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Journal Article 2013

Control of root system architecture by DEEPER ROOTING 1 increases rice yield under drought conditions

Autor: Uga, Y Sugimoto, K Ogawa, Satoshi Rane, Jagadish Ishitani, Manabu Hara, N Kitomi, Y Inukai, Y Ono, K Kanno, N Inoue, H Takehisa, H Motoyama, R Nagamura, Y Wu, J. Matsumoto, T Takai, T Okuno, K Yano, M.

The genetic improvement of drought resistance is essential for stable and adequate crop production in drought-prone areas1. Here we demonstrate that alteration of root system architecture improves drought avoidance through the cloning and characterization of DEEPER ROOTING 1 (DRO1), a rice quanti...

Enlace original: https://cgspace.cgiar.org/handle/10568/51539

Investigación en Agricultura

ORYZA SATIVA

GENOTYPES

DROUGHT TOLERANCE

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Uga, Y , Sugimoto, K , Ogawa, Satoshi , Rane, Jagadish , Ishitani, Manabu , Hara, N , Kitomi, Y , Inukai, Y , Ono, K , Kanno, N , Inoue, H , Takehisa, H , Motoyama, R , Nagamura, Y , Wu, J. , Matsumoto, T , Takai, T , Okuno, K , Yano, M. , [Control of root system architecture by DEEPER ROOTING 1 increases rice yield under drought conditions] , Control of root system architecture by DEEPER ROOTING 1 increases rice yield under drought conditions

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Control of root system architecture by DEEPER ROOTING 1 increases rice yield under drought conditions

Rice Root physiology work at CIAT: Identification of ideal root system to improve water and Nitrogen uptake under stress conditions

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Resultados de búsqueda

Control of root system architecture by DEEPER ROOTING 1 increases rice yield under drought conditions

Rice Root physiology work at CIAT: Identification of ideal root system to improve water and Nitrogen uptake under stress conditions

[ciatseminar20oct2016sogawa.pdf]