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Journal Article 2019-02-08

Nitrate reductase activity in leaves as a plant physiological indicator of in vivo biological nitrification inhibition by Brachiaria humidicola

Autor: Karwat, Hannes Sparke, Marc-André Rasche, Frank Arango, Jacobo Nuñez, Jonathan Rao, Idupulapati M. Moreta, Danilo Cadisch, Georg

The tropical forage grass Brachiaria humidicola (Bh) controls soil microbial nitrification via biological nitrification inhibition (BNI). The aim of our study was to verify if nitrate reductase activity (NRA) in Bh roots or leaves reflects in vivo performance of BNI in soils. NRA was measured in ...

Enlace original: https://cgspace.cgiar.org/handle/10568/99438

Investigación en Agricultura

TROPICAL FORAGES

BRACHIARIA

NITRASE ASSIMILATION

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Karwat, Hannes , Sparke, Marc-André , Rasche, Frank , Arango, Jacobo , Nuñez, Jonathan , Rao, Idupulapati M. , Moreta, Danilo , Cadisch, Georg , [Nitrate reductase activity in leaves as a plant physiological indicator of in vivo biological nitrification inhibition by Brachiaria humidicola] , Nitrate reductase activity in leaves as a plant physiological indicator of in vivo biological nitrification inhibition by Brachiaria humidicola

Poster 2019

Gross nitrogen transformation rates do not support previously described BNI capacities of selected Brachiaria genotypes

Autor: Vazquez, Eduardo Teutscherova, Nikola Pulleman, Mirjam Dannenmann, Michael Butterbach-Bahl, Klaus Töchterle, Paul Arango, Jacobo

Nitrification is one of the key processes leading to water contamination and greenhouse gas emissions (N2O) in pasture systems. As vast areas of tropical pastures are nitrogen (N) limited, grasses from the Brachiaria genus have adapted to reduce N losses and increase N use efficiency by releasing...

Enlace original: https://cgspace.cgiar.org/handle/10568/103641

Investigación en Agricultura

BRACHIARIA

GENOTYPES

GREENHOUSE GASES

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Vazquez, Eduardo , Teutscherova, Nikola , Pulleman, Mirjam , Dannenmann, Michael , Butterbach-Bahl, Klaus , Töchterle, Paul , Arango, Jacobo , [Gross nitrogen transformation rates do not support previously described BNI capacities of selected Brachiaria genotypes] , Gross nitrogen transformation rates do not support previously described BNI capacities of selected Brachiaria genotypes

Book Chapter 2016

Evidence of epigenetic mechanisms affecting carotenoids

Autor: Arango, Jacobo Beltrán, Jesús A. Nuñez, Jonathan Chavarriaga Aguirre, Paul

Enlace original: https://cgspace.cgiar.org/handle/10568/76363

Investigación en Agricultura

RNA

DNA SEQUENCE

CAROTENOIDS

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Arango, Jacobo , Beltrán, Jesús A. , Nuñez, Jonathan , Chavarriaga Aguirre, Paul , [Evidence of epigenetic mechanisms affecting carotenoids] , Evidence of epigenetic mechanisms affecting carotenoids

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Nitrate reductase activity in leaves as a plant physiological indicator of in vivo biological nitrification inhibition by Brachiaria humidicola

Gross nitrogen transformation rates do not support previously described BNI capacities of selected Brachiaria genotypes

Evidence of epigenetic mechanisms affecting carotenoids

Descubre y comparte nuestro conocimiento público

Resultados de búsqueda

Nitrate reductase activity in leaves as a plant physiological indicator of in vivo biological nitrification inhibition by Brachiaria humidicola

Gross nitrogen transformation rates do not support previously described BNI capacities of selected Brachiaria genotypes

[Vazquez et al. 2019. Gross Nitrogen Transformation Rates Do Not Support Previously Described BNI Capacities of Selected Brachiaria Genotypes_web (003).pdf]

Evidence of epigenetic mechanisms affecting carotenoids