates, with longer seasons cooler climates potentially amplifying transmission. However, assessing juvenile phenology is challenging arid because ticks spend less time seeking for blood meals (i.e. questing) due to desiccation pressures. As result, traditional collection methods dragging or flagging effective. To improve our understanding latitudinal gradient, we examined Ixodes pacificus on lizards, primary host California, explored how climate factors influence phenological patterns. Methods Between 2013 2022, were removed from 1527 lizards at 45 locations during peak season (March–June). Tick counts categorized by life stage (larvae nymphs) linked remotely sensed data, including monthly maximum temperature, specific humidity Palmer Drought Severity Index (PDSI). metrics, abundances Julian date mean abundance temporal overlap between larval nymphal populations, analyzed along gradient. Generalized additive models (GAMs) applied assess climate-associated variation lizards. Results Mean per lizard ranged 0.17 47.21 locations, highest San Francisco Bay Area lowest Los Angeles, where more had zero attached. In Area, occurred 25 days earlier than abundance. Temporal stages given location varied regionally, northern areas showing higher overlap, possibly bimodal nymphs. We found that temperatures increased drought stress lower abundances, although magnitude these effects depended regional location. Conclusions Our study, compiled 10 years reveals significant I. differences abundance, timing, overlap. These findings highlight local seasonality, implications changing climate. Graphical

Language: Английский

The Impact of Vegetation Changes in Savanna Ecosystems on Tick Populations in Wildlife: Implications for Ecosystem Management

Diversity, Journal Year: 2025, Volume and Issue: 17(5), P. 314 - 314

Published: April 26, 2025

Vegetation changes in savanna ecosystems are playing an increasingly important role shaping tick populations and the spread of tick-borne diseases, with consequences for both wildlife livestock health. This study examines how factors such as climate variability, land use, vegetation structures, host availability influence survival, distribution, behavior. As grasslands degrade woody plants become more dominant, ticks finding suitable habitats, often supported by microclimatic conditions that favor their development. At same time, increased contact between domestic wild animals is facilitating transmission pathogens. review highlights seasonal patterns, fire regimes, grazing pressure, change driving shifts activity expanding geographical range. These increase risk disease humans alike. Addressing these challenges calls integrated management strategies include control, population monitoring, sustainable vector control methods. A holistic approach connects ecological, animal, human health perspectives essential effective prevention long-term ecosystem management.

Language: Английский