Effect of Dietary Fat Supplementation with Different Fatty Acid Profiles on Milk Fat Depression in Dairy Cattle PDF Download
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Author: Ming He
Publisher:
ISBN:
Category :
Languages : en
Pages : 141
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Author: Ming He
Publisher:
ISBN:
Category :
Languages : en
Pages : 141
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Author: Reilly Pierce
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Dietary fat is an important component on the diets of lactating dairy cattle. Concentration of dietary fat can be increase by feeding oilseeds or enriched fat supplements which allows cattle to partition energy differently which can lead to increases in milk fat concentration, milk fat yield, or milk yield. One common oilseed fed to dairy cattle is cottonseed, as it is high in fiber but also relatively high in fat compared to other common feedstuffs. Fat supplements are very high in fat (>95%) but are more expensive so dairy producers often strike a balance and may feed both fat supplements and oilseeds to dairy cattle. The first objective of this thesis was to investigate the effects of cottonseed on milk production in dairy cattle. Previous research feeding cottonseed fed inclusion rates of cottonseed in excess of 15% of dry matter intake (DMI), but cattle were producing less milk and consuming less so therefore, the actual mass of the cottonseed consumed may not be as high as contemporary dairy cattle. This thesis fed cottonseed at up to 9.9% of DMI and found that cottonseed inclusion into the diets of multiparous cattle did not affect milk yield or milk composition but led to a decrease in DMI indicating that it could be safely fed to mature cows. In primiparous cattle, cottonseed inclusion induced milk fat-depression, indicating that the level of unsaturated fatty acids in the diet was greater than the biohydrogenation potential of the ruminal microbes of these animals. The second part of this thesis was to examine the effects of increased concentrations of an unsaturated fatty acid (cis-9 C18:1; oleic acid) in a prilled fat supplement on the milk production and milk composition in dairy cows. Previous research suggests that oleic acid may increase digestibility of dietary fatty acids and consequently increase the amount of preformed fat for milk fat synthesis. This experiment indicated that fat supplementation in multiparous cows may decrease milk yield and DMI but was no effect of increased levels of oleic acid on other production components in dairy cattle. Further investigation of the data collected for each half of the thesis is required to determine the effects on the respective methods of fat supplementation on fatty acid digestibility in lactating dairy cattle.
Author: Silvia G. Onetti
Publisher:
ISBN:
Category :
Languages : en
Pages : 224
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Author: Tamene Bayisa
Publisher: GRIN Verlag
ISBN: 3668660549
Category : Medical
Languages : en
Pages : 31
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Seminar paper from the year 2017 in the subject Veterinary medicine, Jimma University College of Agriculture and Veterinary Medicine, language: English, abstract: Objective of this review is focus on effect of feeding protected fat and protected protein on milk yield and its composition and how these nutrients are protected. Many researchers in this review investigate that the responses are highly dependent on the type of fat and protein supplement and the stage of lactation. A higher milk response was observed with saturated than with unsaturated fat supplements. Diet with added fat increase milk production compared with a control diet without added fat in cows. Feeding of bypass fat resulted in significant increase in milk yield and Fat Corrected Milk yield particularly in early lactation. The source of Protected fat are (origin (animal, plant, processed or whole oilseeds, calcium salts) and Cereal Grains such as corn, wheat, Barly, oil seeds, sun flower, cotton seed, soybeans and canola). The supplementation of protected protein in the diets of lactating animals increases the milk yield due to proportionate increase in the supply of amino acids to the host postruminally Milk yield in cows fed protected methionine for the whole experimental period was numerically higher than in cows of the other groups. However, the difference was not statistically significant .At the centeral high land of Ethiopia the Treatment of shredded wheat and barley straw with urea, molasses, salt and water prior to feeding is a technology that should be considered . Cows with excessive body tissue mobilisation at this stage may take up to 20 weeks to regain a positive energy balance status. Key words milk yield, composition ,protected fat , protein protected
Author: Martin P. Yurawecz
Publisher: The American Oil Chemists Society
ISBN:
Category : Medical
Languages : en
Pages : 496
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Interest in conjugated linoleic acid (CLA) has increased substantially in recent years. As one would expect with any evolving scientific area, research to date has provided more questions than answers. This book provides an up-to-date report of work that is still in progress. The editors document the state of knowledge about CLA as the twentieth century draws to a close.
Author: INRA
Publisher: BRILL
ISBN: 908686872X
Category : Medical
Languages : en
Pages : 639
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Book Description
The INRA Feeding System for Ruminants has been renewed to better address emerging challenges for animal nutrition: prevision of productive responses, product quality, animal health and emissions to the environment, in a larger extent of breeding contexts. The new system is mainly built from meta-analyses of large data bases, and modelling. The dietary supply model accounts for digestive interactions and flows of individual nutrients, so that feed values depend on the final ration. Animal requirements account for variability in metabolic efficiency. Various productive and non-productive animal responses to diets are quantified. This book presents the whole system for dairy and meat, large and small ruminant production, including specificities for tropical and Mediterranean areas. The first two sections present biological concepts and equations (with their field of application and statistical accuracy) used to predict intake (including at grazing) and nutrient supply (Section 1), animal’s requirements and multiple responses to diets (Section 2). They apply to net energy, metabolisable protein and amino acids, water, minerals and vitamins. Section 3 presents the use of concepts and equations in rationing with two purposes: (1) diet calculation for a given performance objective; and (2) prediction of the multiple responses of animal to diet changes. Section 4 displays the tables of feed values, and their prevision. All the equations and concepts are embedded in the fifth version of INRAtion® software for practical use.
Author: Jesse Lee Warntjes
Publisher:
ISBN:
Category :
Languages : en
Pages : 130
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Author: Eurídice Castañeda-Gutiérrez
Publisher:
ISBN:
Category :
Languages : en
Pages : 278
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Author: Callee McConnell
Publisher:
ISBN:
Category :
Languages : en
Pages : 238
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![Dietary Source and Availibility [i.e. Availability] of Fatty Acids to Manipulate Ruminal Protozoa, Metabolism of Fat, and Milk Fatty Acid Profile in Lactating Dairy Cows PDF](https://books.google.com/books/content/images/frontcover/DFdYtAEACAAJ?fife=w80-h100)
Author: Carine Reveneau
Publisher:
ISBN:
Category : Coconut oil
Languages : en
Pages : 152
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Abstract: With the increasing environmental concern for N excretion in the environment, the nutrition of dairy cows meets new challenges to maintain milk production while decreasing dietary protein. Various strategies to improve efficiency of N utilization in milk production have been developed. Decreasing protozoal abundance and the corresponding improvement of microbial protein efficiency could improve this efficiency of dietary protein utilization. The feeding of fat usually decreases the abundance of protozoa but can have detrimental effect on ruminal fermentation and milk fat production, thus needing further study to ascertain the potential benefits relative to potential detriments. In a first study, the effects of the availability of dietary fatty acids from cottonseed oil on ruminal metabolism and milk fat production were investigated. In our study, feeding a mix of pelleted and delinted cottonseeds appeared to modify ruminal fatty acid metabolic processes, decreasing the risk of milk fat depression and tending to increase dry matter intake and milk production over time compared with conventional or pelleted cottonseeds. In a second study, the effects of feeding Rumensin (R) in combination with animal vegetable (AV) fat or coconut oil were fed to six rumen-cannulated dairy cows. Using omasal collection, I measured microbial protein efficiency and nutrient digestibility. By feeding R to control the extent of amino acid deamination and combined with fat to control protozoal abundance, the efficiency of microbial protein synthesis might be improved in dairy cows. Animal vegetable fat can be biohydrogenated in the rumen and decrease its effectiveness, but diets supplemented with coconut oil (CO; rich in medium chain FA) are more consistent in inhibiting protozoa. Total protozoal abundance was decreased by CO supplementation for all genera expect for Epidinium, which maintained its numbers but was decreased by AV+R. The low acetate to propionate ratio for CO was associated with a decreased ruminal NDF digestibility. There was no effect of diet on efficiency of microbial protein synthesis. DMI was 5 kg/d lower with CO. Milk production was lower when cows were fed CO than AV and when diets contained R. Milk fat depression (MFD) occurred with AV+R and CO. The decrease in protozoal abundance was not associated with an increase in microbial protein efficiency. The detrimental effect of CO on DMI affected the energy available for milk synthesis Omasal flows of FA were characterized by an increased percentage of trans 18:1 for AV and CO diets, a higher percentage of 12:0 and 14:0 for CO, and higher cis 18:1 for AV. Milk FA composition reflected the changes observed for omasal FA digesta flow. The de novo FA synthesis in the mammary gland was inhibited with R and F supplementation. Higher trans 18:1 FA in milk fat was also observed for AV and CO. The feeding of CO did not prevent MFD, and no interactions between R and S were detected. The feeding of CO did compromise ruminal biohydrogenation, with accumulation of trans 18:1 in the rumen and in milk fat.
