1. Asai K, Lwin KO, Tandang AG, Lapitan RM, Herrera JRV, Del-Barrio AN, Kondo M, Ban-Tokuda T, Abrar A, Fujihara T, Matsui H (2021) Comparative analysis of rumen bacteria between water buffalo and cattle fed the same diet during their fattening period in the Philippines. Jpn Agric Res Q 55(1):69–75

2. Bainbridge ML, Cersosimo LM, Wright ADG, Kraft J (2016) Rumen bacterial communities shift across a lactation in Holstein, Jersey and Holstein × Jersey dairy cows and correlate to rumen function, bacterial fatty acid composition and production parameters. FEMS Microbiol Ecol 92(5):fiw059

3. Belanche A, de la Fuente G, Newbold CJ (2015) Effect of progressive inoculation of fauna-free sheep with holotrich protozoa and total-fauna on rumen fermentation, microbial diversity and methane emissions. FEMS Microbiol Ecol 91(3):fiu026

4. Berg Miller ME, Yeoman CJ, Chia N, Tringe SG, Angly FE, Edwards RA, Flint HJ, Lamed R, Bayer EA, White BA (2012) Phage–bacteria relationships and CRISPR elements revealed by a metagenomic survey of the rumen microbiome. Environ Microbiol 14(1):207–227

5. Bhatta R, Malik PK, Kolte AP, Suresh KP (2019) Assessment of enteric methane emission from Indian livestock: a new approach. In: Sejian V, Isloor S, Rahman SA, Bhatta R (eds) 7th Pan commonwealth veterinary conference on the role of veterinarians in addressing the global challenges to the lives of our pets, livestock, wildlife, humans and environment held at NIANP, Bengaluru, pp 101–103