Search Results - "methane"

Liquid hot water treatment of rice straw enhances anaerobic degradation and inhibits methane production during in vitro ruminal fermentation by Zhang, X.M., Wang, M., Yu, Q., Ma, Z.Y., Beauchemin, K.A., Wang, R., Wen, J.N., Lukuyu, Ben A., Tan, Z.L.

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Data describing cattle performance and feed characteristics to calculate enteric methane emissions in smallholder livestock systems in Bomet County, Kenya by Ndung’u, Phyllis, Kirui, P., Takahashi, T., Toit, C.J.L. du, Merbold, Lutz, Goopy, John P.

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In vitro methane production and ruminal fermentation parameters of tropical grasses and grass-legume associations commonly used for cattle feeding in the tropics by Uribe, Xiomara Gaviria, Bolívar Vergara, Diana M., Chirinda, Ngonidzashe, Molina Botero, Isabel Cristina, Mazabel, Johanna, Rosales, Rolando Barahona, Arango, Jacobo

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CCAFS-validated animal nutrition model for methane emissions in Colombia: a tool to develop low-emission livestock options and strategy by CGIAR Research Program on Climate Change, Agriculture and Food Security

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A simplified approach for producing Tier 2 enteric-methane emission factors based on East African smallholder farm data by Ndung'u, Phyllis W., Toit, C.J.L. du, Takahashi, T., Robertson-Dean, M., Butterbach-Bahl, Klaus, Merbold, Lutz, Goopy, John P.

“…It is feasible to use a simplified data collection protocol by using algorithm LW, the default energy content of milk value, and seasonal single milk yield data, but full sampling and analysis of feed resources are required to produce reliable Tier 2 enteric-methane emission factors. Implications. Reducing enteric methane emissions from livestock is a promising pathway to reduce the effects of climate change, and, hence, the need to produce accurate emission estimates as a benchmark to measure the effectiveness of mitigation options. …”
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Alternate wetting and drying reduces methane emission from a rice paddy in Central Java, Indonesia without yield loss by Setyanto, Prihasto, Pramono, Ali, Adriany, Terry Ayu, Susilawati, Helena Lina, Tokida, Takeshi, Padre, Agnes T., Minamikawa, Kazunori

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Accelerating Methane Reductions in Rice Production Systems through Market-based Mechanisms: Results of Farmer Surveys and Choice Experiments in the Philippines by Villanueva, Donald B., Pajadan, Karen M., Cabrera, Ellanie R., Malana, Xyla Mae L., Revicoy, Riela Rose R., Mirzabaev, Alisher

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South America’s pasture intensification can increase beef production, reduce emissions by 30% and mitigate warming from methane by 2050 by Costa-Junior, Ciniro, Tedeschi, Luis Orlindo, Gonzalez-Quintero, Ricardo, Arango, Jacobo, Burkart, Stefan, Grosjean, Godefroy, Dittmer, Kyle Michael, Wollenberg, Eva K., Becoña, Gonzalo, Micol, Laurent, Palma, Eduardo Bustos, Lagos, Alejandro Ramsay, Loaiza, Sandra, Insaurralde, Marcelo, Guariniello, Luciano, Faverin, Claudia, Recavarren, Paulo Maria, Tieri, Maria Paz, Batista, Luiz Fernando Dias, Baethgen, Walter, Idupulapati, Rao

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Accelerating Methane Reductions in Rice Production Systems through Market-based Mechanisms: Results of Farmer Surveys and Choice Experiments in Thailand by Villanueva, Donald B., Pajadan, Karen M., Revicoy, Riela Rose R., Malana, Xyla Mae L., De Castro, Allenie M., Napasintuwong, Orachos, Duangbootsee, Uchook, Punjatewakupt, Piyawong, Mirzabaev, Alisher

“…It provides detailed evidence on the level of technical support farmers receive, their incentive preferences, and the socioeconomic factors shaping their willingness to adopt methane-reducing technologies. The survey results offer a foundation for designing market-based mechanisms—particularly carbon crediting approaches—that are feasible for smallholder rice farmers in Thailand. …”
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Accelerating Methane Reductions in Rice Production Systems through Market-based Mechanisms: Results of Farmer Surveys and Choice Experiments in Vietnam by Villanueva, Donald B., Pajadan, Karen M., Revicoy, Riela Rose R., De Castro, Allenie M., Malana, Xyla Mae L., Gonzalez, Tobiah Rey P., Pascual, Franz Josef E., Nghia, Tran Dai, Hai, Le Trong, Mirzabaev, Alisher

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Enteric methane emissions from dairy systems in Kenya: A case study of Kenyan Rift Valley and Central Highlands regions by Mwema, Emmanuel, Steward, Peter, Gonzalez, Ricardo, Notenbaert, An

Subjects: “…enteric methane…”
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Effect of Saponins from Chenopodium quinoa Willd. on Methane Production, Short Chain Fatty Acids and Digestibility in vitro Ruminal Fermentation by Alegría Arnedo, Maria Cecilia, Gomez Bravo, Carlos Alfredo, Quispe Jacobo, Fredy Enrique

“…The objective of this study was to assess the effects of saponins derived from Chenopodium quinoa by-products on methane (CH4) production in a ruminal fermentation system under in vitro conditions. …”
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The use of agricultural substrates to improve methane yield in anaerobic co-digestion with pig slurry: Effect of substrate type and inclusion level by Ferrer, Pablo, Cambra-López, María, Cerisuelo, Alba, Penaranda, David S., Moset, Verónica

“…The effect of substrate type and inclusion level on the biochemical methane potential (BMP) was evaluated in a batch assay performed at 35 degrees C for 100 days. …”
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Screening, developing, and deploying anti-methanogenic forages into livestock systems in the Global South by International Center for Tropical Agriculture, International Center for Agricultural Research in the Dry Areas, International Livestock Research Institute

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Protocol for generating region-specific Tier 2 emission factors for methane (CH4) and nitrous oxide (N2O) emissions from cattle manure by Leitner, Sonja, Pelster, David E., Owino, Joseph, Marquardt, Svenja, Merbold, Lutz

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Spatial and temporal variability of soil N2O and CH4 fluxes along a degradation gradient in a palm swamp peat forest in the Peruvian Amazon by Hergoualc'h, Kristell, Dezzeo, N., Verchot, Louis V., Martius, C., Lent, Jeffrey van, Águila Pasquel, J. del, López Gonzales, M.

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Effects of Starch Level and a Mixture of Sunflower and Fish Oils on Nutrient Intake and Digestibility, Rumen Fermentation, and Ruminal Methane Emissions in Dairy Cows by Darabighane, Babak, Tapio, Ilma, Ventto, Laura, Kairenius, Piia, Stefański, Tomasz, Leskiene, Heidi, Shingfield, Kevin J, Cilkki, Johanna, Bayat, Ali-Reza

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Evaluation of a model (RUMINANT) for prediction of DMI and CH4 from tropical beef cattle by Ruden, Alejandro, Rivera, Bernardo, Vargas, Julio E., López, Secundino, Gaviria, Xiomara, Chirinda, Ngonidzashe, Arango, Jacobo

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Greenhouse gas emissions measurement by International Center for Tropical Agriculture

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Forages for climate mitigation by Arango, Jacobo, Arndt, C., Bate, N., Beauchemin, K., Costa, C., González, J.J., Hatew, B., Jaramillo, A., Jarvis, A., Jones, C., Montgomery, H., Muchugi, A., Nkrumah, D., Patiño, C., Rao, I., Rischkowsky, B., Sánchez, M., Tsivelikas, A., Wamatu, J., Wenzl, Peter, Wright, I., Yazbek, M.

Subjects: “…methane emission…”
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