Several highly infectious diseases can be transmitted through feces and cause elevated mortality among carnivore species. One such infectious agent, canine distemper virus (CDV; Paramyxoviridae: Morbillivirus), has been reported to affect wild carnivores, among them several felid species. We screened free-ranging and captive wild carnivores in Costa Rica for CDV. Between 2006 and 2012, we collected 306 fecal samples from 70 jaguars (Panther onca), 71 ocelots ( Leopardus pardalis ), five jaguarundis (Puma yaguaroundi), 105 pumas ( Puma concolor ), five margays ( Leopardus wiedii ), 23 coyotes ( Canis latrans ), and 27 undetermined Leopardus spp. We found CDV in six individuals: one captive jaguarundi (rescued in 2009), three free-ranging ocelots (samples collected in 2012), and two free-ranging pumas (samples collected in 2007). Phylogenetic analyses were performed using sequences of the phosphoprotein (P) gene. We provide evidence of CDV in wild carnivores in Costa Rica and sequence data from a Costa Rican CDV isolate, adding to the very few sequence data available for CDV isolates from wild Central American carnivores.
Ocelots (Leopardus pardalis) are a wide-ranging felid species, occurring from southern United States to northern Argentina. They occupy various habitats and are usually considered the most abundant wild cat species in the Neotropics. However, genetic studies that include free-ranging Mesoamerican ocelots are rare and generally based on small sample sizes. This is the first conservation genetics study on ocelots in Costa Rica and the second one in Mesoamerica that has conducted a genetic assessment of the species at a countrywide scale. We evaluated genetic diversity and population structure of ocelots using 15 microsatellite loci in 28 successfully genotyped individuals from throughout the country. We also compared genetic diversity of Costa Rican ocelots with that of jaguars (Panthera onca) and pumas (Puma concolor) in the country, and with ocelots in Belize. Genetic diversity of ocelots in Costa Rica was relatively high as measured by rarified allelic richness (AR = 5.50 ± 1.36) and expected heterozygosities (HE = 0.79 ± 0.08). We did not detect patterns of genetic substructure, suggesting high levels of gene flow throughout the country and no strong barriers to movement. As expected, genetic diversity of Costa Rican ocelots was higher than co-occurring jaguars and pumas. Additionally, levels of genetic diversity were slightly higher in Costa Rican ocelots when compared with their counterparts in Belize, confirming the south to north decrease in genetic diversity reported in other studies. Our study provides critical baseline information to understand the status of wild ocelot populations in Costa Rica. Future studies on ocelots and other threatened or keystone species should also integrate genetic monitoring and conservation genetics analysis to properly inform management decisions, guarantee their long-term survival, and improve the resilience of ecosystems.
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