Abstract
Salmonella spp. represents a leading cause of foodborne disease globally. Wild aquatic birds inhabiting ecosystems impacted by human activities may serve as reservoirs and dispersers of Salmonella and antimicrobial resistance genes (ARGs), posing significant public health risks. This study evaluated the prevalence, serovars, resistance genes, and genomic relationships of Salmonella in fecal samples from wild aquatic birds across three high-Andean lakes in Ecuador. Of 134 samples collected from 10 species, five (3.73%) tested positive, all from Yahuarcocha Lake, isolated from Fulica ardesiaca and Phalacrocorax brasilianus. Two serovars were identified: Salmonella Infantis (ST32, n=4) and Salmonella Newport (ST45, n=1). Three S. Infantis isolates exhibited multidrug resistance (MDR), mediated by a pESI-like plasmid carrying resistance genes against beta-lactams, aminoglycosides, tetracyclines, sulfonamides, trimethoprim, fosfomycin, and chloramphenicol. SNP-based phylogenetic analysis revealed low genetic divergence (≤10 SNPs) between wildlife and poultry-associated isolates, indicating a shared transmission network. These findings support a likely spillover from poultry production systems into wild bird populations, and highlight the role of wild aquatic birds as ecological sentinels and potential disseminators of MDR Salmonella across interconnected human, animal, and environmental systems. These results underscore the need to incorporate human, animal, and environmental health factors within a One Health framework.