Movement of Rhipicephalus sanguineus adults between co-housed dogs during active feeding |
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Authors: | Little Susan E Hostetler Joe Kocan Katherine M |
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Affiliation: | Department of Veterinary Pathobiology, Center for Veterinary Health Sciences, Oklahoma State University, Stillwater, OK, United states. susan.little@okstate.edu |
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Abstract: | Adult male ticks have been shown capable of experimental acquisition and transmission of tick-borne pathogens without requiring a molt. To determine the ecological relevance of this intrastadial transmission route, we evaluated the extent to which actively feeding male Rhipicephalus sanguineus move naturally between co-housed infested dogs. Dogs (n=4) were infested with single color-coded ticks, individually housed in tick-confinement cages for 48 h while infestations established, and then each dog examined and the ticks present counted. Dogs were then co-housed in a large, group pen for an additional 7 (study 1) or 5 (study 2) days. In the first study, sex ratios were adjusted to encourage migration, with two dogs receiving predominantly female ticks and two dogs receiving all male ticks. In the second study, each dog received a ratio of ticks that parallels that found in natural infestations (4:1 male to female). Results showed that ticks readily migrated between infested, co-housed dogs. Rates of immigration, defined as the percentage of ticks previously attached to one dog that moved onto another dog, ranged from 0 to 46% (mean=31.1% study 1; 9.4% study 2). Emigration rates, defined as the number of ticks initially infesting one dog that moved to another dog, averaged 35.2% in study 1 and 10.8% in study 2 (3.6-67.6%). Movement of adult ticks between dogs represents a naturally occurring form of interrupted feeding, a strategy which has been shown to shorten the feeding time necessary to allow transmission of pathogens. In ticks that readily detach from one host and reattach to a second host to resume feeding, replication of any pathogens present has already been initiated and therefore the same delay in transmission seen in ticks attached to a host for the first time may not occur. |
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