Tolerance of longer-term partial stagnant flooding is independent of the SUB1 locus in rice

► Stagnant flooding (SF) badly damage rice varieties especially when it occurs after submergence. ► Contrasting genotypes were evaluated under SF in field and greenhouse trials. ► SF is more severe when it follows complete submergence and shorter genotypes are most affected. ► SF tolerance is indepe...

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Bibliographic Details
Published in:Field crops research 2011-04, Vol.121 (3), p.311-323
Main Authors: Singh, Sudhanshu, Mackill, David J., Ismail, Abdelbagi M.
Format: Article
Language:English
Subjects:
Crops
Flash flooding
Oryza sativa
Rainfed lowlands
Rice
Stagnant flooding
SUB1
Submergence tolerance
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Summary:► Stagnant flooding (SF) badly damage rice varieties especially when it occurs after submergence. ► Contrasting genotypes were evaluated under SF in field and greenhouse trials. ► SF is more severe when it follows complete submergence and shorter genotypes are most affected. ► SF tolerance is independent of SUB1, but both can be combined in high yielding varieties. Longer-term partial stagnant flooding, particularly when it occurs following transient complete submergence causes severe damage to modern rice varieties. Progress was made in developing varieties tolerant of complete submergence through transfer of the Submergence-1 ( SUB1) gene into popular varieties. However, SUB1 may not be effective under partial stagnant flooding (SF), as the new varieties may not elongate and continue growth when fully or partially submerged because of the SUB1-mediated suppression of elongation. We tested a set of rice genotypes, including a pair of near-isogenic lines (NILs), Swarna and Swarna-Sub1, under either SF or SF following complete submergence of 12 d. Swarna-Sub1 had higher survival and yield than Swarna following 12 d of submergence, but survival and grain yield of all lines decreased substantially when SF of 15–30 cm followed complete submergence, with the sensitive lines experiencing greater reductions in growth and yield. This suggests the importance of combining SUB1 with tolerance of SF in areas where both stresses are expected during the season. Swarna and Swarna-Sub1 are more sensitive to long-term partial SF than IR49830 and IR42 because of their short stature, and Swarna-Sub1 showed slightly higher reduction in tillering than did Swarna when subjected to deeper SF alone, possibly because of further inhibition of elongation by SUB1 if induced in submerged tissue. The results suggest that tolerance of these genotypes to SF depends less on SUB1 introgression and more so on the genetic background of the recipient genotype, with better performance of the genotypes that are inherently taller, such as IR42 and IR49830. The SUB1 donor landrace FR13A and its derivative breeding line IR49830 had better survival and relatively less reduction in grain yield under SF following complete submergence and under longer-term partial SF, indicating that these genotypes may have genes other than SUB1 for submergence and SF tolerance. For better adaptation to prolonged SF, SUB1 should be introgressed into genotypes that tolerate partial SF through better tillering ability
ISSN:0378-4290
1872-6852
DOI:10.1016/j.fcr.2010.12.021