1. Antimicrobial resistance in Galapagos tortoises as an indicator of the growing human footprint
- Author
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Casilda Rodríguez, Sharon L. Deem, Santiago Cano, Nicolas Moity, Freddy Cabrera, Fernando Esperón, Ainoa Nieto-Claudin, Galapagos National Park, Saint Louis Zoo, Houston Zoo, Nieto-Claudin, Ainoa, Deem, Sharon L, Rodríguez, Casilda, Moity, Nicolas, and Esperón, Fernando
- Subjects
010504 meteorology & atmospheric sciences ,Antibiotic resistance ,Health, Toxicology and Mutagenesis ,Wildlife ,Wildlife surveillance ,Animals, Wild ,010501 environmental sciences ,Toxicology ,01 natural sciences ,Drug Resistance, Bacterial ,Global health ,Animals ,Humans ,0105 earth and related environmental sciences ,One health ,Ecosystem health ,geography.geographical_feature_category ,Resistance (ecology) ,biology ,Ecology ,Microbiota ,ARG ,Chelonoidis spp ,General Medicine ,biology.organism_classification ,Pollution ,Anti-Bacterial Agents ,Turtles ,Geography ,One Health ,Chelonoidis ,Archipelago ,Biological dispersal ,Ecuador - Abstract
Pág.9 Environmental Pollution, Antimicrobial resistance has become one of the main public health threats worldwide with anthropogenic activities driving the spread of resistance. Understanding and combatting the spread of resistant bacteria is a top priority for global health institutions, and it is included as one of the main goals of the One Health initiative. Giant tortoises (Chelonoidis spp.), some of the most iconic species on Earth, are widely distributed across the Galapagos archipelago and are thus perfect candidates to test the hypothesis that wildlife species in the Galapagos carry antimicrobial resistant genes (ARGs) associated with human activities. We sampled a total of 200 free-living Galapagos tortoises from western Santa Cruz Island (C. porteri), the most human-populated island of the archipelago, and 70 tortoises (C. vandenburghi) from the isolated Alcedo Volcano on Isabela Island, a natural area with minimal human presence. Fecal samples were analyzed by quantitative PCR for a panel of 21 ARGs conferring resistance for eight antimicrobial classes. We found ARGs in both Santa Cruz and Alcedo Volcano giant tortoises; however, both qualitative and quantitative results showed higher loads of ARGs in tortoises inhabiting the human modified environments of Santa Cruz. Moreover, Santa Cruz tortoises sampled in higher human-modified landscapes (i.e., farmlands and urban areas) presented a higher number of ARGs, antimicrobial classes, and multi-resistant microbiomes than those from less anthropized areas within the same island. Our findings suggest that human activities in Galapagos have a negative impact on ecosystem health through ARG dispersal. This research highlights a new threat for the health and conservation of the unique wildlife of the Galapagos, their ecosystems, and the humans inhabiting this World Heritage Site. Our recommendation to local policy makers is to control and reduce the use of antibiotics in both human and animal health, thus helping enforce antimicrobial regulations., This work was supported by the Galapagos National Park Directorate, Saint Louis Zoo Institute for Conservation Medicine, Saint Louis WildCare Institute Center for Chelonian Conservation, the AAZV Wild Animal Health Fund (WAHF #37), IWC Schaffhausen, Houston Zoo, Galapagos Conservation Trust, Charles Darwin Foundation, Ecoventura, and Linda Esler. A special recognition for their contributions goes to Stephen Blake, José Haro, Anne Guezou, Karina Ramón, Laura Kleinschmidt, Surya Castillo, Joshua Vela, Manuel Haro, Unler Greffa, Jamie Palmer, Kathleen Apakupakul, Elena Neves, Irene Peña, Irene Sacristán, and Olga Calatayud. This publication is contribution number 2401 of the Charles Darwin Foundation for the Galapagos Islands.
- Published
- 2021