πŸ“ Work in Progress

  • 3. Son J, Seo S, Kim BG. Prediction models for nitrogen excretion based on dietary crude protein concentrations and body weights of pigs. Animal Nutrition (Under review).

  • 2. Zheng L, Son J, Kim SW. Effects of fermented rice bran extract with multi-microbial species on intestinal health and growth of nursery pigs. Animal Bioscience (Accepted).

  • 1. Lee H, Sung JY, Son J, Chae KS, Kim BG. Effects of homeopathic remedy on performance and behavior of pigs under regrouping stress condition. Journal of Animal Science and Technology (Accepted).

πŸ“” Peer-Reviewed Publications

  • 16. Garavito-Duarte YR, Son J, Weaver AC, Kim SW. 2025. Functional efficacies of humate and Ξ²-mannanase against aflatoxin B1 and deoxynivalenol in the diets for nursery pigs. Toxins 17:456. πŸ”—

  • 15. Cheng YC, Son J, Kim SW. 2025. Amino acids with Corynebacterium glutamicum cell mass can replace crystalline amino acids for its postbiotic effects on intestinal health of nursery pigs. Animal Feed Science and Technology 329:116504. πŸ”—

  • 14. Do H, Hong B, Son J, Park N, Kim BG. 2025. New prediction models for gross energy of pig urine using nitrogen concentration and body weight. Animal Bioscience 38:1953-1958. πŸ”—

  • 13. Son J, Kim SW. 2025. Post-weaning diarrhea caused by F18+ Escherichia coli and its impact on mucosa-associated microbiota and immune responses in the jejunum of nursery pigs. Microbiome Research Reports 4:29. πŸ”—

  • 12. Park N, Son J, Kim BG. 2025. Novel models for estimating metabolizable energy intake of pigs based on body weight and ambient temperature. Journal of Animal Science 103:skaf183. πŸ”—

  • 11. Koh Y, Son J, Kim BG. 2025. Comparison of neutral detergent fiber analysis methods for feedstuffs and feces of pigs. The Journal of AOAC International 108:648-651. πŸ”—

  • 10. Son J, Do H, Kim BG. 2025. Assessment of Brix values for estimating nitrogen and gross energy concentrations of pig urine. Animal Bioscience 38:1242-1246. πŸ”—

  • 9. Son J, Kim BG. 2024. Prediction models for phosphorus excretion of pigs. Animal Bioscience 37:1781-1787. πŸ”—

  • 8. Son J, Park N, Kim BG. 2024. Energy utilization of corn, oilseed meals, and fibrous ingredients can be predicted by multi-sample simultaneous in vitro assay for growing pigs. Animal Feed Science and Technology 309:115903. πŸ”—

  • 7. Son AR, Son J, Kim BG. 2024. Effects of type of fiber sources in the phosphorus-free diet on the endogenous losses of phosphorus in growing pigs. Animal Feed Science and Technology 309:115896. πŸ”—

  • 6. Son J, Kim J, Jo H, Kim BG. 2023. Fecal amylase-treated neutral detergent fiber and ash contents as independent variables can predict metabolizable energy and coefficient of energy digestibility of diets for growing pigs without dietary information. Animal Feed Science and Technology 305:115790. πŸ”—

  • 5. Son J, Kim BG. 2023. Nutrient digestibility of soybean meal products based on in vitro procedures for pigs. Agriculture 13:1631. πŸ”—

  • 4. Song H, Jo H, Son J, Kim BG. 2023. Effects of exogenous gonadotropins on reproductive performance of gilts. Animal Industry and Technology 10:29-36. πŸ”—

  • 3. Son J, Park SH, Jung HJ, You SJ, Kim BG. 2023. Effects of drying methods and blanching on nutrient utilization in black soldier fly larva meals based on in vitro assays for pigs. Animals 13:858. πŸ”—

  • 2. Son AR, Son J, Kim BG. 2023. Effects of dietary wheat bran on ileal and hindgut digestibility of nutrient in pigs and influences of ileal digesta collection on proceeding fecal nutrient digestibility. Animals 13:799. πŸ”—

  • 1. Park CS, Son J, Kim BG. 2022. Effects of supplemental Ξ²-mannanase on in vitro disappearance of dry matter in feed ingredients for swine. Animal Industry and Technology 9:35-40. πŸ”—