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A High-Yielding Rice Cultivar “Takanari” Shows No N Constraints on CO(2) Fertilization

Enhancing crop yield response to elevated CO(2) concentrations (E-[CO(2)]) is an important adaptation measure to climate change. A high-yielding indica rice cultivar “Takanari” has recently been identified as a potential candidate for high productivity in E-[CO(2)] resulting from its large sink and...

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Detalles Bibliográficos
Autores principales: Hasegawa, Toshihiro, Sakai, Hidemitsu, Tokida, Takeshi, Usui, Yasuhiro, Nakamura, Hirofumi, Wakatsuki, Hitomi, Chen, Charles P., Ikawa, Hiroki, Zhang, Guoyou, Nakano, Hiroshi, Matsushima, Miwa Yashima, Hayashi, Kentaro
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6460941/
https://www.ncbi.nlm.nih.gov/pubmed/31024578
http://dx.doi.org/10.3389/fpls.2019.00361
Descripción
Sumario:Enhancing crop yield response to elevated CO(2) concentrations (E-[CO(2)]) is an important adaptation measure to climate change. A high-yielding indica rice cultivar “Takanari” has recently been identified as a potential candidate for high productivity in E-[CO(2)] resulting from its large sink and source capacities. To fully utilize these traits, nitrogen should play a major role, but it is unknown how N levels influence the yield response of Takanari to E-[CO(2)]. We therefore compared grain yield and quality of Takanari with those of Koshihikari, a standard japonica cultivar, in response to Free-Air CO(2) enrichment (FACE, +200 μmol mol(−1)) under three N levels (0, 8, and 12 g m(−2)) over three seasons. The biomass of both cultivars increased under E-[CO(2)] at all N levels; however, the harvest index decreased under E-[CO(2)] in the N-limited treatment for Koshihikari but not for Takanari. The decreased harvest index of Koshihikari resulted from limited enhancement of spikelet number under N-limitation. In contrast, spikelet number increased in E-[CO(2)] in Takanari even without N application, resulting in significant yield enhancement, averaging 18% over 3 years, whereas Koshihikari exhibited virtually no increase in yield in E-[CO(2)] under the N-limited condition. Grain appearance quality of Koshihikari was severely reduced by E-[CO(2)], most notably in N-limited and hot conditions, by a substantial increase in chalky grain, but chalky grain % did not increase in E-[CO(2)] even without N fertilizer. These results indicated that Takanari could retain its high yield advantage over Koshihikari with limited increase in chalkiness even under limited N conditions and that it could be a useful genetic resource for improving N use efficiency under E-[CO(2)].