The Growth Performance and Costs of Rearing Friesian Crossbreed Dairy Young Stock in Malaysian Commercial Farm

: The important elements in rearing dairy young stock are good farm management, proper growth and optimal costs of rearing. A survey on these important elements was conducted at two commercial farms in Johor and Sabah in 2019. The farm herd size is 214 heads and 2,221 heads with 163,682 litres and 4.2 mil. litres of milk production, in Johor and Sabah respectively. In addition, the body weight data of 188 dairy young stock was collected and analysed to determine the growth performance using polynomial growth function. The results showed the two farms have youngstock with different Friesian blood levels (60% and 70% in Johor, and 87.5% in Sabah) with different growth performance. The average weight of dairy young stock with 60%, 70% and 87.5% Friesian blood levels at birth were 21.31±3.70kg, 22.33±2.23kg and 26.55±2.68kg, respectively, while average weight at 3 months of age were 45.00±7.07kg, 55.57±8.36kg and 75.84±12.54kg, respectively. Heifers with 87.5% Friesian blood levels was bred at 15 months of age (444kg) while heifers with lower Friesian blood levels was bred 6 months later (250kg). The average rearing (feed) cost was RM4,932 (USD1,194)/heifer. The findings of this study can give awareness and insights in the performance and costs of rearing crossbreed dairy young stock in tropics.

[1]  N. Suhaimi,et al.  Estimating Dairy Young Stock Rearing Cost of Different Management Systems in Keningau, Sabah, Malaysia , 2021, Asian Journal of Dairy and Food Research.

[2]  M. De Marchi,et al.  Effect of Body Weight and Growth in Early Life on the Reproductive Performances of Holstein Heifers , 2021, Agriculture.

[3]  Joao H. C. Costa,et al.  Effects of Housing System on Dairy Heifer Replacement Cost From Birth to Calving: Evaluating Costs of Confinement, Dry-Lot, and Pasture-Based Systems and Their Impact on Total Rearing Investment , 2020, Frontiers in Veterinary Science.

[4]  Hyun-Jeong Lee,et al.  Models Describing Growth Characteristics of Holstein Dairy Cows Raised in Korea , 2020 .

[5]  K. Dhuyvetter Dairy replacement heifer economics , 2020, American Association of Bovine Practitioners Conference Proceedings.

[6]  S. Kasavan,et al.  Pelaksanaan Amalan Pertanian Baik (GAP) dalam kalangan pesawah padi di Sekinchan, Sabak Bernam, Selangor , 2020 .

[7]  R. White,et al.  Breeding animals to feed people: The many roles of animal reproduction in ensuring global food security. , 2020, Theriogenology.

[8]  R. Bouraoui,et al.  Relationship between Body Condition Score, Milk Yield, Reproduction, and Biochemical Parameters in Dairy Cows , 2019, Lactation in Farm Animals - Biology, Physiological Basis, Nutritional Requirements, and Modelization.

[9]  D. Grace,et al.  Dairy science and health in the tropics: challenges and opportunities for the next decades , 2019, Tropical Animal Health and Production.

[10]  A. Birinci,et al.  Determination of factors affecting dairy cattle: a case study of Ardahan province using data mining algorithms , 2019, Revista Brasileira de Zootecnia.

[11]  M. Pérez-Cabal,et al.  Influence of age at first calving in a continuous calving season on productive, functional, and economic performance in a Blonde d'Aquitaine beef population. , 2018, Journal of animal science.

[12]  K. Marshall,et al.  Using body measurements to estimate live weight of dairy cattle in low-input systems in Senegal , 2018 .

[13]  A. Rifin,et al.  Factors Affecting Profitability on Animal Feed Companies in Indonesia , 2017 .

[14]  G. Opsomer,et al.  Innovative look at dairy heifer rearing: Effect of prenatal and post‐natal environment on later performance , 2017, Reproduction in domestic animals = Zuchthygiene.

[15]  P. VanRaden,et al.  Genomic evaluation of age at first calving. , 2017, Journal of dairy science.

[16]  J. Rushton,et al.  An empirical analysis of the cost of rearing dairy heifers from birth to first calving and the time taken to repay these costs , 2017, Animal : an international journal of animal bioscience.

[17]  A. De Vries Economic trade-offs between genetic improvement and longevity in dairy cattle. , 2017, Journal of dairy science.

[18]  M. Akins Dairy Heifer Development and Nutrition Management. , 2016, The Veterinary clinics of North America. Food animal practice.

[19]  A. Sadeghi-Sefidmazgi,et al.  Effect of calf birth weight on milk production of Holstein dairy cattle in desert climate , 2016 .

[20]  V. Cabrera,et al.  Dairy farm profit according to the herd size, milk yield, and number of cows per worker. , 2016 .

[21]  A. M. Okeyo,et al.  Use of body linear measurements to estimate liveweight of crossbred dairy cattle in smallholder farms in Kenya , 2016, SpringerPlus.

[22]  J. Rushton,et al.  A Study of Dairy Heifer Rearing Practices from Birth to Weaning and Their Associated Costs on UK Dairy Farms , 2015 .

[23]  C. Do,et al.  The Effect of Age at First Calving and Calving Interval on Productive Life and Lifetime Profit in Korean Holsteins , 2013, Asian-Australasian journal of animal sciences.

[24]  A J Heinrichs,et al.  Identifying efficient dairy heifer producers using production costs and data envelopment analysis. , 2013, Journal of Dairy Science.

[25]  J. Brouwer,et al.  Feeding management and farmer concerns about constraints to production on Malaysian dairy farms. , 2013 .

[26]  M. M. Uddin,et al.  Milk Production Trends and Dairy Development in Bangladesh , 2011 .

[27]  L. G. Albuquerque,et al.  Modeling of average growth curve in Santa Ines sheep using random regression models , 2011 .

[28]  Vickneswaran Jeyabalan,et al.  Individual Cow Recording and Analysis System for Small Scale Dairy Farmers in Malaysia , 2010 .

[29]  Our Medical Biochemistry Correspondent Milk Production , 1968, Nature.