The United States, particularly the southern portion, has recently suffered drastic population expansion of wild pigs causing destruction of prime farmland. An associated concern, which has been understudied, is the potential transfer of nutrients and pathogens to surface water. This study aimed to identify the abiotic and biotic impacts of captive wild pigs on water quality, including nutrients, fecal indicator and pathogenic bacteria, and antimicrobial resistance. Overall, the study demonstrated that wild pigs harbored Salmonella spp., Campylobacter spp., Escherichia coli, and Clostridium perfringens, which were found in water runoff collected directly beneath the hog paddock, often 2 log10 greater than above‐paddock levels. However, the impacts to downstream water quality were limited, perhaps because of a relatively large riparian buffer between the paddock and surface water. A higher rate of ammonium concentration changes over time was detected in the runoff water below the paddock; additionally, microbial releases detected in runoff were also time dependent, possibly associated with increasing pig numbers. Antibiotic resistance was generally not associated with the wild pigs. Antibiotic resistance genes were found in upstream as well as downstream surface water, suggesting that nonpoint sources of microbial contamination were present. Interestingly, intI1 levels were greater in below‐paddock runoff by nearly 2 log10. Overall, it appears that wild pigs potentially pose a threat to water quality but only if they have direct access to the water. Pathogen, fecal indicator bacteria, and some nutrient release were significantly associated with wild pigs, but riparian buffers limited water quality impairment.
River networks (i.e., dendritic systems of streams within river basins) are hierarchical features in the landscape revealing patterns that recur within and across basins (Frissell et al., 1986). Attributes of individual reaches (i.e., stream segments) within basins depend on physical drivers, such as geologic features, precipitation patterns, channel morphology, and land cover which interact over spatial scales and sequentially along the basin (Allan, 2004;Poff, 1997;Smiley & Dibble, 2005). Basin morphology and hydrology define the intrinsic lengthwise patterns found in river networks, as well as how these patterns are expressed across basins (
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