Yersinia pestis,causative agent of plague,occurs throughout the western United States in rodent populations and periodically causes epizootics in susceptible species,including black-tailed prairie dogs(Cynomys ludovic...Yersinia pestis,causative agent of plague,occurs throughout the western United States in rodent populations and periodically causes epizootics in susceptible species,including black-tailed prairie dogs(Cynomys ludovicianus).How Y.pestis persists long-term in the environment between these epizootics is poorly understood but multiple mechanisms have been proposed,including,among others,a separate enzootic transmission cycle that maintains Y.pestis without involvement of epizootic hosts and persistence of Y.pestis within epizootic host populations without causing high mortality within those populations.We live-trapped and collected fleas from black-tailed prairie dogs and other mammal species from sites with and without black-tailed prairie dogs in 2004 and 2005 and tested all fleas for presence of Y.pestis.Y.pestis was not detected in 2126 fleas collected in 2004 but was detected in 294 fleas collected from multiple sites in 2005,before and during a widespread epizootic that drastically reduced black-tailed prairie dog populations in the affected colonies.Temporal and spatial patterns of Y.pestis occurrence in fleas and genotyping of Y.pestis present in some infected fleas suggest Y.pestis was introduced multiple times from sources outside the study area and once introduced,was dispersed between several sites.We conclude Y.pestis likely was not present in these black-tailed prairie dog colonies prior to epizootic activity in these colonies.Although we did not identify likely enzootic hosts,we found evidence that deer mice(Peromyscus maniculatus)may serve as bridging hosts for Y.pestis between unknown enzootic hosts and black-tailed prairie dogs.展开更多
Utah prairie dogs have been extirpated in 90% of their historical range. Because most of the population occurs on private land, this threatened species is continually in conflict with land-owners due to burrowing. The...Utah prairie dogs have been extirpated in 90% of their historical range. Because most of the population occurs on private land, this threatened species is continually in conflict with land-owners due to burrowing. The Utah Division of Wildlife Resources has been relocating Utah prairie dogs from private to public land since the 1970s, but relocations have been largely unsuccessful due to high mortality. Utah prairie dogs were relocated in 2010 and 2011 from the golf course in Cedar City, Utah to two prepared sites near Bryce Canyon National Park, Utah. Vegetation transects were established at each site to determine if there was a correlation between site vegetation composition and structure, and Utah prairie dog survival at relocation sites. The vegetation at the two sites was significantly different. One site had significantly less grass cover, more invasive plant cover, and rockier soils. The sites also had different soil structures and long-term Utah prairie dog retention rates. Newly established burrows were clustered rather than randomly distributed. Utah prairie dogs appeared to avoid placing burrows in areas with tall vegetation and rocky soils. More research is needed to determine how site selection determines longterm retention and colonization of a relocation site.展开更多
基金This study was funded by the NSF/NIH joint program in Ecology of Infectious Diseases(DEB-0224328)the National Center for Environmental Research(NCER)STAR program of the US-EPA(R-82909101-0)+2 种基金the National Institutes of Health-National Institute of Allergy and Infectious Diseases(1R15AI070183)the Pacific-Southwest Regional Center of Excellence(AI065359)Achievement Rewards for College Scientists Foundation Inc.,and the Cowden Endowment at Northern Arizona University.
文摘Yersinia pestis,causative agent of plague,occurs throughout the western United States in rodent populations and periodically causes epizootics in susceptible species,including black-tailed prairie dogs(Cynomys ludovicianus).How Y.pestis persists long-term in the environment between these epizootics is poorly understood but multiple mechanisms have been proposed,including,among others,a separate enzootic transmission cycle that maintains Y.pestis without involvement of epizootic hosts and persistence of Y.pestis within epizootic host populations without causing high mortality within those populations.We live-trapped and collected fleas from black-tailed prairie dogs and other mammal species from sites with and without black-tailed prairie dogs in 2004 and 2005 and tested all fleas for presence of Y.pestis.Y.pestis was not detected in 2126 fleas collected in 2004 but was detected in 294 fleas collected from multiple sites in 2005,before and during a widespread epizootic that drastically reduced black-tailed prairie dog populations in the affected colonies.Temporal and spatial patterns of Y.pestis occurrence in fleas and genotyping of Y.pestis present in some infected fleas suggest Y.pestis was introduced multiple times from sources outside the study area and once introduced,was dispersed between several sites.We conclude Y.pestis likely was not present in these black-tailed prairie dog colonies prior to epizootic activity in these colonies.Although we did not identify likely enzootic hosts,we found evidence that deer mice(Peromyscus maniculatus)may serve as bridging hosts for Y.pestis between unknown enzootic hosts and black-tailed prairie dogs.
文摘Utah prairie dogs have been extirpated in 90% of their historical range. Because most of the population occurs on private land, this threatened species is continually in conflict with land-owners due to burrowing. The Utah Division of Wildlife Resources has been relocating Utah prairie dogs from private to public land since the 1970s, but relocations have been largely unsuccessful due to high mortality. Utah prairie dogs were relocated in 2010 and 2011 from the golf course in Cedar City, Utah to two prepared sites near Bryce Canyon National Park, Utah. Vegetation transects were established at each site to determine if there was a correlation between site vegetation composition and structure, and Utah prairie dog survival at relocation sites. The vegetation at the two sites was significantly different. One site had significantly less grass cover, more invasive plant cover, and rockier soils. The sites also had different soil structures and long-term Utah prairie dog retention rates. Newly established burrows were clustered rather than randomly distributed. Utah prairie dogs appeared to avoid placing burrows in areas with tall vegetation and rocky soils. More research is needed to determine how site selection determines longterm retention and colonization of a relocation site.
