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W2462382801 abstract "Summary Many parasites infect multiple sympatric host species, and there is a general assumption that parasite transmission between co‐occurring host species is commonplace. Such between‐species transmission could be key to parasite persistence within a disease reservoir and is consequently an emerging focus for disease control. However, while a growing body of theory indicates the potential importance of between‐species transmission for parasite persistence, conclusive empirical evidence from natural communities is lacking, and the assumption that between‐species transmission is inevitable may therefore be wrong. We investigated the occurrence of between‐species transmission in a well‐studied multihost parasite system. We identified the flea‐borne Bartonella parasites infecting sympatric populations of Apodemus sylvaticus (wood mice) and Myodes glareolus (bank voles) in the UK and confirmed that several Bartonella species infect both rodent species. However, counter to previous knowledge, genetic characterization of these parasites revealed covert host specificity, where each host species is associated with a distinct assemblage of genetic variants, indicating that between‐species transmission is rare. Limited between‐species transmission could result from rare encounters between one host species and the parasites infecting another and/or host–parasite incompatibility. We investigated the occurrence of such encounter and compatibility barriers by identifying the flea species associated with each rodent host, and the Bartonella variants carried by individual fleas. We found that the majority of fleas were host‐generalists but the assemblage of Bartonella variants in fleas tended to reflect the assemblage of Bartonella variants in the host species they were collected from, thus providing evidence of encounter barriers mediated by limited between‐species flea transfer. However, we also found several fleas that were carrying variants never found in the host species from which they were collected, indicating some degree of host–pathogen incompatibility when barriers to encounter are overcome. Overall, these findings challenge our default perceptions of multihost parasite persistence, as they show that despite considerable overlaps in host species ecology, separate populations of the same parasite species may circulate and persist independently in different sympatric host species. This questions our fundamental understanding of endemic transmission dynamics and the control of infection within natural reservoir communities." @default.
W2462382801 created "2016-07-22" @default.
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W2462382801 date "2016-08-16" @default.
W2462382801 modified "2023-10-17" @default.
W2462382801 title "Multihost<i>Bartonella</i>parasites display covert host specificity even when transmitted by generalist vectors" @default.
W2462382801 cites W1513618424 @default.
W2462382801 cites W1834497800 @default.
W2462382801 cites W1967380661 @default.
W2462382801 cites W1967707056 @default.
W2462382801 cites W1968051738 @default.
W2462382801 cites W1972881813 @default.
W2462382801 cites W1974071085 @default.
W2462382801 cites W1982809731 @default.
W2462382801 cites W1984352369 @default.
W2462382801 cites W1986992441 @default.
W2462382801 cites W1987851547 @default.
W2462382801 cites W1988712995 @default.
W2462382801 cites W1988920672 @default.
W2462382801 cites W1989101401 @default.
W2462382801 cites W1991038167 @default.
W2462382801 cites W1994113352 @default.
W2462382801 cites W1995511199 @default.
W2462382801 cites W2011197043 @default.
W2462382801 cites W2013023971 @default.
W2462382801 cites W2017445818 @default.
W2462382801 cites W2021693374 @default.
W2462382801 cites W2023675077 @default.
W2462382801 cites W2031832579 @default.
W2462382801 cites W2032563322 @default.
W2462382801 cites W2038936397 @default.
W2462382801 cites W2045630377 @default.
W2462382801 cites W2062528752 @default.
W2462382801 cites W2074099583 @default.
W2462382801 cites W2076229219 @default.
W2462382801 cites W2080410270 @default.
W2462382801 cites W2085338055 @default.
W2462382801 cites W2088031632 @default.
W2462382801 cites W2092298798 @default.
W2462382801 cites W2092947893 @default.
W2462382801 cites W2094276847 @default.
W2462382801 cites W2102360164 @default.
W2462382801 cites W2103685216 @default.
W2462382801 cites W2106673632 @default.
W2462382801 cites W2111848708 @default.
W2462382801 cites W2113165456 @default.
W2462382801 cites W2113960709 @default.
W2462382801 cites W2116724834 @default.
W2462382801 cites W2117647297 @default.
W2462382801 cites W2126090434 @default.
W2462382801 cites W2129870379 @default.
W2462382801 cites W2138274153 @default.
W2462382801 cites W2142719973 @default.
W2462382801 cites W2154756722 @default.
W2462382801 cites W2157475700 @default.
W2462382801 cites W2158096739 @default.
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W2462382801 cites W2168778353 @default.
W2462382801 cites W2169916395 @default.
W2462382801 cites W2241665733 @default.
W2462382801 cites W2325680555 @default.
W2462382801 cites W2334223135 @default.
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W2462382801 doi "https://doi.org/10.1111/1365-2656.12568" @default.
W2462382801 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5082552" @default.
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