Presenter(s)
Jacob Hanson and Josie Tieskoetter
Abstract
Cattle nasal cavities provide a favorable environment for microbial colonization and can habit a wide population of bacteria, including opportunistic and pathogenic species. The objective of this research was to isolate, characterize, and identify bacteria present is nasal swap specimen collected from multiple calves. Samples were cultured and analyzed using selective and differential media, Gram staining, spore staining, and a range of biochemical assays. Several bacterial species were identified including the genus Corynebacterium and Streptococcus while some isolates could not be identified using classical biochemical methods alone. These results demonstrate that calf nasal specimens commonly contain diverse bacterial populations, some of which contribute to disease. Understanding the types of bacteria present may improve disease prevention, treatment strategies, and overall calf health management.
College
College of Science & Engineering
Department
Biology
Campus
Winona
First Advisor/Mentor
Kimberly Evenson
Location
Kryzsko Great River Ballroom, Winona, Minnesota; United States
Start Date
4-23-2026 9:00 AM
End Date
4-23-2026 10:00 AM
Presentation Type
Poster Session
Format of Presentation or Performance
In-Person
Session
1a=9am-10am
Poster Number
30
Characterization of Bacteria in Cattle Specimens
Kryzsko Great River Ballroom, Winona, Minnesota; United States
Cattle nasal cavities provide a favorable environment for microbial colonization and can habit a wide population of bacteria, including opportunistic and pathogenic species. The objective of this research was to isolate, characterize, and identify bacteria present is nasal swap specimen collected from multiple calves. Samples were cultured and analyzed using selective and differential media, Gram staining, spore staining, and a range of biochemical assays. Several bacterial species were identified including the genus Corynebacterium and Streptococcus while some isolates could not be identified using classical biochemical methods alone. These results demonstrate that calf nasal specimens commonly contain diverse bacterial populations, some of which contribute to disease. Understanding the types of bacteria present may improve disease prevention, treatment strategies, and overall calf health management.
