Abstract
Lyme disease is the most important vector-borne disease in the United States and is increasing in incidence and geographic range. In the Pacific west, the western black-legged tick, Ixodes pacificus Cooley and Kohls, 1943 is an important vector of the causative agent of Lyme disease, the spirochete, Borrelia burgdorferi. Ixodes pacificus life cycle is expected to be more than a year long, and all three stages (larva, nymph, and adult) overlap in spring. The optimal habitat consists of forest cover, cooler temperatures, and annual precipitation in the range of 200–500 mm. Therefore, the coastal areas of California, Oregon, and Washington are well suited for these ticks. Immature stages commonly parasitize Western fence lizards (Sceloporus occidentalis) and gray squirrels (Sciurus griseus), while adults often feed on deer mice (Peromyscus maniculatus) and black-tailed deer (Odocoileus h. columbianus). Ixodes pacificus carry several pathogens of human significance, such as Borrelia burgdorferi, Bartonella, and Rickettsiales. These pathogens are maintained in the environment by many hosts, including small mammals, birds, livestock, and domestic animals. Although a great deal of work has been carried out on Ixodes ticks and the pathogens they transmit, understanding I. pacificus ecology outside California still lags. Additionally, the dynamic vector–host–pathogen system means that new factors will continue to arise and shift the epidemiological patterns within specific areas. Here, we review the ecology of I. pacificus and the pathogens this tick is known to carry to identify gaps in our knowledge.
Highlights
In recent decades, an increase in the emergence rate of vector-borne zoonotic diseases has presented new challenges and threats to public health [1,2]
Lyme disease is caused by an infection with the spirochete, Borrelia burgdorferi, transmitted to humans mainly by black-legged ticks
1.3–1.5 times longer, and started declining 4–6 weeks later [54]. These results suggest that I. pacificus nymphal density starts to decline at temperatures between 21 and 23 ◦ C and at an average maximum daily relative humidity (RH) below 83–85% [54]
Summary
An increase in the emergence rate of vector-borne zoonotic diseases has presented new challenges and threats to public health [1,2]. Lyme disease is caused by an infection with the spirochete, Borrelia burgdorferi, transmitted to humans mainly by black-legged ticks. While some Borrelia species such as B. miyamotoi can be transovarially transmitted, B. burgdorferi cannot but can be acquired by ticks either through blood meals from infected hosts or transstadially [12,13,14,15,16]. In the western United States, especially in California, where most studies have been conducted, both tick vectors and the Borrelia spirochetes species have a greater diversity [18] compared to the eastern United States. The overall incidence of Lyme disease in the western United States is 0.2 cases compared to up to 80 cases per 100,000 persons per year in the northeastern and upper midwestern United. This review aims to provide a broad overview of the abiotic and biotic factors that influence the distribution and abundance of I. pacificus and the transmission dynamics of tickborne pathogens
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