A University of Southern Mississippi study reveals that climate change may allow ticks carried by migratory birds to survive in new northern regions, raising concerns over the spread of tick-borne diseases. Analysis of nearly 15,000 songbirds found that exotic ticks can potentially infect birds during migration, suggesting a need for monitoring such interactions to prevent the establishment of invasive pathogens.

Recent research indicates that climate change may enable migratory birds to introduce ixodid ticks and associated diseases to new regions as they migrate to northern territories. This study, led by the University of Southern Mississippi and published in Frontiers in Cellular and Infection Microbiology, analyzed 14,929 songbirds at various sites along the northern Gulf of Mexico and found that rising temperatures could facilitate the survival of pathogen-laden ticks from tropical locales, thereby impacting ecosystems in cooler areas. The researchers identified significant patterns of tick parasitism, especially among hooded warblers and swamp sparrows, highlighting the potential for these birds to carry ticks over vast distances. Despite the low overall rate of tick infestation, the presence of genera such as Amblyomma and Rickettsia raises concerns about the pathogenic risks that might accompany these migrations. The findings emphasize the need for continued observation of migratory patterns to anticipate the establishment of invasive tick species and their associated threats to wildlife and human health.

The phenomenon of climate change not only affects temperature but also influences the behavior and migratory patterns of wildlife, including birds. As temperatures rise, it is hypothesized that exotic wildlife parasites, particularly ticks that are vectors of disease, may spread to new geographical areas via migratory birds. Understanding the interaction between these birds and ticks is essential for developing strategies to mitigate the potential health risks associated with emerging tick-borne diseases, especially in newly affected regions in North America where these diseases previously had limited presence.

The study underscores the impact of climate change on the distribution of migratory birds and their potential role as vectors for exotic tick species and associated pathogens. While the rate of tick parasitism in the surveyed birds was low, the findings suggest that migratory birds are capable of transporting ticks over significant distances, which necessitates further examination of migratory patterns to anticipate the introduction of potentially invasive tick species and the diseases they may carry. Understanding these dynamics is crucial for public health preparedness and ecological preservation.

Original Source: www.cidrap.umn.edu