Your search keyword '"Gir calves"' showing total 5 results

1. Evaluation of Rumen Methane Emission in Sahiwal and Gir Calves Supplemented with Combination of Methanogenic Inhibitors

Author

Rachala Dinesh Reddy, Parul Chaudhary, Nitin Tyagi, Madhu Mohini, and Goutam Mondal

Subjects

Gir calves, Sahiwal, methane mitigation, nutrient utilization, Biochemistry, QD415-436, Geophysics. Cosmic physics, QC801-809

Abstract

Methane is one of the main greenhouse gases emitted by ruminants around the world. It is essential to investigate novel approaches to increasing animal production while reducing greenhouse gas emissions from ruminants. This study was conducted to examine the effect of methane inhibitors, such as nitrate, linseed oil, and anthraquinone, on nutritional digestibility, rumen fermentation processes, and methane emission in Sahiwal and Gir cattle calves. Twelve calves (6–12 months old), six of each Sahiwal and Gir breed, were selected and divided into four groups; Sahiwal control (C) and treated (T) calves; Gir control (C) and treated calves (T) of three calves each based on average body weight. Switch over a design was used as for periods 1 and 2. Animals in all groups were fed chopped oat fodder, wheat straw, and a concentrate mixture. Additionally, treated groups were fed a ration with potassium nitrate (1%), linseed oil (0.5%), and anthraquinone (4 ppm). The results revealed that the addition of methane inhibitors had no impact on nutrient intake and apparent digestibility. The levels of propionate, ammonia nitrogen, and total nitrogen were increased significantly (p < 0.05), while butyrate decreased in the treated groups of both breeds. However, there was no change in acetate and pH between the groups. Methane emission (g/d) was lower (p < 0.05) in the treated groups as compared to the control group. This study concludes that supplementation of methane inhibitors in calves feed can be utilized to lower methane emissions without affecting the intake and digestibility of nutrients. Combining diverse dietary mitigation strategies could be an effective way to mitigate methane emissions to reduce global warming while minimizing any negative impacts on ruminants to accomplish sustainable animal production.

Published

2023

2. Evaluation of Rumen Methane Emission in Sahiwal and Gir Calves Supplemented with Combination of Methanogenic Inhibitors.

Author

Reddy, Rachala Dinesh, Chaudhary, Parul, Tyagi, Nitin, Mohini, Madhu, and Mondal, Goutam

Subjects

METHANE, GREENHOUSE gases, RUMINANTS, WHEAT straw, ANIMAL products

Abstract

Methane is one of the main greenhouse gases emitted by ruminants around the world. It is essential to investigate novel approaches to increasing animal production while reducing greenhouse gas emissions from ruminants. This study was conducted to examine the effect of methane inhibitors, such as nitrate, linseed oil, and anthraquinone, on nutritional digestibility, rumen fermentation processes, and methane emission in Sahiwal and Gir cattle calves. Twelve calves (6–12 months old), six of each Sahiwal and Gir breed, were selected and divided into four groups; Sahiwal control (C) and treated (T) calves; Gir control (C) and treated calves (T) of three calves each based on average body weight. Switch over a design was used as for periods 1 and 2. Animals in all groups were fed chopped oat fodder, wheat straw, and a concentrate mixture. Additionally, treated groups were fed a ration with potassium nitrate (1%), linseed oil (0.5%), and anthraquinone (4 ppm). The results revealed that the addition of methane inhibitors had no impact on nutrient intake and apparent digestibility. The levels of propionate, ammonia nitrogen, and total nitrogen were increased significantly (p < 0.05), while butyrate decreased in the treated groups of both breeds. However, there was no change in acetate and pH between the groups. Methane emission (g/d) was lower (p < 0.05) in the treated groups as compared to the control group. This study concludes that supplementation of methane inhibitors in calves feed can be utilized to lower methane emissions without affecting the intake and digestibility of nutrients. Combining diverse dietary mitigation strategies could be an effective way to mitigate methane emissions to reduce global warming while minimizing any negative impacts on ruminants to accomplish sustainable animal production. [ABSTRACT FROM AUTHOR]

Published

2023

3. Surgical Management of Pervious Urachus-A Report of Six Gir calves

Author

Vadalia, J.V., Padaliya, N.R., Kumar, Vineet, Dodia, V.D., and Gameti, K.S.

Published

2017

4. EFFECT OF SUPPLEMENTATION OF TRACE MINERALS ON HEMATOLOGICAL PARAMETERS AND PLASMA MINERAL PROFILE OF GIR CALVES.

Author

Yadav, P., Choudhary, S., Kaushik, P. K., Choudhary, S. D., Yadav, M. K., Meel, S., and Godara, R. S.

Subjects

*ANIMAL nutrition, *DIETARY supplements, *HEMOGLOBINS, *BLOOD proteins, *GLOBULINS

Abstract

A feeding trial of three months duration was conducted on 12 male Gir calves (10-16 months age;111.20 kg average b.wt.), divided into two equal groups based on their body weight. Group-1 (G-I) was unsupplemented control, whereas group-2 (G-II) was supplemented with mineral mixture containing all important deficient trace minerals including Ca, P, Na, Cl, Mn, Fe, Cu, Zn, Co, K and I. Animals of both the groups were fed with similar basal ration containing ad lib wheat straw and measured quantity of concentrate mixture according to body weight as per requirement. Haematological parameters and trace mineral status of blood of animals of both groups were estimated at monthly interval. Results revealed that mineral supplementation significantly (Pd"0.05) increased blood urea, phosphorus and zinc; whereas increase in haemoglobin, glucose, total serum proteins, albumin, globulin, magnesium and copper was highly significant (P<0.01). Status of creatinine, SGPT, SGOT and ALP activity, calcium, manganese and iron in serum remained unaffected in both the groups. It was concluded that mineral supplementation is inevitable for ruminant animals in arid and semi-arid regions to maintain the blood biochemical constituents and serum mineral status under field as well as under farm condition. [ABSTRACT FROM AUTHOR]

Published

2017

5. Growth of gir calves at different planes of nutrition

Author

Dalal, P. S., Murthy, K. S., Desai, P. M., Tajane, K. R., and Dutta, K. S.

Published

2007