Two high-BNI (biological nitrification inhibition) elite lines available for next users

CIMMYT and JIRCAS demonstrated feasibility of enhancing BNI capacity in elite wheats by transferring a chromosome arm 3NsbS controlling BNI traits from wild grass as a wheat L. racemosus translocation chromosome (T3BL.3NsbS). Enhanced BNI release from root systems of T3BL.3NsbS resulted in suppressi...

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Detalles Bibliográficos
Autor principal:	CGIAR Research Program on Wheat
Formato:	Informe técnico
Lenguaje:	Inglés
Publicado:	2021
Materias:	soil development rural development wheat wheats chromosomes systems nitrification agrifood systems root systems translocation inhibition
Acceso en línea:	https://hdl.handle.net/10568/122627

Descripción
Sumario:	CIMMYT and JIRCAS demonstrated feasibility of enhancing BNI capacity in elite wheats by transferring a chromosome arm 3NsbS controlling BNI traits from wild grass as a wheat L. racemosus translocation chromosome (T3BL.3NsbS). Enhanced BNI release from root systems of T3BL.3NsbS resulted in suppression of soil nitrifier activity.

Two high-BNI (biological nitrification inhibition) elite lines available for next users

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