Autor: Ishitani, Manabu
- Control of root system architecture by DEEPER ROOTING 1 increases rice yield under drought conditions
- Molecular breeding approach in managing abiotic stresses
- CIAT phenotyping platform: aiming at improving eco-efficiency of crops in the changing global climate
- Response of Crop Plants to Nitrogen Stress Opportunities to Increase Nitrogen Use Efficiency
Autor: Rao, Idupulapati M.
Ejemplares similares: Control of root system architecture by DEEPER ROOTING 1 increases rice yield under drought conditions
- QTL pyramiding reveals a crucial role of DEEPER ROOTING 1 on root system architecture adapted to drought stress in rice
- Evaluation of rice breeding lines containing root QTLs under different water management environments
- Rice Root physiology work at CIAT: Identification of ideal root system to improve water and Nitrogen uptake under stress conditions
- DREB genes and deeper rooting phenotype in common bean (Phaseolus vulgaris) for drought tolerance
- Drought Response in Wheat: Key Genes and Regulatory Mechanisms Controlling Root System Architecture and Transpiration Efficiency
- Root system architecture variation in response to different NH4+ concentrations and its association with nitrogen-deficient tolerance traits in rice
Ejemplares similares: Molecular breeding approach in managing abiotic stresses
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- A comparison of differential gene expression in response to the onset of water stress between three hybrid Brachiaria genotypes
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