Author: Lafitte, H.R.
- Selection improves drought tolerance in tropical maize populations: I. Gains in biomass, grain yield, and harvest index
- Selection for drought tolerance increases maize yields across a range of nitrogen levels
- Efficiency of high-nitrogen selection environments for improving maize for low-nitrogen target environments
- Efficiency of secondary traits for improving maize for low-nitrogen target environments
Author: Edmeades, G.O.
Similar Items: Selection improves drought tolerance in tropical maize populations: I. Gains in biomass, grain yield, and harvest index
- Selection for drought tolerance increases maize yields across a range of nitrogen levels
- Breeding for drought tolerance: direct selection for yield, response to selection and use of drought-tolerant donors in upland and lowland-adapted populations
- Reversing yield declines of a subtropical vertisol
- Response to direct selection for grain yield under drought stress in rice
- Phenotypic assessment of genetic gain from selection for improved drought tolerance in semi-tropical maize populations
- Harvest index is a key trait for screening drought-tolerant potato genotypes (Solanum tuberosum)
Similar Items: Selection for drought tolerance increases maize yields across a range of nitrogen levels
- Selection improves drought tolerance in tropical maize populations: I. Gains in biomass, grain yield, and harvest index
- Efficiency of high-nitrogen selection environments for improving maize for low-nitrogen target environments
- Breeding for drought tolerance: direct selection for yield, response to selection and use of drought-tolerant donors in upland and lowland-adapted populations
- Efficiency of secondary traits for improving maize for low-nitrogen target environments
- Response to direct selection for grain yield under drought stress in rice
- Yield potential and yield stability of maize hybrids selected for drought tolerance