Effect of Season and Lactation Number on Milk Production of Holstein Friesian Cows in Kabul Bini-Hesar Dairy Farm ()
1. Introduction
Afghanistan is an agricultural country where the majority of its people are engaged in agriculture and livestock [1]. The majority of the Afghan population lives in rural areas, where poverty and deprivation are the most severe. Since almost all rural households depended directly or indirectly on agriculture and livestock and they earn their daily income from these sectors [2]. Cattle keeping in Afghanistan has been promoted since ancient times and cattle are widely used for its products such as meat, milk and power. However, the cattle performance being considerably low in the country might be due to improper nutrition and management or weather condition. Therefore, their carcass yield is low, the duration of lactation is short and the amount of milk they produce during their lactation periods is not enough. However, the role of the cow is considered valuable and strengthening the national economy [3]. Climate factors such as air temperature and humidity often limit animal performance [4], like reduction in milk yield, feed intake [5], intestinal metabolisms and reproduction [6]. Milk yield in a dairy cow is closely related to the animal’s genetic merits and environmental factors [7] [8]. Among the environmental factors, the roles of managements, nutrition and hygiene seem to be crucial [9]. Moreover, [10] and [11] reported that the animal breed, stage of lactation, parity and milking frequency also influence performance production.
Afghanistan is characterized by having a high range of maximum and minimum temperature. Afghanistan is an agricultural landlocked country where majority of its population is engaged in agriculture and livestock husbandry [12]. The Hindu Kush Mountains which runs from northeast to southwest, divides the country into different natural regions with totally different temperatures and precipitation rates [13]. The climate varies considerably between arid and semiarid with hot summers and cold winters. The lowest mean annual precipitation occurs in the southwestern plateau region and the highest precipitation occurs in the northeastern Hindu Kush Mountain’s foothill regions ranging from about 30 mm to 1000 mm respectively. Furthermore, the mean annual temperature is different between the regions ranging from 0.7˚C in Hindu Kush mountains to 23.3˚C toward southern plateau [12] [13]. The climate change in Kabul province is of course extremely continental, cold winters, and dry hot and dusty summers. The temperature changes little from day to day. The monthly average temperature in Kabul province is in Jan-2.3, Feb 0.7, Mar 6.3, Apr 12.8, May 17.3, Jun 22.8 Jul 25.0, Aug 24.1, Sep 19.7, Oct 13.1, Nov 5.9 and Dec 0.6 respectively [12].
Dairy cows need suitable temperatures of between 5˚C and 25˚C. At temperatures above 26˚C, the cow reaches a point where she cannot cool herself and suffers from heat stress [6]. In order to increase the yield level, it is necessary to optimize the environmental condition and to improve the genetic structure of the animals. In order to enhance productivity of a dairy animal, it is necessary to develop an understanding of the factors affecting its milk production [7]. The objective of this study was to determine the effect of Season and lactation number on Milk production of Holstein Friesian Cows in Kabul Bini Hesar Dairy Farm, Afghanistan.
2. Materials and Methods
Bini hesar dairy farm which is located in Kabul city is the only governmental farm established in 1958 by the aid of France for improvement of genetic potential of the local dairy cattle breeds in Afghanistan. Currently about 80 Holstein-Friesian cows were kept for milk production and breeding. The genetic materials were collected from the bulls were send to the breeding stations around the country. In this research, 15 Holstein cows were studied to evaluate the annual quantity of milk production in different season and lactation number in Bini Hesar Dairy Farm. These cows were selected based on their date and the number of calving obtained from the farm record book. The daily milk production data of the cattle which was recorded within the years 1392-1393 (correspondent to 2013-2014) was analyzed based on the four-season spring (April to June), summer (July to September), autumn (October to December) and winter (January to March) as previously described [14]. Moreover, for further information about the management and nutritional conditions, related questionnaires and individual observation were done. Without taking into consideration the age and body condition of the cows, management and raising. Feeding conditions for all cows were the same but in the winter season all the cows were fed with concentrate (3 - 4 kg cotton cake + silage and dried fodder) and in summer season the cows were taken into the pasture for grazing. Water was available for all cow ad libitum. It’s obvious that we were faced with many limitations during this research such as lack of synchronized calving cattle, absence of enough cows in the same age and lack of such a dairy farm in Kabul province. Furthermore, transportation and other facilities for doing research as well.
Data were statistically analyzed by analysis of variance (ANOVA) and Tukey test by using SPSS software 16.0 (SPSS Inc., Chicago, IL) for finding the difference between the seasons. The significance level adopted was p < 0.05.
3. Results
3.1. Effect of Season on Milk Yield
By considering the cows’ lactation stage, the effect of season was significant on milk yield of dairy cows. The average milk production of Holstein Frisian breed in different seasons was estimated and it was noticed that the highest average of 18,454.95 ± 33 L milk production in spring season followed by 17,060.85 ± 34.5 L in summer and lowest in winter, as 16,398.45 ± 31.5 L respectively. The effects of season on the milk production are presented in Table 1.
3.2. Effect of Lactation Number on Average of Daily Milk Yield
The average daily milk yield of Holstein cows at different lactation number are presented in Table 2. It was found that the average daily milk yield of cows at 1st, 2nd and 3rd lactation were 12.04 ± 0.7, 13.24 ± 0.8, 14.10 ± 0.6 L respectively. Statistical analysis showed that there was significant difference (p < 0.05) within the daily milk yield of different lactations. Milk yield increased gradually from 1st to 3rd lactation. The highest milk yield was recorded in 3rd lactation (14.10 ± 0.6 L) and lowest was in 1st lactation (12.04 ± 0.7 L). Moreover, lactation number had significant effect (p < 0.05) on daily milk yields of dairy cows.
Table 1. Average of milk production according to season of year.
*Data were represented as mean ± SE.
Table 2. Average of daily milk production according to lactation number.
*Minimum milk yield; ‡Maximum milk yield.
4. Discussion
We found that season of the year had significant effects on milk production of dairy cattle in Bini Hesar Dairy Farm. The similar results were previously reported [8] [15] [16]. The season had a significant effect on the milk yields, the highest average of milk production was obtained during the spring season followed by summer and lowest in winter. The results of this study align with [17] who reported the highest milk production was obtained during rainy season, 3350.00 kg, followed by summer 3116.70 kg while the lowest average milk production was obtained in winter 2925.50 kg. [18] also reported a similar result more milk was produced during the spring than winter season in all breeds. Milk yield increment during the spring season is probably due to favorable air temperature and fresh fodder availability. Although dietary regimen of dairy cow was similar in spring and summer seasons, milk production was not as much as spring season. [17] reported that seasonal variation of the milk yield is due to the milk secretion stimulation by the green fodder, which is fed to cows during the rainy and summer seasons of the year and number of cows milked. Moreover, lower milk production in summer and winter seasons are might be due to air temperature, because the temperature is lower or higher than the thermoneutral comfort zoon for cattle. [6] reported that dairy cows under minimum or maximum air temperature than suitable temperature not only reduce milk quantity but also effect on milk protein and fat.
Multiple studies have been distributed the effect of lactation number on milk yield of dairy cows. Basically, all the studies have established that milk yield increases with increasing lactation number [19] [20]. The present study result showed lower milk yield in 1st lactation cows, in the early lactation, the animals are not in the productive stage and they remain in growing stage and at the same time their mammary gland and vein are not well developed at that stage [21]. Also, current study results exhibited greater milk yield in the 3rd lactation. This present study results agreed with [22] and [21] they have reported generally maximum milk yield is expected when the cows have grown fully at about 3rd of 4th lactation. In previous report, 305-day milk yield of cows with 2 lactations was 17% greater than that of first lactation cows, and third lactation cows produced 5.5% more milk than second lactation cows [20]. Furthermore [23] also reported in cows as lactation number from calving increased the total milk yield increased. Overall our current results exhibited the increased milk yield with increasing lactation number, which may be due to increasing development and size of the udder with a resulting increase of secretory cells [24]. Other reasons for high milk yield may be increased parity, which plays a significant role in the control of the tissue mobilization between the primiparous and multiparous cows and includes increasing body weight of dairy cows over that of first lactation [25].
5. Conclusion
From the above findings, it may be concluded that seasonal variation and lactation number affect the milk yield of dairy cows. So, the milk yield of dairy cows in Bini Hesar Dairy Farm varies in different seasons and lactation numbers. The milk yield of dairy cows in the Bini Hesar Dairy Farm is at a high peak in spring compared to summer and winter seasons. Also, the milk yield of dairy cows is high at 3rd lactation and low at 1st lactation. The milk yield of Holstein dairy cows is at a low level in the Bini Hesar Dairy Farm. Food with good quantity and quality increases the milk yield of dairy cows.
Acknowledgements
The authors would like to thank the head and staff of Bini Hesar Dairy Farm for allowing us to use the record data of their dairy farm.