Abstract
Wild animals are involved in zoonotic disease transmission cycles. These are generally complex and poorly understood, especially among animals adapted to life in human ecosystems. Raccoons are reservoirs and effective carriers for infectious agents such as Salmonella throughout different environments and contribute to the transference of resistance genes. This study examined the presence of circulating Salmonella sp. in a population of raccoons in a tropical urban environment and evaluated resistance to antibiotics commonly used to treat salmonellosis. A total of 97 raccoons of different ages and sex were included in this study. 49% (38–60 CI) of the faecal samples were positive for Salmonella spp. The study identified 15 circulating serovars with the most prevalent being S. Hartford (7/15), S. Typhimurium (4/15) and S. Bovismorbificans (4/15). These serovars correspond to the serovars detected in humans with clinical symptoms in Costa Rica. 9.5% of the Salmonella strains recovered demonstrated ciprofloxacin resistance, and 7.1% showed resistance to nalidixic acid. This study provides evidence of multiple Salmonella serovars circulating in a population of urban raccoons in Costa Rica. Furthermore, the study confirms the existence of antimicrobial resistance to two antibiotics used to treat human salmonellosis. The findings emphasize the role of the raccoon as a reservoir of Salmonella in the Greater Metropolitan Area of Costa Rica (GAM) and stress the need for active monitoring of the presence and possible spread in antibiotic resistance due to this peri‐domestic carnivore.
Highlights
Wildlife is often the main reservoir of both novel and well‐known zoonotic agents (Rhyan & Spraker, 2010)
We demonstrate a high prevalence of Salmonella strains and a great diversity of Salmonella strains in this raccoon population
Raccoons are viewed as a natural reservoir for Salmonella and Salmonella has been previously reported in raccoons in temper‐ ate zones, this study establishes, for the first time, the presence of Salmonella bacteria and identifies antibiotic resistance to quinolones in raccoon populations in a tropical urban zone in Costa Rica
Summary
Wildlife is often the main reservoir of both novel and well‐known zoonotic agents (Rhyan & Spraker, 2010). Raccoons (Procyon lotor) are one of the species best adapted to colonizing human landscapes (Bateman, Fleming, & Comber, 2012; Zeveloff & Dewitte, 2002) They are a natural reservoir for several micro‐ and macroparasites that threaten human health (Bradley & Altizer, 2007; Conover, 2002). The close proxim‐ ity of humans and raccoons can potentially increase the exchange of pathogens and resistance genes within urban landscapes. This pres‐ ents a serious public health concern that must be considered and addressed (Bondo et al, 2016aa; Bradley & Altizer, 2007; Conover, 2002). This study determined the prevalence and diversity of endemic Salmonella spp strains and provides evidence of antibiotic resistance in urban raccoons within the Great Metropolitan Area (GAM) of Costa Rica
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