Effects of feeding nutritionally balanced rations on animal productivity, feed conversion efficiency, feed nitrogen use efficiency, rumen microbial protein supply, parasitic load, immunity and enteric methane emissions of milking animals under field condi

详细信息   

• 作者：M.R. Garga ; mrgarg@nddb.coop ; P.L. Sherasiaa ; B.M. Bhanderia ; B.T. Phondbaa ; S.K. Shelkea ; H.P.S. Makkarb
• 关键词：BUN ; blood urea N ; BW ; body weight ; Ca ; calcium ; CP ; crude protein ; DM ; dry matter ; FCE ; feed conversion efficiency ; FCM ; fat corrected milk ; INAPH ; Information Network for Animal Productivity and Health ; LRP ; local resource person ; ME ; metabolizable ener
• 刊名：Animal Feed Science and Technology
• 年：2013
• 期：44200
• 来源：Elsevier
• 类型：期刊

摘要

Milking animals produce milk commensurate with their genetic potential only when they are fed a nutritionally balanced ration in an amount that provides nutrients to express their genetic potential. As animals kept by smallholder farmers are rarely fed a balanced ration, a programme to feed balanced rations to animals of such farmers was launched in India. Based on their milk yield, the animals were categorized as: low (<8 kg/d), medium (8-12 kg/d) and high (>12 kg/d) yielders. Milk yield, milk fat and net daily income to milk producers were recorded before and after feeding a balanced ration. Nutritional status of animals showed that, for 71 % of animals¡¯, crude protein (CP) and metabolizable energy intakes were higher and, for 65 % of animals¡¯, calcium and phosphorus intakes were lower than requirements. Ration balancing improved milk yield by 2-14 % and its milk fat proportion by 0.2-15 % . Feed conversion efficiency, as kg of fat corrected milk (FCM)/kg of dry matter intake of buffaloes (n = 1131) before and after feeding balanced rations was 0.6 and 0.7, respectively, and in cows (n = 540) the values were 0.6 and 0.8. Dietary N secreted into milk increased from 0.16 to 0.25 and 0.16 to 0.19 in low and medium yielding cows and buffaloes, respectively. Rumen microbial CP synthesis also increased (P<0.05) by 36 and 38 % in cows and buffaloes, respectively. On feeding balanced rations, levels (mg/ml) of plasma immunoglobulins IgG, IgM and IgA increased from 14.48 to 22.11, 2.69 to 3.29 and 0.48 to 0.67, and the parasitic load was reduced from 168 to 81 eggs/g of faeces. Enteric CH4 emissions (g/kg milk yield) was reduced by 15-20 % (P<0.05) in these lactating animals. Results demonstrate that feeding nutritionally balanced rations increased milk production and reduced enteric CH4 emissions and N excretion from lactating cows and buffaloes. While implementation of a ration balancing programme under small holding systems is challenging, large scale use of this programme in tropical countries can help improve productivity of milking animals with available feed resources in an environmentally sustainable manner.