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Conference Paper 2007

Natural nitrification inhibition by plants – A novel genetic strategy to combat nitrification and N2O emissions from agricultural systems

Autor: Subbaraoa, Guntur V. Ito, Osamu Watanabe, Takeshi Marco, Rondon Rao, Idupulapati M. Pearse, Stuart Hossain, Zakir Gopalakrishnan, Subramanian Kazuhiko, Nakahara

Enlace original: https://cgspace.cgiar.org/handle/10568/78694

Investigación en Agricultura

NITRIFICATION

NITROGEN CYCLE

FARMING SYSTEMS

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Subbaraoa, Guntur V. , Ito, Osamu , Watanabe, Takeshi , Marco, Rondon , Rao, Idupulapati M. , Pearse, Stuart , Hossain, Zakir , Gopalakrishnan, Subramanian , Kazuhiko, Nakahara , [Natural nitrification inhibition by plants – A novel genetic strategy to combat nitrification and N2O emissions from agricultural systems] , Natural nitrification inhibition by plants – A novel genetic strategy to combat nitrification and N2O emissions from agricultural systems

Book Chapter 2012

Tropical forage-based systems to mitigate greenhouse gas emissions

Autor: Peters, Michael Rao, Idupulapati M. Fisher, Myles J. Subbaraoa, Guntur V. Martens, S Herrero, G. Tiemann, Tassilo T. Ayarza, Miguel Angel Hyman, Glenn

Enlace original: https://cgspace.cgiar.org/handle/10568/55611

Investigación en Agricultura

PASTURES

FEED GRASSES

CATTLE

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Peters, Michael , Rao, Idupulapati M. , Fisher, Myles J. , Subbaraoa, Guntur V. , Martens, S , Herrero, G. , Tiemann, Tassilo T. , Ayarza, Miguel Angel , Hyman, Glenn , [Tropical forage-based systems to mitigate greenhouse gas emissions] , Tropical forage-based systems to mitigate greenhouse gas emissions

Journal Article 2017-05

Genetic mitigation strategies to tackle agricultural GHG emissions: The case for biological nitrification inhibition technology

Autor: Subbaraoa, Guntur V. Arango, Jacobo Masahiro, Kishii Hooper, A.M. Yoshihashi, Tadashi Ando, Y. Nakahara, Kazuhiko Deshpande, Santosh Ortiz Monasterio, Ivan Ishitani, Manabu Peters, Michael Chirinda, Ngonidzashe Wollenberg, Eva K. Lata, Jean-Christophe Gerard, Bruno G. Tobita, Satoshi Rao, Idupulapati M. Braun, Hans J. Kommerell, Victor Tohme, Joseph M. Iwanaga, Masaru

Accelerated soil-nitrifier activity and rapid nitrification are the cause of declining nitrogen-use efficiency (NUE) and enhanced nitrous oxide (N2O) emissions from farming. Biological nitrification inhibition (BNI) is the ability of certain plant roots to suppress soil-nitrifier activity through...

Enlace original: https://cgspace.cgiar.org/handle/10568/81137

Investigación en Agricultura

GLOBAL WARMING

GREENHOUSE GASES

CLIMATE CHANGE

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Subbaraoa, Guntur V. , Arango, Jacobo , Masahiro, Kishii , Hooper, A.M. , Yoshihashi, Tadashi , Ando, Y. , Nakahara, Kazuhiko , Deshpande, Santosh , Ortiz Monasterio, Ivan , Ishitani, Manabu , Peters, Michael , Chirinda, Ngonidzashe , Wollenberg, Eva K. , Lata, Jean-Christophe , Gerard, Bruno G. , Tobita, Satoshi , Rao, Idupulapati M. , Braun, Hans J. , Kommerell, Victor , Tohme, Joseph M. , Iwanaga, Masaru , [Genetic mitigation strategies to tackle agricultural GHG emissions: The case for biological nitrification inhibition technology] , Genetic mitigation strategies to tackle agricultural GHG emissions: The case for biological nitrification inhibition technology

Conference Paper 2013

Challenges and opportunities for improving eco-efficiency of tropical forage-based systems to mitigate greenhouse gas emissions

Autor: Peters, Michael Herrero, Mario T. Fisher, M. Erb, Karlheinz Rao, Idupulapati M. Subbaraoa, Guntur V. Castro, A. Arango, Jacobo Chara, J. Murgueitio, E. Hoek, Rein van der Läderach, Peter Hyman, Glenn Tapasco, Jeimar Strassburg, B. Paul, Birthe K. Rincón, A. Schultze-Kraft, Rainer Fonte, Steven J. Searchinger, T.

Forage-based livestock production plays a key role in national and regional economies, for food security and poverty alleviation. Livestock production is also considered as a major contributor to agricultural GHG emissions, however. While demand for livestock products is predicted to continue to ...

Enlace original: https://cgspace.cgiar.org/handle/10568/52056

Investigación en Agricultura

CLIMATE

AGRICULTURE

LIVESTOCK

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Peters, Michael , Herrero, Mario T. , Fisher, M. , Erb, Karlheinz , Rao, Idupulapati M. , Subbaraoa, Guntur V. , Castro, A. , Arango, Jacobo , Chara, J. , Murgueitio, E. , Hoek, Rein van der , Läderach, Peter , Hyman, Glenn , Tapasco, Jeimar , Strassburg, B. , Paul, Birthe K. , Rincón, A. , Schultze-Kraft, Rainer , Fonte, Steven J. , Searchinger, T. , [Challenges and opportunities for improving eco-efficiency of tropical forage-based systems to mitigate greenhouse gas emissions] , Challenges and opportunities for improving eco-efficiency of tropical forage-based systems to mitigate greenhouse gas emissions

Book Chapter 2008

Is there a genetic strategy to control nitrification and N2O emissions from agricultural systems? - biological Nitrification Inhibition (BNI)

Autor: Subbaraoa, Guntur V. Ito, O. Ishikawa, T. Watanabe, Tomonari Nakahara, Kazuhiko Rao, Idupulapati M. Hurtado, María del Pilar Rondón, Marco Antonio Tomohiro, Ban Masahiro, K. Hash, C. T.

Nitrification, a step in nitrogen (N) cycle, results in gaseous N emissions and NO3- leaching. In most natural ecosystems, where nitrification is reduced to a minor flux, do not leak N. In contrast, modern agricultural systems are characterized by unrestricted rapid nitrification, resulting in th...

Enlace original: https://cgspace.cgiar.org/handle/10568/77821

Investigación en Agricultura

NITRIFICATION INHIBITORS

GREENHOUSE GASES

FARMING SYSTEMS

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Subbaraoa, Guntur V. , Ito, O. , Ishikawa, T. , Watanabe, Tomonari , Nakahara, Kazuhiko , Rao, Idupulapati M. , Hurtado, María del Pilar , Rondón, Marco Antonio , Tomohiro, Ban , Masahiro, K. , Hash, C. T. , [Is there a genetic strategy to control nitrification and N2O emissions from agricultural systems? - biological Nitrification Inhibition (BNI)] , Is there a genetic strategy to control nitrification and N2O emissions from agricultural systems? - biological Nitrification Inhibition (BNI)

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Resultados de búsqueda

Natural nitrification inhibition by plants – A novel genetic strategy to combat nitrification and N2O emissions from agricultural systems

Tropical forage-based systems to mitigate greenhouse gas emissions

Genetic mitigation strategies to tackle agricultural GHG emissions: The case for biological nitrification inhibition technology

Challenges and opportunities for improving eco-efficiency of tropical forage-based systems to mitigate greenhouse gas emissions

Is there a genetic strategy to control nitrification and N2O emissions from agricultural systems? - biological Nitrification Inhibition (BNI)

Descubre y comparte nuestro conocimiento público

Resultados de búsqueda

Natural nitrification inhibition by plants – A novel genetic strategy to combat nitrification and N2O emissions from agricultural systems

[Natural nitrification inhibition by plants – A novel genetic strategy to combat nitrification and N2O emissions from agricultural systems.jpg]

Tropical forage-based systems to mitigate greenhouse gas emissions

[chapter_11_eco_efficiency.pdf]

Genetic mitigation strategies to tackle agricultural GHG emissions: The case for biological nitrification inhibition technology

[Genetic mitigation strategies to tackle agricultural GHG emissions The case for biological nitrification inhibition technology - Manuscript.pdf]

Challenges and opportunities for improving eco-efficiency of tropical forage-based systems to mitigate greenhouse gas emissions

Is there a genetic strategy to control nitrification and N2O emissions from agricultural systems? - biological Nitrification Inhibition (BNI)