Low-methane forages: Discovery, development, and preparation for deployment in the Global South
Food systems are responsible for approximately 60% of anthropogenic methane (CH₄) emissions; livestock contributes half. Reducing enteric methane emissions is a crucial strategy in addressing climate change as CH₄ is a more potent greenhouse gas than carbon dioxide (CO2). One way to reduce CH₄ emiss...
| Autores principales: | , , , , , , , , , , , , , |
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| Formato: | Póster |
| Lenguaje: | Inglés |
| Publicado: |
2025
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| Materias: | |
| Acceso en línea: | https://hdl.handle.net/10568/177709 |
| _version_ | 1855533599290294272 |
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| author | Marin, Alejandra Wenzl, Peter Habte, Ermias Jones, Chris Arndt, Claudia Rischkowsky, Barbara Costa Junior, Ciniro Muetzel, Stefan Jaramillo, Andrés Ku Vera, Juan Carlos Makkar, Harinder Chavarriaga, Paul Idupulapati, Rao Arango, Jacobo |
| author_browse | Arango, Jacobo Arndt, Claudia Chavarriaga, Paul Costa Junior, Ciniro Habte, Ermias Idupulapati, Rao Jaramillo, Andrés Jones, Chris Ku Vera, Juan Carlos Makkar, Harinder Marin, Alejandra Muetzel, Stefan Rischkowsky, Barbara Wenzl, Peter |
| author_facet | Marin, Alejandra Wenzl, Peter Habte, Ermias Jones, Chris Arndt, Claudia Rischkowsky, Barbara Costa Junior, Ciniro Muetzel, Stefan Jaramillo, Andrés Ku Vera, Juan Carlos Makkar, Harinder Chavarriaga, Paul Idupulapati, Rao Arango, Jacobo |
| author_sort | Marin, Alejandra |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | Food systems are responsible for approximately 60% of anthropogenic methane (CH₄) emissions; livestock contributes half. Reducing enteric methane emissions is a crucial strategy in addressing climate change as CH₄ is a more potent greenhouse gas than carbon dioxide (CO2). One way to reduce CH₄ emissions from the digestive process of ruminant animals is by identifying and developing low-methane forages (LMF). Forages, including browses, legumes and grasses containing anti-methanogenic compounds (AMC), such as tannins, saponins, flavonoids, H2-sinks, or methanogenesis inhibitors, constitute LMF. These offer a potentially cost-effective solution for reducing CH₄ production from livestock systems, whilst maintaining or improving productivity. An international collaborative project among the three CGIAR Centers (Alliance Bioversity-CIAT, ICARDA, ILRI) and two specialized research laboratories (AgResearch, New Zealand and; Universidad Javeriana, Colombia) is focusing on three key areas: (1) identifying and promoting the use of LMF into ruminant production systems in the Global South; (ii) adding a CH₄ emission-reducing trait into widely used forage cultivars using conventional or precision breeding (gene-editing) approaches; and (iii) deploying LMF into forage-based livestock (ruminant) systems in the Global South. Results from a pilot study on in vitro gas and CH₄ production identified several promising forage accessions with low to moderate CH₄ production relative to dry matter digestibility. In 2024, a total of 407 forage materials were assembled by the three CGIAR Centers and grown in the field for in vitro screening. Initial metabolomic analyses have advanced toward developing and deploying an HPLC-MS data analysis pipeline to streamline the identification, and annotation of metabolites. A protocol for genetic transformation of forage grass Urochloa humidicola (CIAT 16888) has been developed to facilitate gene-editing. Rumen microbiome studies are envisaged to understand rumen microbial ecology. At the Colombia campus of the Alliance, 16 respiration chambers were constructed, eight of them tailored for large ruminants and eight for small ruminants. This specialized infrastructure will play a crucial role in validating in vivo any promising forages identified through in vitro screening, to support their subsequent scaling for broader applications. At ICARDA's Marchouch station in Morocco, significant progress has been made in developing a similar infrastructure for small ruminants. The ILRI team is using the existing respiration chambers for in vivo CH4 measurements while complementing these measurements with sulfur hexafluoride (SF6) methodology. Ongoing efforts include developing LMF-specific emission factors, designing cost-effective MRV systems, and deploying climate finance mechanisms aimed at streamlining broad adoption of LMF. The LMF project contributes to the aims of Enteric Fermentation Research and Development Accelerator of the Global Methane Hub. These initiatives represent significant progress in aligning data-driven approaches with practical tools to improve greenhouse gas accounting, enhance livestock productivity, and support sustainable land management strategies under diverse agroecological contexts. |
| format | Poster |
| id | CGSpace177709 |
| institution | CGIAR Consortium |
| language | Inglés |
| publishDate | 2025 |
| publishDateRange | 2025 |
| publishDateSort | 2025 |
| record_format | dspace |
| spelling | CGSpace1777092025-12-08T09:54:28Z Low-methane forages: Discovery, development, and preparation for deployment in the Global South Marin, Alejandra Wenzl, Peter Habte, Ermias Jones, Chris Arndt, Claudia Rischkowsky, Barbara Costa Junior, Ciniro Muetzel, Stefan Jaramillo, Andrés Ku Vera, Juan Carlos Makkar, Harinder Chavarriaga, Paul Idupulapati, Rao Arango, Jacobo gene banks technology transfer metabolomics transferencia de tecnología banco de germoplasma enteric methane leguminosa forrajera metano entérico feed grasses metabolómica alimentación de rumiantes digestibility feed legumes in vitro selection selección in vitro digestión ruminal ruminant feeding graminea Food systems are responsible for approximately 60% of anthropogenic methane (CH₄) emissions; livestock contributes half. Reducing enteric methane emissions is a crucial strategy in addressing climate change as CH₄ is a more potent greenhouse gas than carbon dioxide (CO2). One way to reduce CH₄ emissions from the digestive process of ruminant animals is by identifying and developing low-methane forages (LMF). Forages, including browses, legumes and grasses containing anti-methanogenic compounds (AMC), such as tannins, saponins, flavonoids, H2-sinks, or methanogenesis inhibitors, constitute LMF. These offer a potentially cost-effective solution for reducing CH₄ production from livestock systems, whilst maintaining or improving productivity. An international collaborative project among the three CGIAR Centers (Alliance Bioversity-CIAT, ICARDA, ILRI) and two specialized research laboratories (AgResearch, New Zealand and; Universidad Javeriana, Colombia) is focusing on three key areas: (1) identifying and promoting the use of LMF into ruminant production systems in the Global South; (ii) adding a CH₄ emission-reducing trait into widely used forage cultivars using conventional or precision breeding (gene-editing) approaches; and (iii) deploying LMF into forage-based livestock (ruminant) systems in the Global South. Results from a pilot study on in vitro gas and CH₄ production identified several promising forage accessions with low to moderate CH₄ production relative to dry matter digestibility. In 2024, a total of 407 forage materials were assembled by the three CGIAR Centers and grown in the field for in vitro screening. Initial metabolomic analyses have advanced toward developing and deploying an HPLC-MS data analysis pipeline to streamline the identification, and annotation of metabolites. A protocol for genetic transformation of forage grass Urochloa humidicola (CIAT 16888) has been developed to facilitate gene-editing. Rumen microbiome studies are envisaged to understand rumen microbial ecology. At the Colombia campus of the Alliance, 16 respiration chambers were constructed, eight of them tailored for large ruminants and eight for small ruminants. This specialized infrastructure will play a crucial role in validating in vivo any promising forages identified through in vitro screening, to support their subsequent scaling for broader applications. At ICARDA's Marchouch station in Morocco, significant progress has been made in developing a similar infrastructure for small ruminants. The ILRI team is using the existing respiration chambers for in vivo CH4 measurements while complementing these measurements with sulfur hexafluoride (SF6) methodology. Ongoing efforts include developing LMF-specific emission factors, designing cost-effective MRV systems, and deploying climate finance mechanisms aimed at streamlining broad adoption of LMF. The LMF project contributes to the aims of Enteric Fermentation Research and Development Accelerator of the Global Methane Hub. These initiatives represent significant progress in aligning data-driven approaches with practical tools to improve greenhouse gas accounting, enhance livestock productivity, and support sustainable land management strategies under diverse agroecological contexts. 2025-10-05 2025-11-10T12:44:52Z 2025-11-10T12:44:52Z Poster https://hdl.handle.net/10568/177709 en Open Access application/pdf Marin, A.; Wenzl, P.; Habte, E.; Jones, C.; Arndt, C.; Rischkowsky, B.; Costa Junior, C.; Muetzel, S.; Jaramillo, A.; Ku Vera, J.C.; Makkar, H.; Chavarriaga, P.; Idupulapati, R.; Arango, J. (2025) Low-methane forages: Discovery, development, and preparation for deployment in the Global South. Presented at the 9th International Greenhouse Gas and Animal Agriculture (GGAA) Conference, on 5-9 October 2025 in Nairobi (Kenya). 1 p. |
| spellingShingle | gene banks technology transfer metabolomics transferencia de tecnología banco de germoplasma enteric methane leguminosa forrajera metano entérico feed grasses metabolómica alimentación de rumiantes digestibility feed legumes in vitro selection selección in vitro digestión ruminal ruminant feeding graminea Marin, Alejandra Wenzl, Peter Habte, Ermias Jones, Chris Arndt, Claudia Rischkowsky, Barbara Costa Junior, Ciniro Muetzel, Stefan Jaramillo, Andrés Ku Vera, Juan Carlos Makkar, Harinder Chavarriaga, Paul Idupulapati, Rao Arango, Jacobo Low-methane forages: Discovery, development, and preparation for deployment in the Global South |
| title | Low-methane forages: Discovery, development, and preparation for deployment in the Global South |
| title_full | Low-methane forages: Discovery, development, and preparation for deployment in the Global South |
| title_fullStr | Low-methane forages: Discovery, development, and preparation for deployment in the Global South |
| title_full_unstemmed | Low-methane forages: Discovery, development, and preparation for deployment in the Global South |
| title_short | Low-methane forages: Discovery, development, and preparation for deployment in the Global South |
| title_sort | low methane forages discovery development and preparation for deployment in the global south |
| topic | gene banks technology transfer metabolomics transferencia de tecnología banco de germoplasma enteric methane leguminosa forrajera metano entérico feed grasses metabolómica alimentación de rumiantes digestibility feed legumes in vitro selection selección in vitro digestión ruminal ruminant feeding graminea |
| url | https://hdl.handle.net/10568/177709 |
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