Your search keyword '"Tetsufumi SAKAI"' showing total 2 results

1. Evaluation of dry matter production and yield in early-sown wheat using near-isogenic lines for the vernalization locus Vrn-D1

Author

Hiroko Sawada, Hiromi Matsuyama, Hitoshi Matsunaka, Masaya Fujita, Natsumi Okamura, Masako Seki, Hisayo Kojima, Chikako Kiribuchi-Otobe, Toshiyuki Takayama, Shunsuke Oda, Kazuhiro Nakamura, Tetsufumi Sakai, Morio Matsuzaki, and Kenji Kato

Subjects

dry matter production, global warming, near-isogenic line, vrn-d1, wheat, yield, Plant culture, SB1-1110

Abstract

Wheat (Triticum aestivum L.) grain yield is predicted to decrease in the future because of an increase in air temperature globally. To clarify the effects of the vernalization response gene in wheat to warmer winters, we compared dry matter production and grain yield between spring wheat ‘Asakazekomugi’ and its winter-type near-isogenic line (NIL) carrying different alleles of the vernalization response gene Vrn-D1 under early-, standard-, and late-sowing conditions. Under early-sowing conditions, dry matter production of the NIL carrying the winter allele of Vrn-D1, named Asa (Vrn-D1b), exceeded that of ‘Asakazekomugi’ from mid-March (after stem elongation in Asa (Vrn-D1b)) when the temperatures rose. Tiller number and leaf area index under early-sowing conditions were consistently higher in Asa (Vrn-D1b) than in ‘Asakazekomugi’ from mid-March onward. It was suggested that the early-sown ‘Asakazekomugi’ could not effectively absorb solar radiation to produce dry matter because of the acceleration of stem elongation caused by the Vrn-D1 gene during the cold season. The grain yield of Asa (Vrn-D1b) with early sowing was higher than with standard sowing. In contrast, the grain yield of ‘Asakazekomugi’ was lower in the early-sown crop than in the crop sown at the standard date. These results suggested that the higher grain yield of Asa (Vrn-D1b) than that of ‘Asakazekomugi’ under early-sown conditions could be due to Asa (Vrn-D1b) maintaining high dry matter production after the jointing stage by suppressing acceleration of growth caused by warm conditions after sowing. Abbreviations CGR: crop growth rate; HI: harvest index; LAI: leaf area index; NIL: near-isogenic line; SNP: single-nucleotide polymorphism

Published

2019

2. Evaluation of dry matter production and yield in early-sown wheat using near-isogenic lines for the vernalization locus Vrn-D1

Author

Hitoshi Matsunaka, Kazuhiro Nakamura, Shunsuke Oda, Natsumi Okamura, Hiroko Sawada, Masaya Fujita, Hiromi Matsuyama, Hisayo Kojima, Toshiyuki Takayama, Chikako Kiribuchi-Otobe, Masako Seki, Kenji Kato, Morio Matsuzaki, and Tetsufumi Sakai

Subjects

0106 biological sciences, Locus (genetics), lcsh:Plant culture, Biology, global warming, 01 natural sciences, wheat, lcsh:SB1-1110, Dry matter, Crop yield, near-isogenic line, food and beverages, Sowing, 04 agricultural and veterinary sciences, Vernalization, yield, eye diseases, Agronomy, Vernalization response, Air temperature, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Grain yield, dry matter production, sense organs, vrn-d1, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Wheat (Triticum aestivum L.) grain yield is predicted to decrease in the future because of an increase in air temperature globally. To clarify the effects of the vernalization response gene in wheat to warmer winters, we compared dry matter production and grain yield between spring wheat ‘Asakazekomugi’ and its winter-type near-isogenic line (NIL) carrying different alleles of the vernalization response gene Vrn-D1 under early-, standard-, and late-sowing conditions. Under early-sowing conditions, dry matter production of the NIL carrying the winter allele of Vrn-D1, named Asa (Vrn-D1b), exceeded that of ‘Asakazekomugi’ from mid-March (after stem elongation in Asa (Vrn-D1b)) when the temperatures rose. Tiller number and leaf area index under early-sowing conditions were consistently higher in Asa (Vrn-D1b) than in ‘Asakazekomugi’ from mid-March onward. It was suggested that the early-sown ‘Asakazekomugi’ could not effectively absorb solar radiation to produce dry matter because of the acceleration of stem elongation caused by the Vrn-D1 gene during the cold season. The grain yield of Asa (Vrn-D1b) with early sowing was higher than with standard sowing. In contrast, the grain yield of ‘Asakazekomugi’ was lower in the early-sown crop than in the crop sown at the standard date. These results suggested that the higher grain yield of Asa (Vrn-D1b) than that of ‘Asakazekomugi’ under early-sown conditions could be due to Asa (Vrn-D1b) maintaining high dry matter production after the jointing stage by suppressing acceleration of growth caused by warm conditions after sowing. Abbreviations CGR: crop growth rate; HI: harvest index; LAI: leaf area index; NIL: near-isogenic line; SNP: single-nucleotide polymorphism

Published

2019