Abstract
The objective of the present study was to determine the plasma level of insulin-like growth factor-I (IGF-I) in relation to mammary blood flow and milk yield including biological variables of relevance to milk synthesis in two different types of crossbred Holstein cattle at 3 different stages of lactation. Eight heifers were 87.5% HF and eight 50% HF animals were selected for the experiments. The three stages of lactation tested were: early lactation (30 days postpartum), mid-lactation (120 days postpartum) and late lactation (210 days postpartum). Animals in each group were fed a concentrate and rice straw treated with 5% urea as the source of roughage throughout the experiments. In early lactation, mammary blood flow and milk yield of 87.5% HF animals were significantly higher than those of 50% HF animals. In mid- and late lactation, both mammary blood flow and milk yield showed a proportional decrease from the early lactating period of 87.5% HF animals. The trends for persistency were observed in 50% HF animals as for udder blood flow and milk yield throughout the experimental periods. The plasma glucose level of the 50% HF animals was significantly higher than those of 87.5% HF animals in both early and mid-lactation. The concentrations of arterial plasma free fatty acids (C16 to C18) were higher in 50% HF animals as compared with 87.5% HF animals in all periods of study. In early lactation, the concentration of plasma growth hormone (GH) of 87.5% HF animals was higher than those of the 50% HF animals, thereafter the mean level of plasma growth hormone declined in both mid- and late lactation. The concentration of plasma IGF-I of 50% HF animals was significantly higher than those of 87.5% HF animals in all stages of lactation. There were no differences among stages of lactation for the levels of plasma IGF-I, insulin and growth hormone in 50% HF animals. In 87.5% HF animals, the plasma levels of both IGF-I and insulin were lower in early lactating period while it showed an increase during mid- and late lactation. The present results indicated that the regulatory role for the higher mammary blood flow and milk yield during lactation in 87.5% HF are not mediated via the higher level of circulating IGF-I. Differences in mammary blood flow and milk yield between 50% HF and 87.5% HF animals are in part due to a higher concentration of circulating growth hormone. The lower level of circulating growth hormone in 50% HF animals would be regulated by higher levels of IGF-I, free fatty acid and glucose in plasma. (Asian-Aust. J. Anim. Sci. 2004. Vol 17, No. 3 : 343-348)
Highlights
Crossbred cattle between Bos taurus and Bos indicus have been exploited as an efficient tool for blending the adaptability of tropical cattle with the high milking potential of exotic breeds for increased milk production.there is still a need to answer the question of the type of crossbred cattle most suitable for the tropics and the management necessary for efficient dairy production in a hot climate
The present results indicated that the regulatory role for the higher mammary blood flow and milk yield during lactation in 87.5% HF are not mediated via the higher level of circulating Insulin-like growth factor-I (IGF-I)
Blood flow through the ruminant mammary gland is a major parameter controlling milk production and circulating factors affecting mammary blood flow may have pronounced effects on the rate of milk secretion
Summary
Crossbred cattle between Bos taurus and Bos indicus have been exploited as an efficient tool for blending the adaptability of tropical cattle with the high milking potential of exotic breeds for increased milk production.there is still a need to answer the question of the type of crossbred cattle most suitable for the tropics and the management necessary for efficient dairy production in a hot climate. Genetic potential for milk production of crossbred cattle has been considered, but many factors that limit milk production of tropical dairy cattle can affect the physiological signals received by the mammary gland. Blood flow through the ruminant mammary gland is a major parameter controlling milk production and circulating factors affecting mammary blood flow may have pronounced effects on the rate of milk secretion. It has been reported that milk yield of crossbred cattle containing 87.5% Holstein genetics decreased rapidly from mid to late lactation which coincided with the decrease in endogenous growth hormone and mammary blood flow during this time (Chaiyabutr et al, 2000b). An injection of exogenous bovine somatotropin (bST) showed an increase in both mammary blood flow and milk yield in late lactating 87.5% crossbred Holstein cattle (Tunwattana et al, 2003). The injection of bST elevated the level of plasma Insulin-like growth factor-I (IGF-I) and so considerable interest has been shown in the effect of IGF-I on mammary blood flow (Tunwattana et al, 2003)
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