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- Title
The genetic architecture of biomechanical traits in sorghum.
- Authors
Gomez, Francisco E.; Mullet, John E.; Muliana, Anastasia H.; Niklas, Karl J.; Rooney, William L.
- Abstract
Sorghum bicolor (L.) Moench is the fifth most commonly grown cereal crop worldwide with unrivaled drought tolerance compared with other cereal crops. Drought and heat tolerance and high biomass yield potential make sorghum a promising bioenergy crop. However, stem lodging is a significant problem that results in substantial yield losses. Stem biomechanical traits influence the mechanical stability of crops and breeding for desirable biomechanical traits may result in improved lodging resistance. In this study, we report the identification of quantitative trait loci (QTL) for stem mechanical and morphological traits in three recombinant inbred line (RIL; populations from Tx623/Rio, Tx623/Della, and Tx631/Della) crosses between elite grain and sweet sorghum parents. The genetic architecture of stem biomechanical traits in the three RIL populations is multigenic and pleiotropic. Eight QTL affecting mechanical and morphological traits were detected; two main effects of these QTL were consistently found in all populations and colocated with previously identified dwarfing genes Dw1 and Dw3. These results indicate that dwarfing genes affect the mechanical properties of sorghum stems and their lodging resistance, while also having demonstrable effects on stem morphology. The identification of these QTL provides new opportunities for improving stem lodging resistance via genomics‐assisted breeding.
- Subjects
PLANT breeding; SORGO; SORGHUM; DROUGHT tolerance; SORGHUM farming; CROPS; MORPHOLOGY
- Publication
Crop Science, 2020, Vol 60, Issue 1, p82
- ISSN
0011-183X
- Publication type
Article
- DOI
10.1002/csc2.20049