Milk yield, milk composition, and hepatic lipid metabolism in transition dairy cows fed flaxseed or linola.

The response of transition dairy cows to dietary supplementation with fat sources of various fatty acid profiles could affect hepatic fat metabolism differently. Twenty-eight Holstein cows were blocked for similar calving date 4wk before expected parturition to compare the effects of feeding sources of n-3 and n-6 fatty acids on milk production and composition, plasma metabolites, and liver parameters. Cows within each block were assigned to 1 of 3 isonitrogenous and isoenergetic diets: control with a source of calcium salts of palm oil (MEG; 1.1 and 2.6% of the dry matter in prepartum and postpartum diets, respectively); n-3 fatty acids supplied as whole flaxseed (WFL; 4.8 and 7.7% of the dry matter in prepartum and postpartum diets, respectively); and n-6 fatty acids supplied as whole linola (WLO; 4.8 and 7.7% of the dry matter in prepartum and postpartum diets, respectively). Diets were fed until wk 14 of lactation. Contrasts of WFL versus WLO and polyunsaturated fatty acids versus MEG were compared. Cows fed polyunsaturated fatty acids increased dry matter intake over time at a greater extent than those fed MEG, which resulted in enhanced energy balance. Cows fed MEG produced more milk compared with those fed polyunsaturated fatty acids, and there was no difference between those fed WFL and WLO. We found no effect on body condition score and body weight. Plasma concentrations of glucose, fatty acids, and BHB were similar among diets. There was no effect of diet on concentration of glycogen and activities of superoxide dismutase and glutathione peroxidase in the liver. We observed higher concentrations of hepatic lipids and triacylglycerol in cows fed MEG compared with those fed polyunsaturated fatty acids, and no difference between WFL and WLO. Hepatic catalase activity tended to be higher on wk 4 after calving for cows supplemented with WFL compared with those fed WLO. Feeding linoleic and linolenic acids as unprotected oilseeds increased dry matter intake over time at a greater extent for cows fed MEG, improved the energy status, and lowered hepatic lipids and triacylglycerol contents, which may contribute to enhance the health status of transition dairy cows.

Abomasal or ruminal administration of flax oil and hulls on milk production, digestibility, and milk fatty acid profile of dairy cows.

Four ruminally fistulated primiparous lactating Holstein cows were assigned to a 4 × 4 Latin square design to determine the effects of the site of administration (rumen or abomasum) of flax oil and flax hulls on diet digestibility and milk fatty acid profile of dairy cows. The treatments were 1) oil and hulls administered in the rumen and abomasal infusion of water (RUM/RUM), 2) oil and hulls infused in the abomasum (ABO/ABO), 3) oil administered in the rumen and hulls infused in the abomasum (RUM/ABO), and 4) oil infused in the abomasum and hulls placed in the rumen (ABO/RUM). Cows on the ABO/ABO and RUM/RUM treatments had the highest and lowest amounts of basal dry matter eaten, respectively. Higher dry matter digestibility was obtained when flax oil bypassed the rumen (ABO/ABO and ABO/RUM) compared with when flax oil was administered directly in the rumen (RUM/ABO and RUM/RUM). Apparent digestibility of ether extract was higher when flax hulls were administered in the rumen (RUM/RUM and ABO/RUM) compared with when flax hulls were infused in the abomasum (ABO/ABO and RUM/ABO). The lowest digestibility of acid detergent fiber and neutral detergent fiber was obtained when both flax products were added in the rumen, which may be attributed to the high amount of oil present in the rumen (7.8% of total dry matter input). The lowest yield of 4% fat-corrected milk was obtained for cows on the RUM/RUM treatment, probably as a result of lower dry matter intake and digestibility of fiber. Milk concentrations of protein, fat, total solids, and lactose were similar among treatments. Administration of oil and hulls in the rumen resulted in the highest concentrations of intermediate products of biohydrogenation and total trans fatty acids in milk fat compared with the other treatments. All ratios of n-6 to n-3 fatty acids in milk fat were lower than the 4 to 1 ratio recommended to improve human health. These results suggest that the presence of both flax oil and flax hulls in the rumen decreases 4% fat-corrected milk yield and digestibility but provides a desirable fatty acid profile of milk to enhance consumers' health.

Digestibilidade e metabólitos sanguíneos de vacas da raça Holandesa superovuladas que receberam Lac100® ou linhaça em grão como fontes de gordura / Digestibility and blood concentration of metabolites in superovulated dairy cows fed Lac100® or linseed as fat sources

Foram avaliados os efeitos de duas fontes de gordura, Lac100® (Yakult), fonte de ácido graxo ômega-6, e linhaça em grão (Linum usitatissimum) (LIN), fonte de ácido graxo ômega-3, sobre a digestibilidade aparente da matéria seca (DMS), proteína bruta (DPB), fibra em detergente neutro (DFDN), fibra em detergente ácido (DFDA) e extrato etéreo (DEE), e concentrações sanguíneas de HDL, LDL, VLDL, colesterol, triglicerídeos, glicose, cálcio, fósforo, N-ureico e progesterona. Foram utilizadas 10 vacas da raça Holandesa em lactação, distribuídas nos dois tratamentos, em um delineamento estatístico inteiramente casualizado. Os animais alimentados com Lac100® apresentaram maiores valores de DFDN (57,44 por cento vs. 50,80 por cento) e DEE (77,70 por cento vs. 72,18 por cento) quando comparados aos alimentados com LIN. Os animais alimentados com Lac100® apresentaram maiores concentrações de LDL (111,00 vs. 45,46mg/dL), HDL (82,27 vs. 64,93mg/dL) e colesterol total (203,60 vs. 116,13mg/dL) e menor concentração de N-ureico (13,22 vs. 15,19mg/dL) em relação aos animais alimentados com linhaça em grão. As concentrações sanguíneas de glicose, cálcio, fósforo e progesterona não foram alteradas. Os resultados sugerem que a fonte de gordura na dieta modifica a DFDN e a DEE e, as concentrações sanguíneas de LDL, HDL e colesterol total em vacas em lactação.

The effect of two sources of fat, calcium salts of soybean oil, Lac100® (Yakult), a source of omega-6 fatty acids or whole flaxseed (Linum usitatissiumum), a source of omega-3 fatty acids were evaluated to determine the apparent digestibility of dry matter (DDM), crude protein (DCP), neutral detergent fiber (DNDF), acid detergent fiber (DADF), and ether extract (DEE); and blood concentrations of HDL, LDL, VLDL, cholesterol, triglycerides, glucose, calcium, phosphorus, N-urea, and progesterone. Ten lactating Holstein cows were allocated in two treatments and a completely randomized design was used. Cows fed Lac100® had higher values of DNDF (57.44 percent vs. 50.80 percent) and DEE (77.70 percent vs. 72.18 percent) compared to those fed flaxseed. Cows fed Lac100® had higher blood concentrations of LDL (111.00 vs. 45.46mg/dL), HDL (82.27 vs. 64.93mg/dL), and total cholesterol (203.60 vs. 116.13mg/dL) and lower N-urea (13.22 vs. 15.19mg/dL) compared to those fed flaxseed. Blood concentrations of glucose, calcium, phosphorus, and progesterone were similar between the treatments. These results suggest that dietary fat modifies DNDF and DEE and blood concentrations of LDL, HDL, VLDL, and total cholesterol in lactating dairy cows.

Digestibilidade e metabólitos sanguíneos de vacas da raça Holandesa superovuladas que receberam Lac100® ou linhaça em grão como fontes de gordura / Digestibility and blood concentration of metabolites in superovulated dairy cows fed Lac100® or linseed as fat sources

Foram avaliados os efeitos de duas fontes de gordura, Lac100® (Yakult), fonte de ácido graxo ômega-6, e linhaça em grão (Linum usitatissimum) (LIN), fonte de ácido graxo ômega-3, sobre a digestibilidade aparente da matéria seca (DMS), proteína bruta (DPB), fibra em detergente neutro (DFDN), fibra em detergente ácido (DFDA) e extrato etéreo (DEE), e concentrações sanguíneas de HDL, LDL, VLDL, colesterol, triglicerídeos, glicose, cálcio, fósforo, N-ureico e progesterona. Foram utilizadas 10 vacas da raça Holandesa em lactação, distribuídas nos dois tratamentos, em um delineamento estatístico inteiramente casualizado. Os animais alimentados com Lac100® apresentaram maiores valores de DFDN (57,44 por cento vs. 50,80 por cento) e DEE (77,70 por cento vs. 72,18 por cento) quando comparados aos alimentados com LIN. Os animais alimentados com Lac100® apresentaram maiores concentrações de LDL (111,00 vs. 45,46mg/dL), HDL (82,27 vs. 64,93mg/dL) e colesterol total (203,60 vs. 116,13mg/dL) e menor concentração de N-ureico (13,22 vs. 15,19mg/dL) em relação aos animais alimentados com linhaça em grão. As concentrações sanguíneas de glicose, cálcio, fósforo e progesterona não foram alteradas. Os resultados sugerem que a fonte de gordura na dieta modifica a DFDN e a DEE e, as concentrações sanguíneas de LDL, HDL e colesterol total em vacas em lactação.(AU)

The effect of two sources of fat, calcium salts of soybean oil, Lac100® (Yakult), a source of omega-6 fatty acids or whole flaxseed (Linum usitatissiumum), a source of omega-3 fatty acids were evaluated to determine the apparent digestibility of dry matter (DDM), crude protein (DCP), neutral detergent fiber (DNDF), acid detergent fiber (DADF), and ether extract (DEE); and blood concentrations of HDL, LDL, VLDL, cholesterol, triglycerides, glucose, calcium, phosphorus, N-urea, and progesterone. Ten lactating Holstein cows were allocated in two treatments and a completely randomized design was used. Cows fed Lac100® had higher values of DNDF (57.44 percent vs. 50.80 percent) and DEE (77.70 percent vs. 72.18 percent) compared to those fed flaxseed. Cows fed Lac100® had higher blood concentrations of LDL (111.00 vs. 45.46mg/dL), HDL (82.27 vs. 64.93mg/dL), and total cholesterol (203.60 vs. 116.13mg/dL) and lower N-urea (13.22 vs. 15.19mg/dL) compared to those fed flaxseed. Blood concentrations of glucose, calcium, phosphorus, and progesterone were similar between the treatments. These results suggest that dietary fat modifies DNDF and DEE and blood concentrations of LDL, HDL, VLDL, and total cholesterol in lactating dairy cows.(AU)

Short communication: effect of tannic acid on composition and ruminal degradability of bermudagrass and alfalfa silages.

We measured the effects of the addition of tannic acid on chemical composition and crude protein (CP) ruminal degradability of bermudagrass, cv. coast cross (Cynodon dactylon L.) and alfalfa (Medicago sativa L.) silages with nylon bags incubated in the rumen of two fistulated lactating cows. Silage pH was greater for alfalfa than for bermudagrass. The addition of tannic acid had no effect on silage pH. Ammonia N was greater in alfalfa than in bermudagrass silage. Treated and control silages had similar ammonia N concentrations. The percentage of CP that was solubilized at time 0 was lower for alfalfa than for bermudagrass silage. The addition of tannic acid decreased the portion of CP solubilized at time 0 and increased the potentially degradable fraction of CP. The potentially degradable fraction of CP was greater for alfalfa than for bermudagrass. There was an interaction of species and treatment; the disappearance rate of CP increased with tannic acid treatment of alfalfa but decreased with acid treatment of bermudagrass. The effective degradability of CP was similar for control and treated alfalfa but lower for treated than for control bermudagrass. Tannic acid treatment is effective in decreasing the rapidly soluble fraction of alfalfa and bermudagrass silages, which could be beneficial to the animal because it would decrease the excess of N in the rumen after feeding. Tannic acid treatment decreased CP degradability of bermudagrass silage but had no effect on alfalfa silage, suggesting that tannic acid concentration required to effectively decrease CP degradability differs among forages.