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• W2406656449 abstract "TITLE : EVOLVING APPROPRIATE TIME OF FEEDING WITHOUT ALTERING THE FEED INGREDIENTS / FORAGE FOR ENHANCING RUMEN MICROBIAL BIOMASS IN CATTLE NAME : C. BANDESWARAN DEGREE TO WHICH SUBMITTED : Ph.D. (Animal Nutrition) CHAIRMAN : Dr. R. Karunakaran, Ph.D. DEPARTMENT : Animal Nutrition COLLEGE : Madras Veterinary College YEAR : 2010 UNIVERSITY : Tamil Nadu Veterinary and Animal Sciences University, Chennai – 51 A study was under taken to bring out a possible ruminal delivery of synchronized energy and protein to enhance ruminal microbial biomass in cattle by evolving appropriate time of feeding without altering the feed ingredients in four roughages (Napierbajra hybrid grass, sugarcane tops, sorghum stover and paddy straw) based feeding systems located in five agro-climatic zones of Tamilnadu. A survey with 120 farmers having low milk yielding dairy cattle in four roughage based feeding systems revealed that 53.3, 50.0, 53.3 and 36.7 per cent of farmers feed twice daily during morning and evening with Napier-bajra grass, sugarcane tops, sorghum stover and paddy straw respectively. Groundnut oil cake along with de-oiled rice bran were fed by 33.3, 20.0 23.3 per cent of farmers in the forenoon and evening in NB hybrid grass, sugarcane tops and paddy straw based feeding systems respectively. Only 26.7 per cent of farmers feed coconut oil cake along with de-oiled rice bran twice daily during forenoon and evening in sorghum stover based feeding system. In Napier-bajra hybrid grass based feeding system, the NB hybrid grass, groundnut oil cake, de-oiled rice bran were fed at 65.8, 8.8 and 25.4 per cent, respectively. In sugarcane tops based feeding system, the sugarcane tops, paddy straw, groundnut oil cake, de-oiled rice bran were fed in the proportion of 51.9, 25.2, 8.1 and 14.8 per cent, respectively. The sorghum stover, coconut oil cake and de-oiled rice bran were fed in the proportion of 71.8, 12.1 and 16.1 per cent respectively in sorghum stover based feeding system. The paddy straw, groundnut oil cake and de-oiled rice bran were fed in the proportion of 75.8, 8.0 and 16.2 per cent, respectively in paddy straw based feeding system. The respective half time (t1/2) of organic matter and nitrogen determined by in vitro (TANUVAS RUSITEC) for NB hybrid grass, sugarcane tops, sorghum stover and paddy straw were 16  1 and 14  2, 27  2 and 24  1, 27  4 and 34  4 and 29  2 and 40  6 h, respectively. The respective t1/2 time of organic matter and nitrogen for the commonly fed supplemental feeds viz., groundnut oil cake, sesame oil cake, coconut oil cake and de-oiled rice bran were 7  1 and 9  1, 5  1 and 8  1, 7  1 and 15  2 and 8  0 and 7  1 h, respectively. Based on t1/2 of organic matter from roughage and de-oiled rice bran and t1/2 of nitrogen from oil cake, the existing farmer feeding strategy (FFS) was modified without altering the type and quantity of forage / feed ingredients in evolved feeding strategy (EFS). The influence of feeding strategies was tested by simulated feeding in semi continuous culture system (RUSITEC) for their efficiency of synthesizing rumen microbial protein. The results indicated that at 48 h of incubation, the dry matter and organic matter degradability was significantly (p<0.055) higher in NB hybrid grass, sugarcane tops and sorghum stover based evolved feeding strategies compared to respective farmers feeding strategies except in paddy straw based feeding strategy. The rumen microbial protein production per day was significantly higher in NB hybrid grass (p=0.056) and sorghum stover (p=0.014) based evolved feeding strategies. Validation of the in vitro finding by comparing evolved feeding strategy with farmer’s feeding strategy on rumen microbial nitrogen synthesis estimated from purine derivatives (PD) excretion in crossbred cattle, male calves revealed that the microbial nitrogen synthesis per kg metabolic body weight of animal was comparable between evolved feeding strategy and farmer’s feeding strategy irrespective of type of feeding system. However, a non significant increase of 5.02 and 1.0 per cent microbial nitrogen production per kg metabolic body weight of animal in evolved feeding strategies were observed in NB hybrid grass and sorghum stover based feeding systems, respectively. It may be concluded that evolved feeding strategy of Napier-bajra hybrid grass, sugarcane tops, sorghum stover and paddy straw based feeding systems did not significantly enhanced the rumen microbial nitrogen synthesis and growth rate of calves. Hence, it is recommended to adopt farmer’s feeding strategies in all the four roughages based feeding systems." @default.
• W2406656449 created "2016-06-24" @default.
• W2406656449 creator A5041881072 @default.
• W2406656449 date "2010-01-01" @default.
• W2406656449 modified "2023-09-28" @default.
• W2406656449 title "Evolving Appropriate Time Of Feeding Without Altering The Feed Ingredients / Forage For Enhancing Rumen Microbial Biomass In Cattle" @default.
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• W2406656449 cites W1502883111 @default.
• W2406656449 cites W1516623433 @default.
• W2406656449 cites W1537248494 @default.
• W2406656449 cites W1538983144 @default.
• W2406656449 cites W1557763944 @default.
• W2406656449 cites W1572135551 @default.
• W2406656449 cites W1586412697 @default.
• W2406656449 cites W1600584624 @default.
• W2406656449 cites W1676027542 @default.
• W2406656449 cites W1963958112 @default.
• W2406656449 cites W1977143384 @default.
• W2406656449 cites W1984751556 @default.
• W2406656449 cites W1989351152 @default.
• W2406656449 cites W2001088676 @default.
• W2406656449 cites W2005570404 @default.
• W2406656449 cites W2014043943 @default.
• W2406656449 cites W2024529265 @default.
• W2406656449 cites W2024656865 @default.
• W2406656449 cites W2026953119 @default.
• W2406656449 cites W2029090300 @default.
• W2406656449 cites W2031044193 @default.
• W2406656449 cites W2031952003 @default.
• W2406656449 cites W2036264439 @default.
• W2406656449 cites W2046588215 @default.
• W2406656449 cites W2049438017 @default.
• W2406656449 cites W2055952889 @default.
• W2406656449 cites W2056883329 @default.
• W2406656449 cites W2059579502 @default.
• W2406656449 cites W2065426216 @default.
• W2406656449 cites W2079451407 @default.
• W2406656449 cites W2080888469 @default.
• W2406656449 cites W2081938577 @default.
• W2406656449 cites W2082198082 @default.
• W2406656449 cites W2083784462 @default.
• W2406656449 cites W2088230462 @default.
• W2406656449 cites W2091460345 @default.
• W2406656449 cites W2094720917 @default.
• W2406656449 cites W2107469998 @default.
• W2406656449 cites W2119448360 @default.
• W2406656449 cites W2130956634 @default.
• W2406656449 cites W2131969857 @default.
• W2406656449 cites W2145920283 @default.
• W2406656449 cites W2148200443 @default.
• W2406656449 cites W2149625027 @default.
• W2406656449 cites W2159928980 @default.
• W2406656449 cites W2164525465 @default.
• W2406656449 cites W2164986668 @default.
• W2406656449 cites W2169911865 @default.
• W2406656449 cites W2189369095 @default.
• W2406656449 cites W2199008620 @default.
• W2406656449 cites W2203189773 @default.
• W2406656449 cites W2206656008 @default.
• W2406656449 cites W2210140781 @default.
• W2406656449 cites W2218276480 @default.
• W2406656449 cites W2220647966 @default.
• W2406656449 cites W2221752225 @default.
• W2406656449 cites W2222067618 @default.
• W2406656449 cites W2222776009 @default.
• W2406656449 cites W2240632153 @default.
• W2406656449 cites W2241568606 @default.
• W2406656449 cites W2255906507 @default.
• W2406656449 cites W2257920330 @default.
• W2406656449 cites W2264686226 @default.
• W2406656449 cites W2265069984 @default.
• W2406656449 cites W2266536291 @default.
• W2406656449 cites W2268162759 @default.
• W2406656449 cites W2274450669 @default.
• W2406656449 cites W2274910949 @default.
• W2406656449 cites W2278786442 @default.
• W2406656449 cites W2280392368 @default.
• W2406656449 cites W2290390608 @default.
• W2406656449 cites W2292570344 @default.
• W2406656449 cites W2293839080 @default.
• W2406656449 cites W2294471517 @default.
• W2406656449 cites W230056105 @default.
• W2406656449 cites W2365851883 @default.
• W2406656449 cites W2412579563 @default.
• W2406656449 cites W2507224057 @default.
• W2406656449 cites W262867202 @default.
• W2406656449 cites W29800476 @default.
• W2406656449 cites W438101553 @default.
• W2406656449 cites W64958149 @default.
• W2406656449 cites W2124806947 @default.
• W2406656449 cites W2472726032 @default.
• W2406656449 cites W2500115076 @default.
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