Effect of the inclusion of increasing levels of three tree species on methane production and nutrient digestibility in vitro

被引:0
作者
Vazquez-Carrillo, Maria Fernanda [1 ]
Lopez-Varela, Jimena Yaxen [1 ]
Romero-Perez, Atmir [1 ]
Aviles-Nieto, Jonathan Noe [2 ]
Talamantes-Montes, Jose Moises [1 ]
Marquez-Mota, Claudia Cecilia [1 ]
Corona-Gochi, Luis [1 ]
机构
[1] Univ Nacl Autonoma Mexico, Mexico City, DF, Mexico
[2] INIFAP, Mexico City, DF, Mexico
来源
JOURNAL OF ANIMAL SCIENCE | 2024年 / 102卷
关键词
cattle; methane; tree species;
D O I
10.1093/jas/skae234.854
中图分类号
S8 [畜牧、 动物医学、狩猎、蚕、蜂];
学科分类号
0905 ;
摘要
PSXI-21
引用
收藏
页码:757 / 757
页数:1
相关论文
共 50 条
[21]   Inhibition of in vitro rumen methane production by three statins [J].
Joch, Miroslav ;
Vadronova, Mariana ;
Vyborna, Alena ;
Jochova, Katerina .
ANNALS OF ANIMAL SCIENCE, 2022, 22 (01) :271-282
[22]   Effect of various levels of bromochloromethane and fibre level on in vitro methane production and fermentation pattern [J].
Sirohi, S. K. ;
Goel, Navneet .
INDIAN JOURNAL OF ANIMAL SCIENCES, 2013, 83 (08) :798-801
[23]   The Effect of Dietary Fermented Grape Pomace Supplementation on In Vitro Total Gas and Methane Production, Digestibility, and Rumen Fermentation [J].
Kara, Kanber ;
Oztas, Mehmet Akif .
FERMENTATION-BASEL, 2023, 9 (08)
[24]   Effect of Two Selected Levels of Padina gymnospora Biowaste and Enteric Methane Emission, Nutrient Digestibility, and Rumen Metagenome in Growing Sheep [J].
Mohapatra, Archit ;
Trivedi, Shraddha ;
Tejpal, Chaluvanahalli S. ;
Aware, Manojkumar Janardhan ;
Vaswani, Shalini ;
Prajapati, Vedant Jayeshkumar ;
Kolte, Atul Purshottam ;
Malik, Pradeep Kumar ;
Sahoo, Artabandhu ;
Ravishankar, Chandragiri Nagarajarao ;
Bhatta, Raghavendra .
MICROORGANISMS, 2025, 13 (04)
[25]   Turmeric rhizomes reduced in vitro methane production and improved gas production and nutrient degradability [J].
Kholif, Ahmed E. ;
Olafadehan, Olurotimi A. ;
Gouda, Gouda A. ;
Fahmy, Mahmoud ;
Morsy, Tarek A. ;
Ammar, Hajer ;
Hamdon, Hatem A. ;
Chahine, Mireille .
ANIMAL BIOTECHNOLOGY, 2024, 35 (01)
[26]   Interaction of a source rich in phytonutrients (fruits peel pellets) and polyunsaturated oil (Tung oil) on in vitro ruminal fermentation, methane production, and nutrient digestibility [J].
Prommachart, Ronnachai ;
Phupaboon, Srisan ;
Matra, Maharach ;
Totakul, Pajaree ;
Wanapat, Metha .
HELIYON, 2024, 10 (12)
[27]   In vitro methane production from increasing levels of corn- or wheat-based dried distillers grains with solubles [J].
Huenerberg, M. ;
Holtshausen, L. ;
McAllister, T. A. ;
Beauchemin, K. A. ;
Okine, E. .
JOURNAL OF DAIRY SCIENCE, 2010, 93 :425-425
[28]   Effectiveness of herbal plants on rumen fermentation, methane gas emissions, in vitro nutrient digestibility, and population of protozoa [J].
Antonius, Antonius ;
Pazla, Roni ;
Putri, Ezi Masdia ;
Negara, Windu ;
Laia, Nursanti ;
Ridla, Muhammad ;
Suharti, Sri ;
Jayanegara, Anuraga ;
Asmairicen, Sharli ;
Marlina, Leni ;
Marta, Yoselanda .
VETERINARY WORLD, 2023, 16 (07) :1477-1488
[29]   Effects of different barley and oat varieties on methane production, digestibility, and fermentation pattern in vitro [J].
Fant, P. ;
Ramin, M. ;
Jaakkola, S. ;
Grimberg, A. ;
Carlsson, A. S. ;
Huhtanen, P. .
JOURNAL OF DAIRY SCIENCE, 2020, 103 (02) :1404-1415
[30]   In vitro ruminal fermentation and methane production of different seaweed species [J].
Molina-Alcaide, E. ;
Carro, M. D. ;
Roleda, M. Y. ;
Weisbjerg, M. R. ;
Lind, V. ;
Novoa-Garrido, M. .
ANIMAL FEED SCIENCE AND TECHNOLOGY, 2017, 228 :1-12
12345