Prof. Dr. Qiuju Wang | Poultry Microbiology | Best Researcher Award
College of Animal Science and Veterinary Medicine, Heilongjiang Bayi Agricultural University, China.
Prof. Dr. Qiuju Wang is a distinguished professor at the College of Animal Science and Veterinary Medicine, Heilongjiang Bayi Agricultural University. With expertise in animal nutrition and microecological regulation, her research has profoundly impacted poultry health and production performance. A recipient of multiple accolades, she has pioneered studies on gut microbiota and its physiological effects on poultry. Dr. Wang has also collaborated internationally, furthering advancements in her field. She actively contributes to academia through publications, patents, and innovation.
Profile
π Education
Prof. Dr. Qiuju Wang holds a Ph.D. in Animal Nutrition and Feed Science from Heilongjiang Bayi Agricultural University (2006β2010), where she specialized in advancing livestock nutrition and ecological practices. As part of her academic journey, she participated in a prestigious Joint Ph.D. Program in Animal and Poultry Nutrition at the Ontario College of Agriculture, University of Guelph, Canada (2008β2009), where she honed her expertise in poultry nutrition and gut microbiota. Further enhancing her global academic profile, she served as a Visiting Scholar at the College of Veterinary and Diagnosis, Cornell University, USA (2016β2017), focusing on cutting-edge diagnostic methods and ecological regulation in animal health.
π’ Experience
Prof. Dr. Qiuju Wang serves as a distinguished Professor at Heilongjiang Bayi Agricultural University, where she leads impactful research in poultry gut health, microecological regulation, and nutrition optimization. Her expertise has driven advancements in improving livestock productivity and health through sustainable and ecological approaches. Prof. Wang has also fostered international collaboration with renowned institutions, including Cornell University and the University of Guelph, enriching her research with global insights and multidisciplinary perspectives. Her leadership continues to shape innovative solutions for challenges in animal science and veterinary medicine.
π¬ Research Interests
Nutrition and microecological regulation of poultry
Gut microbiota analysis and its effects on immunity, physiology, and nutritional metabolism
Utilization of microbial diversity, metagenomics, and transcriptomics for enhanced poultry performance
Development of sustainable ecological methods for poultry health
π Awards and Recognitions
Third Prize, Scientific and Technological Progress of Heilongjiang Province
Second and Third Prize (Participant), Scientific and Technological Progress of Heilongjiang Province
π Publications Top Notes
Isolation and Characterization of Two Strains of Goose-Derived Probiotics and Their Effect on Goslings
Zhao, Y., Wang, Q., Meng, L., Yu, W., Leng, X.
Chinese Journal of Animal Nutrition, 2024, 36(11): 7409β7421.
Abstract: This study identifies and evaluates two probiotic strains derived from geese, analyzing their role in uric acid metabolism in goslings.
Effects of Clostridium butyricum on Protein Synthesis of Rumen Explants in Dairy Cows
Sun, S., Wang, Q., Wan, B., Wang, J., Zhao, Y.
Chinese Journal of Animal Nutrition, 2024, 36(9): 5709β5721.
Abstract: Research on Clostridium butyricum reveals its potential to enhance protein synthesis in rumen explants of dairy cows.
Comprehensive Analysis of the Differential Expression of mRNAs, lncRNAs, and miRNAs in Zi Goose Testis with High and Low Sperm Mobility
Hao, H., Ren, X., Ma, Z., Wang, Q., Liu, S.
Poultry Science, 2024, 103(8), Article 103895.
Abstract: The study highlights transcriptomic differences in Zi goose testis influencing sperm mobility, emphasizing mRNA, lncRNA, and miRNA interactions.
Cited by: 3 articles.
Effects of Dietary Artemisia annua Supplementation on Growth Performance, Antioxidant Capacity, Immune Function, and Gut Microbiota of Geese
Cui, Y., Leng, X., Zhao, Y., Zhao, Y., Wang, Q.
Poultry Science, 2024, 103(5), Article 103594.
Abstract: Explores how Artemisia annua in diets affects growth, immunity, antioxidant properties, and gut microbiota in geese.
Cited by: 5 articles.
Integrated Meta-Omics Analyses Reveal a Role of Ruminal Microorganisms in Ketone Body Accumulation and Ketosis in Lactating Dairy Cows
Wang, Q., Cui, Y., Indugu, N., Deng, Z., Xu, C.
Journal of Dairy Science, 2022, 106, 4906β4917.