Author: Egdane, James A.
Author: Ismail, Abdelbagi M.
Similar Items: A GWAS approach to find SNPs associated with salt removal in rice leaf sheath
- Fundamental parenchyma cells are involved in Na+ and Cl– removal ability in rice leaf sheath
- Leaf Na+ effects and multi-trait GWAS point to salt exclusion as the key mechanism for reproductive stage salinity tolerance in rice
- Growth performance of photoperiod-sensitive rice (Oryza sativa L.) varieties in different soil types under rainfed condition in Cambodia
- QTL mapping under salt stress in rice using a Kalarata–Azucena population
- QTL mapping and candidate gene identification in rice using a Kalarata-Azucena population under salt stress
- Genotypic variation in rice root system distribution and activity in response to short-term soil drought
Similar Items: Fundamental parenchyma cells are involved in Na+ and Cl– removal ability in rice leaf sheath
- A GWAS approach to find SNPs associated with salt removal in rice leaf sheath
- QTL mapping under salt stress in rice using a Kalarata–Azucena population
- Physiological Responses of Contrasting Rice Genotypes to Salt Stress at Reproductive Stage
- Assessing trait contribution and mapping novel QTL for salinity tolerance using the Bangladeshi rice landrace Capsule
- Efficiency of axenically grown Rhizoctonia solani inoculum types in evaluating sheath blight development on rice genotypes
- Deciphering environmental factors and defense response of rice genotypes against sheath blight disease