Major Causes of Calf Morbidity and Mortality in Smallholder Dairy Farms in Shashemene Town, Ethiopia
Abdela Edao
Oromia Agricultural Research Institute, Adam Tulu Agricultural Research Center, Batu, Ethiopia
Abdurahman Meribo
Shashemane Livestock and Fishery resources development Bureau, Ethiopia
DOI: https://doi.org/10.36956/njas.v3i2.375
Copyright and Licensing
The authors shall retain the copyright of their work but allow the Publisher to publish, copy, distribute, and convey the work.
NASS Journal of Agricultural Sciences publishes accepted manuscripts under Creative Commons Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0). Authors who submit their papers for publication by NASS Journal of Agricultural Sciences agree to have the CC BY-NC 4.0 license applied to their work, and that anyone is allowed to reuse the article or part of it free of charge for non-commercia. As long as you follow the license terms and original source is properly cited, anyone may copy, redistribute the material in any medium or format, remix, transform, and build upon the material.
Reproducing Published Material from other Publishers
It is absolutely essential that authors obtain permission to reproduce any published material (figures, tables or any extract of a text) which does not fall into the public domain, or for which they do not hold the copyright. Permission should be requested by the authors from the copyright holder. In order to avoid unnecessary delays in the publication process, you should start obtaining permissions as early as possible. If in any doubt about the copyright, apply for permission. The journal cannot publish material from other publications without permission.
In exceptional circumstances articles may be licensed differently. If you have specific condition (such as one linked to funding) that does not allow this license, please mention this to the editorial office of the journal at submission. Exceptions will be granted at the discretion of the publisher.
Abstract
A cross-sectional study was conducted to determine the major causes of calf morbidity and mortality in smallholder dairy farms and associated potential risk factors in Shashemene. A total of 187 calves from 46 farms were included in the present study. The overall crude morbidity and crude mortality rates were 27.8% and 6.4%, respectively. The most frequent disease syndrome was diarrhea with incidence rate of 28(15%) followed by pneumonia 8(4.3%), Gastrointestinal tract (GIT) disorder 8(4.3%) and septicemia 5(2.7%). In addition skin lesion, navel ill and unidentified cases were encountered. The main causes of death were diarrhea 6(3.2%), Septicemia 2(1.1%), GIT disorder 2(1.1%), pneumonia 1(0.5%) and others 1(0.5%). The most important risk factors associated with morbidity and mortality were housing hygiene, floor condition and calf size in farm. Out of 187 calves examined for GIT parasites; 63(33.3%) were positive for nematode eggs. Prevalence of helminthes parasite increased with increasing age, showing higher prevalence (P<0.05) in calves above 2 months than in calves below 2 months of age. Besides, majority of the calves, 48(25.7%) were found positive for coccidian oocyst. In general; diarrhea, pneumonia and septicemia were the major causes of calf morbidity and mortality. Interms of risk factors housing hygiene, floor condition, calf size in the farms, age and breed were identified major role players. Therefore, identifying major causes and improving management practices and breed should be given to emphasis by advisory of smallholder dairy farms.
Keywords: Morbidity; Mortality; Smallholder; Dairy; Farms; Shashemene
References
[1] Sibanda, B., Dube, J. S., and Dube, A.B. (2014). Beef cattle development initiatives: a case of Matobo Resettlement farms in Zimbabwe. Global Journal of Animal Scientific Research, 2(3):197-204.
[2] Yayneshet, T. (2010). Feed resource availability in Tigrai Region, Northern Ethiopia, for Production of Export Quality Meat and Livestock. Ph.D Dissertation, Mekelle University, Ethiopia.
[3] DACA (2006). Standard veterinary treatment guide lines for veterinary Practice, 1:3-13.
[4] Zegeye, Y. (2003). Imperative and challenges of dairy production, processing and marketing in Ethiopia, 61-67.
[5] Ndambi, O. A., Hemme, T., and Latacz-Lohmann, U. (2007). Dairying in Africa Status and recent developments. Livestock Research for Rural Development 19 (111). Retrieved April 24, 2021, from http://www.lrrd.org/lrrd19/8/ndam19111.htm.
[6] Elsa, L., Sofia, V., Elvira, S., Maria, M., Mendes G., and André, M. (2012). Factors Influencing Livestock Productivity. Environmental Stress and Amelioration in Livestock Production, 3: 978-1007.
[7] Svensson, C., Lundborg, K., Emanuelson, U., and Olsson, S.O. (2003). Morbidity in Swedish dairy calves from birth to 90 days of age and individual calf level risk factors for infectious diseases, Preventive Veterinary Medicine, 58: 179-197.
[8] Singla, L.D., Gupta, M.P., Singh, H., Singh, S.T., Kaur, P., and Juyal, P.D. (2013). Antigen based diagnosis of Cryptosporidium parvum infection in cattle and buffalo faeces. Indian J. Anim. Sci. 83(1):37-39.
[9] Wudu, T., Kelay, B., Mekonnen, H.M. and Tesfu, K. (2008). Calf morbidity and mortality in smallholder dairy farms in Adea liben, districts of Oromia, Ethiopia Tropical Animal Health and Production, 40: 369-76.
[10] Razzaque, M. A., Bedair, M., and Abbas, S. (2009). Performance of pre-weaned female calves confined in housing and open environment hutches in Kuwait. Pak. Vet. J. 29(1):1-4.
[11] Abdullatief, E.M., Mansour, A. E., Abdelgadir, E. M., and Zubeir, E. l. (2014). Department of Dairy Production, Faculty of Animal Production, University of Khartoum, Sudan. Journal of veterinary medicine and animal health, 6(5): 145-153.
[12] Darsema, G. (2008). Major causes of calf mortality in dairy farm and two cattle ranches in western region, North Western Ethiopia. Ethiop. vet. j.12: 59-68.
[13] Bekele, M., Abudba, Alemayehu, R., Fufa, A. and Kasahun, A. (2009). Prevalence and incidence rate of calf morbidity and mortality and associated risk factors in small holder dairy farms in Hawassa, Southern Ethiopia, Ethiop. Vet .J. 13(2):59-68.
[14] Tizard, I. (1995). Veterinary Immunology, 4th ed. W. B. Saunders Company, Philadelphia.
[15] Heinrichs, A. J., and Radostits, O. M. (2001). Health and production management of dairy calves and replacement heifers. In: Radostits, O.M. (ed.), Herd Health, Food Animal Production Medicine, 3rd ed. Philadelphia, W. B. Saunders Company, 333- 395
[16] Faber, S.N., Faber, N.E., McCauley, T.C., and Ax, R.L. (2005). Effects of colostrum ingestion on locational performance. Prof. Anim. Sci. 21:4-25..
[17] Amoki, O.T. (2001). Management of dairy calves in Holeta area, central highlands of Ethiopia. Faculty of Veterinary Medicine, Addis Ababa University, Debre Zeit, Ethiopia, MSc thesis.
[18] Otte, M.J., and Chilonda, P. (2000). Cattle and Small Ruminant Production System in Sub-saharan Africa, a Systemic Review, FOA, Rome.
[19] Sisay, A., and Ebro, A. (1998). Growth performance of Boran and Their Seminal cross calves. Proceeding of 6th national conference of the Ethiopian society of animal production (ESAP), Addis Ababa, Ethiopia, 157-162.
[20] Hailemariam, M., Banjaw, K., Gebre-Meskel, T., and Ketema, H. (1993). Productivity of Boran cattle and their Friesian crosses at Abernossa Ranch, Rift Valley of Ethiopia .In Reproductive performance and pre-weaning mortality. Tropical Animal Health and Production, 25:239-48.
[21] Shiferaw, Y., Yohannes, A., Yilma, Y., Gebrewold, A., and Gojjam, Y. (2002). Dairy husbandry and health management at Holeta, Proceeding of the 16th Conference of the Ethiopian, Veterinary Association. Addis Ababa, Ethiopia, 103-119.
[22] Drewry, J.J., Quigley, J.D., Geiser, D.R., and Matthew, G.W. (1999). Effect of immunoglobulin G absorption in calves. Am. J. Vet. Res. 60: 609-614.
[23] Shirale, M., Meshram, D., and Khillare,K. (2003). Prevalence of Gastrointestinal Parasites in Cattle of Western Vidarbha Region. Veterinary World, 1 (2):45.
[24] Adem, H., and Anteneh, W. (2011). Occurrence of nematodiasis in Holstein Friesian dairy Breed, Journal of Veterinary Medicine and Animal Health, 3(1): 6-10.
[25] Ashutosh, W., Tanwar R., Singla, L., Eda S., Naveen, K., and Yogesh, K. (2011). Prevalence of gastrointestinal helminths in Cattle and buffaloes in Bikaner, Rajasthan, India. Veterinary World, 4 (9): 417-419.
[26] Wymann, M. N. (2005). Calf mortality and parasitism in peri-urban livestock production in Mali. Philosophisch-NaturwissenschaftlichenFakultat, der Universitat Basel, Ph D Thesis.
[27] Bendali, F., Bichet, H., Schelcher, F., and Sanna, M. (1999). The pattern of diarrhea in newborn calves in the southwest, France, Veterinary research, 30: 61-74.
[28] Wittum, T.E., and Perino, L.J. (1995). Passive Immune Status at Postpartum Hour 24 and Long Term Health Performance Calves. American Journal of Veterinary Research, 56: 1149-1154.