Rice Cultivars Carrying the Semi Dwarfing Allele Enables High Yield without Lodging under Hairy Vetch based Green Manure
Fukuda, H.; Sakamoto, T.; Fukuda, A.; Ogawa, D.
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Green manure is a promising strategy for reducing dependence on chemical fertilizers in crop production. However, vigorous growth due to green manure often leads to high yield accompanied by lodging in rice, hindering its practical use in rice cultivation. Here, we show that rice cultivars carrying a semi-dwarfing sd1/ga20ox2 allele achieve high grain yield without lodging under hairy vetch-based green manure conditions. The leading Japanese cultivar Koshihikari exhibited enhanced vegetative growth, increased panicle number, and consequently higher grain yield and quality under green manure conditions in 2023 and 2024 compared with chemical fertilizer management, although this was accompanied by increased culm length and widespread lodging. Among the four GA20-oxidase genes, green manure significantly upregulated Sd1/GA20ox2 mRNA levels. A temperate japonica cultivar, Nijinokirameki, and an indica cultivar, Hokuriku-193, carrying a non-functional sd1/ga20ox2 allele exhibited no lodging under hairy vetch-based green manure management while achieving improved yield performance. Notably, yields obtained under our hairy vetch-based cultivation system were comparable to or exceeded a recently reported high-yield benchmark observed for Hokuriku-193 under chemical fertilizer management in the same region of Japan. These findings suggest that cultivars harboring non-functional sd1/ga20ox2 alleles enable the practical implementation of annual hairy-vetch-rice rotation for sustainable rice production.
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