Climbing simulated vegetation to heights of ungulate hosts by larvae of Dermacentor albipictus Acari: IxodidaeReport as inadecuate




Climbing simulated vegetation to heights of ungulate hosts by larvae of Dermacentor albipictus Acari: Ixodidae - Download this document for free, or read online. Document in PDF available to download.

Dermacentor albipictus, Adaptations, Larvae, Transmission, Host-finding, Behavior

Additional contributors:

Subject-Keyword: Dermacentor albipictus Adaptations Larvae Transmission Host-finding Behavior

Type of item: Journal Article Published

Language: English

Place:

Time:

Description: Abstract: Larvae of winter ticks, Dermacentor albipictus Packard, ascend vegetation in autumn and form clumps that attach to passing ungulate hosts. We tested the hypothesis that vegetation height determines the height of clumps. During the vegetation-to-ungulate transmission period early September to mid-November, larvae were released. at the base of simulated vegetation nylon rods 245 cm tall in outdoor and laboratory trials and in the absence of host cues. Rod height exceeded the height of the tallest ungulate host, which is the moose, Alces alces L

Most larvae stopped climbing and formed clumps 50-190 cm above ground, which coincided with torso heights of moose; elk, Cervus elaphus L.; and deer, Odocoileus spp. Rafinesque. More clumps formed in outdoor trials than in laboratory trials and clump heights tended to increase over. the course of the experiment, but clump number, size, and height did not cell-elate with weather conditions. Winter tick larvae appear to determine their height above ground in the absence of external cues, but this mechanism may be modified by external conditions.

Date created: 2000

DOI: doi:10.7939-R3ZW1900M

License information:

Rights: © 2000 Entomological Society of America. This article is the copyright property of the Entomological Society of America and may not be used for any commercial or other private purpose without specific written permission of the Entomological Society of America.





Author: McPherson, M. Shostak, A. W. Samuel, W. M.

Source: https://era.library.ualberta.ca/



DOWNLOAD PDF




Related documents