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Terminal drought is a worldwide constraint to common bean production and its negative effects will be increased by climate change. The objective of this research was to characterize phenotypically advanced lines and commercial cultivars of common bean for their resistance to terminal drought stre...


Chaves-Barrantes, Néstor FelipePolanía Perdomo, José A.Muñoz Perea, Carlos GermánRao, Idupulapati M.Beebe, Stephen E.[Caracterización fenotípica por resistencia a sequía terminal de germoplasma de frijol común = Phenotypic characterization of common bean germplasm for resistance to terminal drought]Caracterización fenotípica por resistencia a sequía terminal de germoplasma de frijol común = Phenotypic characterization of common bean germplasm for resistance to terminal drought

Background and Aims: The forage grass Brachiaria humidicola (Bh) has been shown to reduce soil microbial nitrification. However, it is not known if biological nitrification inhibition (BNI) also has an effect on nitrogen (N) cycling during cultivation of subsequent crops. Therefore, the objective...


Karwat, HannesMoreta, DaniloArango, JacoboNúñez, JonathanRao, Idupulapati M.Rincón, ÁlvaroRasche, FrankCadisch, Georg[Residual effect of BNI by Brachiaria humidicola pasture on nitrogen recovery and grain yield of subsequent maize]Residual effect of BNI by Brachiaria humidicola pasture on nitrogen recovery and grain yield of subsequent maize

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

Djikeng, AppolinaireRao, Idupulapati M.Njarui, Donald M.G.Mutimura, MupenziCaradus, John R.Ghimire, Sita R.Johnson, L.Cardoso Arango, Juan AndrésAhonsi, M.Kelemu, Segenet[Climate-smart Brachiaria grasses for improving livestock production in East Africa]Climate-smart Brachiaria grasses for improving livestock production in East Africa

Rao, Idupulapati M.Ishitani, ManabuMiles, John W.Peters, MichaelTohme, Joseph M.Arango, JacoboMoreta, D.E.López, H.Castro, A.Hoek, Rein van derMartens, S.Hyman, GlennTapasco, JeimarDuitama, J.Suarez, H.Borrero, GonzaloNunez, J.Hartmann, K.Domínguez, M.Sotelo, M.Vergara, D.Lavelle, Patrick M.Subbaraoa, Guntur V.Rincón, A.Plazas, C.Mendoza, R.Rathjen, L.Cadisc, G.[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

Moreta, D.E.Arango, JacoboSotelo, M.Vergara, D.Rincón, A.Ishitani, ManabuCastro, A.Miles, 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
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

The presentation addresses the influence that cultivation of forage can have on the accumulation of carbon in pasture soils. Presentation given by Jacobo Arango at COP 23 in Bonn, Germany on 12 November 2017.


Arango, JacoboFisher, Myles J.Castro, AracelyCardoso Arango, Juan AndrésHyman, GlennChirinda, NgonidzasheSilva, Mayesse A. daLascano, Carlos E.Miles, John W.Peters, MichaelTohme, Joseph M.Rao, Idupulapati M.[Forage Cultivation Influence in Soil Carbon Accumulation]Forage Cultivation Influence in Soil Carbon Accumulation
Moreta, D.E.Arango, JacoboSotelo, M.Vergara, D.Rincón, A.Ishitani, ManabuCastro, A.Miles, John W.Peters, MichaelTohme, Joseph M.Subbaraoa, Guntur V.Cadisch, GeorgRao, Idupulapati M.[Using biological nitrification inhibition as a strategy to improve nitrogen recovery and nitrogen use efficiency of agricultural systems and to mitigate climate change]Using biological nitrification inhibition as a strategy to improve nitrogen recovery and nitrogen use efficiency of agricultural systems and to mitigate climate change

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