Assessment of the risk factors associated with coliform mastitis among the pastoral herds: towards improving the quantity and quality of cow milk production in Nigeria

Daniel Makolo; A.B. Suleiman

doi:10.15625/2615-9023/21422

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Authors

D. Makolo Baze University, Abuja
A.B. Suleiman Department of Microbiology, Ahmadu Bello University, Zaria, Nigeria

DOI:

https://doi.org/10.15625/2615-9023/21422

Keywords:

Risk Factors, Coliform Mastitis, Pastoral Herds, Escherichia coli, Klebsiella pneumoniae

Abstract

Mastitis is a highly significant disease in dairy cattle, with significant economic implications such as decreased milk production, increased treatment, labour, and veterinary costs. While various contagious and environmental pathogens can cause mastitis, coliform bacteria are the most common cause of fatal mastitis in all types of production systems. Unlike many of the common contagious mastitis pathogens, Escherichia coli, genus Klebsiella and Enterobacter are opportunistic bacteria found in faeces and are present in even the most well-managed dairy environments. These coliforms can invade and cause mastitis through various routes, including hematogenous or percutaneous routes, but the most common route is through the teat canal. Therefore, it is necessary and meaningful to conduct a study to assess the risk factors associated with coliform-caused mastitis among pastoral herds in Nigeria. In this study, 147 lactating cows from 30 pastoral herds were investigated. California Mastitis Test Reagent was used for the detection of subclinical mastitis from the milk samples, while physical inspection and palpation of the udder were used for the detection of clinical mastitis among the studied cows from the pastoral herds. Structured questionnaires were used to assess the risk factors predisposing the pastoral herds to coliform-caused mastitis. The results obtained revealed that 29 (19.7%) of cows investigated were positive for subclinical mastitis and 13 (8.8%) of the mastitis-positive milk samples harboured coliform bacteria (E. coli and Klebsiella pneumoniae). The results of the risk factors analysis revealed a significant relationship (P = 0.00) between poor hygienic methods of rearing, milking cows and improper manure management, and mastitis caused by coliform bacteria among the pastoral herds. Therefore, improved hygienic methods of rearing, milking and proper manure management of the cows will drastically reduce the increasing prevalence of mastitis caused by coliforms among the pastoral herds in Nigeria.

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References

Chauhan R. S., Malik Y. S., Saminathan M. & Tripathi B. N., 2024. Immunopathology of Mastitis. In Essentials of Veterinary Immunology and Immunopathology. Singapore: Springer Nature Singapore. pp. 373–403. doi: 10.1007/978-981-99-2718-0_11

Elbayoumy M. K., Allam A. M., Ghazy A. A. & Nasr S. M., 2024. Advances in Controlling Bacterial Mastitis in Dairy Cows. Egyptian Journal of Veterinary Sciences, 55(1): 1–21. doi: 10.21608/ejvs. 2023.201158.1467

Hemme T. & Otte J., 2010. Status and prospects for smallholder milk production: a global perspective, pp. 181.

Hogan J. & Smith K. L., 2003. Coliform mastitis. Veterinary research, 34(5): 507–519.

Maji C., Patel N. R., Suthar A. & Das B., 2024. Animal welfare and public health in relation to milk hygiene. In The Microbiology, Pathogenesis and Zoonosis of Milk Borne Diseases: 359−385.

Makolo D., Suleiman A. B., Olonitola O. S., Bello M. & Ahmadu I., 2020. Genotypic identification of coliforms isolated from cases of subclinical mastitis among pastoral herds in parts of Kaduna State, Nigeria. African Journal of Clinical and Experimental Microbiology, 21(2):

114–122. doi: 10.4314/ajcem.v21i2.5

Makolo D., Suleiman A. B., Olonitola O. S., Bello M., Ahmadu I., Awulu F. O., ... & Itua M. P., 2019. Prevalence of mastitis in lactating bovines and associated coliforms among selected pastoral herds in parts of Kaduna State, Nigeria. Academic Journal of Life Sciences, 5(1): 1−9. doi: 10.32861/ajls.51.1.9

Mbuk E. U., Kwaga J. K. P., Bale J. O. O., Boro L. A. & Umoh J. U., 2016. Coliform organisms associated with milk of cows with mastitis and their sensitivity to commonly available antibiotics in Kaduna State, Nigeria. Journal of Veterinary Medicine and Animal Health, 8(12): 228−236. doi: 10.5897/JVMAH2016.0522

Mehrzad J., Duchateau L., Pyörälä S. & Burvenich C., 2002. Blood and milk neutrophil chemiluminescence and viability in primiparous and pluriparous dairy cows during late pregnancy, around parturition and early lactation. Journal of Dairy Science, 85(12): 3268–3276. doi: 10.3168/jds.S0022-0302(02)74415-9

Nayak J. B., Anjaria P., Chaudhary J. H. & Brahmbhatt M. N., 2024. General introductory aspects of milk-borne zoonosis. In The Microbiology, Pathogenesis and Zoonosis of Milk Borne Diseases, pp. 209–229. doi: 10.1016/ B978-0-443-13805-8.00005-3

Nery Garcia B. L., Dantas S. T. A., da Silva Barbosa K., Mendes Mitsunaga T., Butters A., Camargo C. H. & Nobrega D. B., 2024. Extended-Spectrum Beta-Lactamase-Producing Escherichia coli and Other Antimicrobial-Resistant Gram-Negative Pathogens Isolated from Bovine Mastitis: A One Health Perspective. Antibiotics, 13(5): 391. doi: 10.3390/ antibiotics13050391

Panchal J., Patel A., Pate S. & Goswami, D., 2024. Understanding mastitis: Microbiome, control strategies, and prevalence–A comprehensive review. Microbial Pathogenesis: 106533. doi: 10.1016/ j.micpath.2023.106533

Pehrsson P. R., Haytowitz D. B., Holden J. M., Perry C. R. & Beckler D. G., 2000. USDA’s national food and nutrient analysis program: food sampling. Journal of food composition and analysis, 13(4): 379–389. doi: 10.1006/jfca.1999.0867

Rodriguez Z., Cabrera V. E., Hogeveen H. & Ruegg P. L., 2024. Economic impact of treatment of subclinical mastitis in early lactation using intramammary nisin. Journal of Dairy Science, 107(7):

4634–4645. doi: 10.3168/jds.2023-24311

Sarmukaddam S. B., & Garad S. G., 2004. On Validty of Assumptions while Determining Sample Size. Indian journal of community medicine, 29(2): 87.

Sharma N., Upadhyay S. R., Hussain K., Soodan J. S. & Gupta S. K., 2007. Role of antioxidants in udder health: a review. Intas Polivet, 8(2): 284–295.

Shittu A., Abdullahi J., Jibril A., Mohammed A. A. & Fasina F. O., 2012. Sub-clinical mastitis and associated risk factors on lactating cows in the Savannah Region of Nigeria. BMC Veterinary Research, 8(1): 134. doi: 10.1186/1746-6148-8-134

Suleiman A. B., Makolo D., Ahmad A. E., Tahir M. I. & Dikwa K. B., 2019. Phenotypic Characterization of Staphylococcus species isolated from cases of bovine mastitis in parts of Plateau State, Nigeria. Nigerian Journal of Microbiology, 33(1): 4587–4596.

Sumathi B. R., Gomes A. R. & Krishnappa G., 2008. Antibiogram profile based dendrogram analysis of Escherichia coli serotypes isolated from bovine mastitis. Veterinary World, 1(2): 37.

Tabassum T., Hossain M. S., Ercumen A., Benjamin-Chung J., Abedin M. F., Rahman M., ... & Mahmud Z. H., 2024. Isolation and characterization of cefotaxime resistant Escherichia coli from household floors in rural Bangladesh. Heliyon, 10(14). doi: 10.1016/j.heliyon. 2024.e34367

Umoh V. J. & Whong C. M. Z., 2015. Assessment of bovine raw milk obtained from selected farms in Zaria environs Nigeria for toxigenic strain of Escherichia coli. Academic Journal of Life Sciences, 1(1): 8–13.

Yahuza M. L., 2001. Smallholder dairy production and marketing constraints in Nigeria. Smallholder dairy production and marketing-Opportunities and constraints, pp. 201.

Assessment of the risk factors associated with coliform mastitis among the pastoral herds: towards improving the quantity and quality of cow milk production in Nigeria

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