Trends and Projected Estimates of GHG Emissions from Indian Livestock in Comparisons with GHG Emissions from World and Developing Countries
Amlan Kumar Patra
Asian-Australas J Anim Sci. 2014;27(4):592-599.   Published online 2014 Apr 1     DOI:
Citations to this article as recorded by Crossref logo
Ruminal methane production: Associated microorganisms and the potential of applying hydrogen-utilizing bacteria for mitigation
Wei Lan, Chunlei Yang
Science of The Total Environment.2019; 654: 1270.     CrossRef
Future biogas resource potential in India: A bottom-up analysis
Shivika Mittal, Erik O. Ahlgren, P.R. Shukla
Renewable Energy.2019; 141: 379.     CrossRef
Plants extract and bioactive compounds on rumen methanogenesis
Dinesh Kumar Dhanasekaran, Tairon Pannunzio Dias-Silva, Adibe Luiz Abdalla Filho, Gabriel Zanuto Sakita, Adibe Luiz Abdalla, Helder Louvandini, Mona M. M. Y. Elghandour
Agroforestry Systems.2019;[Epub]     CrossRef
Effect of Punica granatum and Tecomella undulata supplementation on nutrient utilization, enteric methane emission and growth performance of Murrah male buffaloes
J. Hundal, I. Singh, M. Wadhwa, C. Singh, C. Uppal, G. Kaur
Journal of Animal and Feed Sciences.2019; 28(2): 110.     CrossRef
Climate change impact of livestock CH4 emission in India: Global temperature change potential (GTP) and surface temperature response
Shilpi Kumari, Moonmoon Hiloidhari, Nisha Kumari, S.N. Naik, R.P. Dahiya
Ecotoxicology and Environmental Safety.2018; 147: 516.     CrossRef
Impact of phytogenic feed additives on growth performance, nutrient digestion and methanogenesis in growing buffaloes
L. Samal, L. C. Chaudhary, N. Agarwal, D. N. Kamra
Animal Production Science.2018; 58(6): 1056.     CrossRef
Dynamic model development of enteric methane emission from goats based on energy balance measured in indirect open circuit respiration calorimeter
Carlos Fernández
Global Ecology and Conservation.2018; 15: e00439.     CrossRef
Carbon-13 stable isotope analysis reveals the existence but insignificance of ruminal methanogenic pathway from acetate in a batch culture system
Z.X. He, J.Y. Qiao, Z.L. Tan, M. Wang
Animal Feed Science and Technology.2018; 246: 46.     CrossRef
Livestock Greenhouse Gases Emissions Under Grazing Conditions in the TropicLivestock Greenhouse Gases Emissions Under Grazing Conditions in the Tropic
Raúl Andrés Molina Benavides, Hugo Sánchez Guerrero, Daniel Mateus
Revista de Investigación Agraria y Ambiental.2018; 10(1): 91.     CrossRef
Prediction of enteric methane emission from cattle using linear and non-linear statistical models in tropical production systems
Amlan Kumar Patra
Mitigation and Adaptation Strategies for Global Change.2017; 22(4): 629.     CrossRef
Effect of black cumin seeds on growth performance, nutrient utilization, immunity, gut health and nitrogen excretion in broiler chickens
Pawan Kumar, Amlan Kumar Patra, Guru Prasad Mandal, Indranil Samanta, Saktipada Pradhan
Journal of the Science of Food and Agriculture.2017; 97(11): 3742.     CrossRef
Methane emissions from paddy cultivation and livestock farming in Sarawak, Malaysia
E.K. Peng, M.A. Malek, C.S. Tan, M.J. Zainorizuan, L. Yee Yong, L. Alvin John Meng Siang, O. Mohamad Hanifi, R. Siti Nazahiyah, A. Mohd Shalahuddin
MATEC Web of Conferences.2017; 103: 05007.     CrossRef
Development of statistical models for prediction of enteric methane emission from goats using nutrient composition and intake variables
Amlan Kumar Patra, Melody Lalhriatpuii
Agriculture, Ecosystems & Environment.2016; 215: 89.     CrossRef
Predicting enteric methane emission in sheep using linear and non-linear statistical models from dietary variables
A. K. Patra, M. Lalhriatpuii, B. C. Debnath
Animal Production Science.2016; 56(3): 574.     CrossRef
Recent Advances in Measurement and Dietary Mitigation of Enteric Methane Emissions in Ruminants
Amlan K. Patra
Frontiers in Veterinary Science.2016;[Epub]     CrossRef
In vitro evaluation of different varieties of maize fodder for their methane generation potential and digestibility with goat rumen liquor
Shalini Vaswani, Ravindra Kumar, Vinod Kumar, Debashis Roy, Muneendra Kumar
Veterinary World.2016; 9(11): 1209.     CrossRef
Effects of hydrogen in headspace and bicarbonate in media on rumen fermentation, methane production and methanogenic population using in vitro gas production techniques
J.Y. Qiao, Z.L. Tan, L.L. Guan, S.X. Tang, C.S. Zhou, X.F. Han, M. Wang, J.H. Kang, Z.X. He
Animal Feed Science and Technology.2015; 206: 19.     CrossRef
Exploring diet-dependent shifts in methanogen and methanotroph diversity in the rumen of Mehsani buffalo by a metagenomics approach
N.R. Parmar, J.I. Nirmal Kumar, C.G. Joshi
Frontiers in Life Science.2015; 8(4): 371.     CrossRef
Evaluation of several tropical tree leaves for methane production potential, degradability and rumen fermentation in vitro
K. Pal, A.K. Patra, A. Sahoo, P.K. Kumawat
Livestock Science.2015; 180: 98.     CrossRef
Evaluation of feeds from tropical origin for in vitro methane production potential and rumen fermentation in vitro
Kaushik Pal, Amlan K. Patra, Artabandhu Sahoo
Spanish Journal of Agricultural Research.2015; 13(3): e0608.     CrossRef
Effects of Adaptation of In vitro Rumen Culture to Garlic Oil, Nitrate, and Saponin and Their Combinations on Methanogenesis, Fermentation, and Abundances and Diversity of Microbial Populations
Amlan K. Patra, Zhongtang Yu
Frontiers in Microbiology.2015;[Epub]     CrossRef
Effect of nitrate and fumarate in Prosopis cineraria and Ailanthus excelsa leaves-based diets on methane production and rumen fermentation
K. Pal, A.K. Patra, A. Sahoo, G.P. Mandal
Small Ruminant Research.2014; 121(2-3): 168.     CrossRef