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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
Chirinda, NgonidzasheLoaiza, SandraArenas-Calle, Laura N.Ruiz, VerónicaFaverín, ClaudiaÁlvarez, CarolinaSavian, Jean VíctorBelfon, RenaldoZuñiga, KarenMorales, LuisTrujillo, CatalinaArango, MiguelRao, Idupulapati M.Arango, JacoboPeters, MichaelBarahona Rosales, RolandoCosta Junior, CiniroRosenstock, Todd S.Richards, MerylMartínez Barón, DeissyCárdenas, Laura[Replication Data for: Adequate vegetative cover decreases nitrous oxide emissions from cattle urine deposited in grazed pastures under rainy season conditions]Replication Data for: Adequate vegetative cover decreases nitrous oxide emissions from cattle urine deposited in grazed pastures under rainy season conditions

Rao, Idupulapati M.Arango, JacoboIshitani, ManabuPeters, MichaelMiles, John W.Tohme, Joseph M.Castro, AracelyCardoso Arango, Juan AndrésWorthington, MargaretSelvaraj, Michael GomezHoek, Rein van derSchultze-Kraft, RainerRincón, ÁlvaroPlazas, CamiloMendoza, ReynaldoCuchillo-Hilario, MarioTapasco, JeimarMartínez, JesúsHyman, GlennMoreta, DaniloMena Urbina, Martin A.Karwat, HannesNúñez, JonathanSubbaraoa, Guntur V.Cadisch, Georg[Strategic management for forage production and mitigation of environmental effects: Development of Brachiaria grasses to inhibit nitrification in soil]Strategic management for forage production and mitigation of environmental effects: Development of Brachiaria grasses to inhibit nitrification in soil

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

High nitrogen (N) concentration in bovine urine, which generally exceeds plant N uptake rates, results in the formation of hotspots of N loss when bovine urine is deposited on grazed pasture soils. High spatial variability in the distribution of urine patches in grazed pastures poses a major chal...


Byrnes, Ryan C.Nùñez, JonathanArenas-Calle, Laura N.Rao, Idupulapati M.Trujillo, CatalinaÁlvarez, CarolinaArango, JacoboRasche, FrankChirinda, Ngonidzashe[Biological nitrification inhibition by Brachiaria grasses mitigates soil nitrous oxide emissions from bovine urine patches]Biological nitrification inhibition by Brachiaria grasses mitigates soil nitrous oxide emissions from bovine urine patches

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

Arango, JacoboNuñez, JonathanMoreta, DaniloKarwat, HannesArévalo, AshlyIshitani, ManabuChavez, LuciaMiles, John W.Subbaraoa, Guntur V.Peters, MichaelRao, Idupulapati M.[Phenotyping of a Bi-Parental brachiaria humidicola population for its biological nitrification inhibition potential]Phenotyping of a Bi-Parental brachiaria humidicola population for its biological nitrification inhibition potential

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...


Subbaraoa, Guntur V.Ito, O.Ishikawa, T.Watanabe, TomonariNakahara, KazuhikoRao, Idupulapati M.Hurtado, María del PilarRondón, Marco AntonioTomohiro, BanMasahiro, 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)
Subbaraoa, Guntur V.Yoshihashi, TadashiWorthington, MargaretNakahara, KazuhikoAndo, YasuoSahrawat, Kanwar LalRao, Idupulapati M.Lata, Jean-ChristopheKishii, MasahiroBraune, Hans-Joachim[Suppression of soil nitrification by plants]Suppression of soil nitrification by plants

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