![]() Propose list of mutations that can be used in the industry as a selection tool to decrease the incidence of mastitis in dairy cattleĪ) conducting a comprehensive review of literature on Mastitis as one of the main inflammatory Diseases that affect dairy industry. Perform in-silico pathway and gene network analyses to understand the biology behind the differences between animal in mastitis resistanceĤ. Identify genes associated with mastitis diseases via genome-wide association analyses (GWAS)ģ. Reviewing and summarizing existing literature on mastitisĢ. Therefore, the main objective of this project is to identify mutations, genes, molecular mechanisms, and pathways that control mastitis and then develop selection tool that evaluate heifers for mastitis.ġ. We also can understand the biology of mastitis resistance development and how we can prevent or minimize the number of incidences of mastitis in dairy farm. We can use sequencing and genotyping technologies to discover mutations that accurately predict the genomic values for diseases such as mastitis. There is a need for genetic selection tool that can predict the genomic value of young animals (i.e., heifers) to resist mastitis in future lactation seasons. This high cost is due to reduction in the milk income loss, treatment, culling losses and discarded milk costs. The estimated cost of each case is from $155 to 224 in a dairy herd (Bewlwy et al, 2017. ![]() The costliest disease in the dairy industry is mastitis. Furthermore, veterinary treatments raise the public concerns regarding animal welfare, food safety and antimicrobial use. ![]() agriculture economy experiences a significant increase in cost due to diseases of livestock and aquaculture animals by more than $6 billion each year that is negatively affecting the profitability as well as trade opportunities and market competition. Research project Title: Novel Genomic Tool to Improve Mastitis Resistance in Dairy Cattle Investigating the Organizational Arrangements Governing Sustainable Groundwater Management in California: The Role of Underrepresented Communities in Shaping the Future of Water Management in California Virtual Farm Tours: Investigating the Impacts on Happiness Use of Essential Oil in Poultry Feed: The Overall Impact in Gut Microbiome and Health Virtual Event Experiences and Well-Being: Comparing Multimedia Videos and VR Using Physiological Sensors Transgender Athlete Participation in Collegiate Sport The Effect of Yeast Selection on the Chemical and Sensory Properties of Hard Ciderįrom Waste to Plant Food – Evaluating the Fertilizer Value of Algae Recovered from Municipal Wastewater Treatment Plants Novel Genomic Tool to Improve Mastitis Resistance in Dairy Cattle College of Architecture & Environmental DesignĬollege of Agriculture, Food & Environmental Sciences (CAFES) Abo Ismail College of Agriculture, Food & Environmental Sciences Selected students will work with faculty during Winter and Spring quarters (10 hrs/week) and receive a $2,000 quarterly stipend ($4,000 total) distributed via financial aid for their time gaining research experience and participating in professional development events within the BEACoN Program.Īpplications for the 2023 cohort have closed. The BEACoN Research Mentoring Program, run by the Office of University Diversity & Inclusion, exists to educate, empower, and advocate for underrepresented students and provide them with funded undergraduate research opportunities working one-on-one with faculty.
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