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Biological Nitrification Inhibition (BNI): Phenotyping of a core germplasm collection of the tropical forage grass Megathyrsus maximus under greenhouse conditions

A group of accessions (cluster) with the most desirable agronomic and environmental traits was identified for further field validation. The results demonstrate the ability of M. maximus to suppress soil nitrification and N2O emissions, potentially contributing to the development of improved N-conser...

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Autor principal: CGIAR Research Program on Livestock
Formato: Informe técnico
Lenguaje:Inglés
Publicado: 2020
Materias:
livestock
germplasm
forage
production
soil
development
rural development
livestock production
grasses
systems
nitrification
agrifood systems
collection
inhibition
Acceso en línea:https://hdl.handle.net/10568/123373
Sumario:A group of accessions (cluster) with the most desirable agronomic and environmental traits was identified for further field validation. The results demonstrate the ability of M. maximus to suppress soil nitrification and N2O emissions, potentially contributing to the development of improved N-conserving forage grasses for tropical livestock production.

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