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Moreta, DaniloArango, JacoboSotelo Cabrera, Mauricio EfrenVergara, DanielRincón, ÁlvaroIshitani, ManabuCastro, AracelyMiles, John W.Peters, MichaelTohme, Joseph M.Subbaraoa, Guntur V.Rao, Idupulapati M.[Biological nitrification inhibition (BNI) in Brachiaria pastures: a novel strategy to improve eco-efficiency of crop-livestock systems and to mitigate climate change]Biological nitrification inhibition (BNI) in Brachiaria pastures: a novel strategy to improve eco-efficiency of crop-livestock systems and to mitigate climate change
Arango, JacoboMoreta, D.Núñez, J.Hartmann, K.Domínguez, M.Ishitani, ManabuMiles, John W.Subbaraoa, Guntur V.Peters, MichaelRao, Idupulapati M.[Developing methods to evaluate phenotypic variability in biological nitrification inhibition (BNI) capacity of Brachiaria grasses]Developing methods to evaluate phenotypic variability in biological nitrification inhibition (BNI) capacity of Brachiaria grasses
Rao, Idupulapati M.Ishitani, ManabuMiles, John W.Peters, MichaelTohme, Joseph M.Arango, JacoboMoreta, Danilo ELópez, HernánCastro, AracelyHoek, Rein van derMartens, Siriwan D.Hyman, GlennTapasco, JeimarDuitama, JorgeSuárez Baron, HaroldBorrero, GonzaloNúñez, JonathanHartmann, KatharinaDomínguez, MoralbaSotelo Cabrera, Mauricio EfrenVergara, DanielLavelle, PatrickSubbaraoa, Guntur V.Rincón, ÁlvaroPlazas, CamiloMendoza, ReynaldoRathjen, LenaKarwat, HannesCadisch, Georg[Climate-smart crop-livestock systems for smallholders in the tropics: integration of new forage hybrids to intensify agriculture and to mitigate climate change through regulation of nitrification in soil]Climate-smart crop-livestock systems for smallholders in the tropics: integration of new forage hybrids to intensify agriculture and to mitigate climate change through regulation of nitrification in soil

Nitrogen (N), the most critical and essential nutrient for plant growth, largely determines the productivity in both extensive and intensive grassland systems. Nitrification and denitrification processes in the soil are the primary drivers of generating reactive N (NO3-, N2O and NO), largely resp...


Subbaraoa, Guntur V.Rao, Idupulapati M.Nakahara, K.Ando, YasuoSahrawat, Kanwar LalTesfamariam, T.Lata, Jean-ChristopheBoudsocq, S.Miles, John W.Ishitani, ManabuPeters, Michael[Nitrogen management in grasslands and forage-based production systems—Role of biological nitrification inhibition (BNI)]Nitrogen management in grasslands and forage-based production systems—Role of biological nitrification inhibition (BNI)

Background: Agriculture is the single largest geo-engineering initiative that humans have initiated on planet Earth, largely through the introduction of unprecedented amounts of reactive nitrogen (N) into ecosystems. A major portion of this reactive N applied as fertilizer leaks into the environm...


Subbaraoa, Guntur V.Sahrawat, Kanwar LalNakahara, K.Rao, Idupulapati M.Ishitani, ManabuHash, C.T.Kishi, M.Bonnett, D.Berry, W.Lata, Jean-Christophe[A paradigm shift towards low-nitrifying systems: The role of biological nitrification inhibition (BNI)]A paradigm shift towards low-nitrifying systems: The role of biological nitrification inhibition (BNI)

Human activity has had the single largest influence on the global nitrogen (N) cycle by introducing unprecedented amounts of reactive-N into ecosystems. A major portion of this reactive-N, applied as fertilizer to crops, leaks into the environment with cascading negative effects on ecosystem func...


Subbaraoa, Guntur V.Sahrawat, Kanwar LalNakahara, K.Ishikawa, T.Kudo, N.Kishii, M.Rao, Idupulapati M.Hash, C.T.George, T.S.Rao, P.S.Nardi, P.Bonnett, D.Berry, W.Suenaga, K.Lata, Jean-Christophe[Biological nitrification inhibition (BNI)—A novel strategy to regulate nitrification in agricultural systems]Biological nitrification inhibition (BNI)—A novel strategy to regulate nitrification in agricultural systems

Agriculture and livestock production systems are two major emitters of greenhouse gases. Methane with a GWP (global warming potential) of 21, and nitrous oxide (N2O) with a GWP of 300, are largely emitted from animal production agriculture, where livestock production is based on pasture and feed ...


Subbaraoa, Guntur V.Rao, Idupulapati M.Nakahara, K.Sahrawat, Kanwar LalHash, C.T.Ando, YasuoKawashima, T.[Potential for biological nitrification inhibition (BNI) to reduce nitrification and N2O emissions from pasture-crop-livestock systems]Potential for biological nitrification inhibition (BNI) to reduce nitrification and N2O emissions from pasture-crop-livestock systems

Nitrification, a key process in the global nitrogen cycle that generates nitrate through microbial activity, may enhance losses of fertilizer nitrogen by leaching and denitrification. Certain plants can suppress soil-nitrification by releasing inhibitors from roots, a phenomenon termed biological...


Subbaraoa, Guntur V.Nakahara, K.Hurtado, MPOno, HMoreta Mejia, DESalcedo, AFYoshihashi, ATIshikawa, T.Ishitani, ManabuOhnishi, MYoshida, MRondón, Marco AntonioRao, Idupulapati M.Lascano, Carlos E.Berry, W.L.Ito, O.[Evidence for biological nitrification inhibition in Brachiaria pastures]Evidence for biological nitrification inhibition in Brachiaria pastures
Rao, Idupulapati M.Peters, MichaelCastro, AracelySchultze-Kraft, RainerWhite, D.Fisher, M.Miles, John W.Lascano, Carlos E.Blümmel, MichaelBungenstab, D.J.Tapasco, JeimarHyman, GlennBolliger, Adrian M.Paul, Birthe K.Hoek, Rein van derMaass, Brigitte L.Tiemann, Tassilo T.Cuchillo-Hilario, MarioDouxchamps, SabineVillanueva, C.Rincón, ÁlvaroAyarza, Miguel AngelRosenstock, Todd S.Subbaraoa, Guntur V.Arango, JacoboCardoso, J.Worthington, MargaretChirinda, NgonidzasheNotenbaert, An Maria OmerJenet, A.Schmidt, AVivas, NelsonLefroy, R.D.B.Fahrney, K.Guimaraes, Elcio PerpétuoTohme, Joseph M.Cook, Simon E.Herrero, Mario T.Chacón, M.Searchinger, T.Rudel, Thomas K.[LivestockPlus – The sustainable intensification of forage-based agricultural systems to improve livelihoods and ecosystem services in the tropics]LivestockPlus – The sustainable intensification of forage-based agricultural systems to improve livelihoods and ecosystem services in the tropics

Subbaraoa, Guntur V.Arango, JacoboMasahiro, KishiiHooper, A.M.Yoshihashi, TadashiAndo, Y.Nakahara, KazuhikoDeshpande, SantoshOrtiz Monasterio, IvanIshitani, ManabuPeters, MichaelChirinda, NgonidzasheWollenberg, Eva K.Lata, Jean-ChristopheGerard, Bruno G.Tobita, SatoshiRao, Idupulapati M.Braun, Hans J.Kommerell, VictorTohme, 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

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