Effect of supplementation of bioactive rich tree leaves on nutrient utilization, growth performance, methane emission and fatty acid profile in finisher lambs fed energy dense diet

• Published in: Small ruminant research Vol. 234; p. 107259
• Main Authors: Bhatt, R.S., Sarkar, Srobana, Soni, Lalit, Sharma, Priya, Sahoo, A., Soni, A.
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.05.2024
• Subjects: Hardwickia binata; Meat fatty acids; Methane; Rumen fermentation; Methane; Meat fatty acids; Rumen fermentation; Hardwickia binata
• ISSN: 0921-4488; 1879-0941
• DOI: 10.1016/j.smallrumres.2024.107259

To study the effect of supplementing bioactive rich tree foliages in energy dense diet on lamb production and tissue fatty acid profile, 24 weaner male lambs (∼90days old) were divided equally into 2 groups and fed complete feed blocks without (C) and with 6% Hardwickia binata (anjan tree) leaves (T). Feed blocks in both the groups consisted of 3.25% rumen bypass fat. Dry matter intake and plane of nutrition were comparable among the groups but digestibility of neutral and acid detergent fibre were lower (P<0.05) in T than C. Rumen fermentation attributes revealed higher (P<0.05) concentration and proportion of propionic acid and total volatile fatty acids in T compared to C. The metagenomic equivalent values of total methanogens and protozoa were lower (P<0.05) while, population of Butyrivibrio fibrisolvens was higher in T compared to C. Loss of metabolizable energy through methane was reduced by 4.6 percentage points in T than C which resulted in higher microbial nitrogen synthesis in T from methane mitigation. Subsequently, the average daily gain in lambs was improved by 5.9% in T compared to C. The fatty acid profile of Longissimus thoracis muscle revealed higher (P<0.05) C18:2c9t11 content in lambs of T group than C. Hence, from the present findings it can be concluded that inclusion of Hardwickia binata leaves at 6% level increased condensed and hydrolysable tannin content of the diet which modestly affected rumen fermentation resulting in reduced methane production and enhanced conjugated linoleic acid content in muscle tissue. •Hardwickia binata leaves is a promising feed resource for small ruminant feeding.•Feed blocks containing 6% Hardwickia binata leaves reduced methane emission.•Feeding of Hardwickia binata leaves enhanced conjugated linoleic acid in muscle.