Frontiers in Plant Science (May 2017)

Genetic Variability, Genotype × Environment Interaction, Correlation, and GGE Biplot Analysis for Grain Iron and Zinc Concentration and Other Agronomic Traits in RIL Population of Sorghum (Sorghum bicolor L. Moench)

  • Rahul M. Phuke,
  • Rahul M. Phuke,
  • Kotla Anuradha,
  • Kommineni Radhika,
  • Farzana Jabeen,
  • Ghanta Anuradha,
  • Thatikunta Ramesh,
  • K. Hariprasanna,
  • Shivaji P. Mehtre,
  • Santosh P. Deshpande,
  • Gaddameedi Anil,
  • Roma R. Das,
  • Abhishek Rathore,
  • Tom Hash,
  • Belum V. S. Reddy,
  • Are Ashok Kumar

DOI
https://doi.org/10.3389/fpls.2017.00712
Journal volume & issue
Vol. 8

Abstract

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The low grain iron and zinc densities are well documented problems in food crops, affecting crop nutritional quality especially in cereals. Sorghum is a major source of energy and micronutrients for majority of population in Africa and central India. Understanding genetic variation, genotype × environment interaction and association between these traits is critical for development of improved cultivars with high iron and zinc. A total of 336 sorghum RILs (Recombinant Inbred Lines) were evaluated for grain iron and zinc concentration along with other agronomic traits for 2 years at three locations. The results showed that large variability exists in RIL population for both micronutrients (Iron = 10.8 to 76.4 mg kg−1 and Zinc = 10.2 to 58.7 mg kg−1, across environments) and agronomic traits. Genotype × environment interaction for both micronutrients (iron and zinc) was highly significant. GGE biplots comparison for grain iron and zinc showed greater variation across environments. The results also showed that G × E was substantial for grain iron and zinc, hence wider testing needed for taking care of G × E interaction to breed micronutrient rich sorghum lines. Iron and zinc concentration showed high significant positive correlation (across environment = 0.79; p < 0.01) indicating possibility of simultaneous effective selection for both the traits. The RIL population showed good variability and high heritabilities (>0.60, in individual environments) for Fe and Zn and other traits studied indicating its suitability to map QTL for iron and zinc.

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