Your search keyword '"Shinya Kasajima"' showing total 8 results

1. High-Yielding Ability of the Winter Wheat Variety ‘Kitahonami’ in Terms of Nitrogen Accumulation and Dry Matter Production During the Ripening Period

Author

Shinya KASAJIMA, Shota YAMADA, Hirotake ITOH, Shizen OHNISHI, Hironobu JINNO, and Tadashi TAKAHASHI

Subjects

Genetics, Agronomy and Crop Science, Food Science

Published

2022

2. Improvement of yield performance by examining the morphological aspects of a leading winter wheat variety, ‘Kitahonami’, in Hokkaido, the northernmost region of Japan

Author

Shinya Kasajima and Hideharu Araki

Subjects

0106 biological sciences, kitahonami, hokkaido, Winter wheat, food and beverages, 04 agricultural and veterinary sciences, lcsh:Plant culture, Biology, 01 natural sciences, winter wheat, Agronomy, tillering, Yield (wine), 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, lcsh:SB1-1110, Agronomy and Crop Science, plant type, 010606 plant biology & botany

Abstract

Hokkaido is a major wheat production region in Japan and is located in the northernmost area of the country. The winter wheat variety ‘Kitahonami’ is the most extensively grown variety in Hokkaido. We established a novel cultivation method to achieve stable high yields of ‘Kitahonami’ following examination of the morphological aspects of wheat cultivated in Hokkaido, Japan. The leaves of ‘Kitahonami’ are highly erect and potentially absorb radiation more effectively than those of ‘Hokushin’, which is the previous variety grown in Hokkaido, leading to a higher net assimilation rate in the later grain-filling phase and higher dry matter production after the milk-ripe stage; thus, we consider ‘Kitahonami’ as an ideotype. Furthermore, tracking tillering has been attempted using commercially available colored rubber bands. In winter wheat varieties including ‘Kitahonami’ in Hokkaido, the productive capacity of the tillers with >2 leaves before winter is high, leading to increased grain number and heavy spike weight. A decrease in the sowing rate is critical for stable high yields of ‘Kitahonami’. We have developed a novel nitrogen topdressing method that considers the plant type and tillering of ‘Kitahonami’. When the nitrogen topdressing is applied at the spike formation stage, maintaining a higher net assimilation rate until later phases of grain filling is possible using improved plant types with erect leaves. This paper summarizes the novel techniques for improving grain yield performance based on findings of the tillering trends and a plant type of ‘Kitahonami’.

Published

2020

3. Growth and yield of self-compatible and hybrid common buckwheat lines pollinated with and without flies

Author

Tatsuro Suzuki, Toshikazu Morishita, Yuji Mukasa, Chidori Katagiri, and Shinya Kasajima

Subjects

0106 biological sciences, Kitawasesoba, hybrid, fungi, 04 agricultural and veterinary sciences, Biology, lcsh:Plant culture, 01 natural sciences, self-compatibility, Agronomy, Yield (chemistry), 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, lcsh:SB1-1110, Fagopyrum esculentum, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Common buckwheat is a self-incompatible, insect-pollinated allogamous plant. This study examined growth and yield of the common buckwheat self-compatible and hybrid lines pollinated with and without flies. Self-compatible ‘IH3’, hybrid ‘IP2/IH3’, and standard self-incompatible ‘Kitawasesoba’ were used in field and pot experiments. Self-compatibility of ‘IH3’ was shown to be of high purity. Approximately 10% segregation of pin plants from ‘IP2/IH3’ was observed. The harvest index of ‘Kitawasesoba’ pollinated without flies was considerably lower than that pollinated with flies in both field and pot experiments. The harvest index values of ‘IH3’ and ‘IP2/IH3’ were hardly affected by the presence or absence of flies. The morphological traits of ‘IH3’ were significantly lower than those of the other two genotypes. Large differences in these traits between ‘IP2/IH3’ and ‘Kitawasesoba’ were not observed in either the field or pot experiments. The seed yield of ‘Kitawasesoba’ pollinated without flies tended to be lower than that pollinated with flies. The seed yield of ‘IP2/IH3’ tended to be higher than that of ‘IH3’. The hybrid line ‘IP2/IH3’ showed a high fertilization rate, which was nearly as high as that of ‘IH3’. Rate of fertilization and percentage of ripe seeds were higher in ‘IH3’ and ‘IP2/IH3’, wherein they were hardly affected by the presence or absence of flies, than in ‘Kitawasesoba’. The ‘IP2/IH3’ hybrid line will be useful for understanding the stable high-yielding ability of self-compatibility common buckwheat.

Published

2017

4. Differences in Growth and Grain Yield Performance between Old and New Winter Wheat Varieties Hokushin and Kitahonami in Hokkaido

Author

Yasuhiro Yoshimura, Yasuo Nakamaru, Kota Imai, Shinya Kasajima, Tadashi Takahashi, Hozumi Yoshida, Hirotake Itoh, Mikako Sato, Hironobu Jinno, and Takahiro Shimizu

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Agronomy, Winter wheat, Genetics, Grain yield, Biology, 01 natural sciences, Agronomy and Crop Science, 010606 plant biology & botany, 0105 earth and related environmental sciences, Food Science

Published

2016

5. Estimation of methane emission rates from a rice paddy field using a naturally ventilated tunnel

Author

Haruka Murata, Tomokazu Hayakawa, Shigemitsu Kasuga, Futoshi Kato, Anna Yoshikawa, Shinya Kasajima, and Naoto Inoue

Subjects

Methane emissions, Field (physics), Plant Science, Atmospheric sciences, Methane, chemistry.chemical_compound, Agronomy, chemistry, TRACER, Greenhouse gas, Paddy field, Environmental science, Stage (hydrology), Diffusion (business), Agronomy and Crop Science, Ecology, Evolution, Behavior and Systematics

Abstract

A novel system for monitoring methane emission from a flooded paddy field was developed in order to quantify the greenhouse gas emission in near-natural conditions. A paddy field planted with rice was covered by a semi-open vinyl tunnel (1.8 × 10 × 2.5 m), and the methane concentrations inside and outside the tunnel were measured continuously from the booting stage to the ripening stage (August–September) using a methane gas detector. Methane emission rates were calculated on an hourly basis from the differences between the internal and external methane concentrations and the natural diffusion rates determined using a tracer gas method. The results indicated that the paddy field emitted 0.41–1.32 g methane m−2 day−1 during the two growth stages. The vinyl tunnel had no adverse effect on the growth and yield of rice plants inside. Despite the disadvantage of non-accurate estimation under windy conditions, the technique is considered to be of potential value for evaluating methane emissions from a flooded paddy field.

Published

2012

6. Response Spectrum for Green Light-Induced Acceleration of Heading in Wheat cv. Norin 61

Author

Rezwanul Mahmud, Naoto Inoue, and Shinya Kasajima

Subjects

Physics, Heading (navigation), Green light, lcsh:Plant culture, Green-light, Response spectrum, Heading rate, Spectral sensitivity, Plant production, Wheat, Botany, lcsh:SB1-1110, sense organs, Agronomy and Crop Science

Abstract

The response spectrum for green light induced-acceleration of heading in wheat cv. Norin 61 was investigated using narrow-bandwidth (10 nm) green light within the range of 520–550 nm. Heading was observed from approximately 30 days after emergence. The earliest heading was observed at 540 nm, which suggests the presence of a green light photoreceptor different from hitherto known photoreceptors.

Published

2009

7. Developmental Responses of Wheat cv. Norin 61 to Fluence Rate of Green Light

Author

Shinya Kasajima, Naoto Inoue, Rezwanul Mahmud, and Masakazu Kato

Subjects

Morphology, Fluence rate, Wheat, food and beverages, Green light, Development, lcsh:Plant culture, Biology, Green-light, Fluence, Fluorescence, Light-emitting diode (LED), law.invention, Horticulture, Principal component analysis (PCA), law, Botany, lcsh:SB1-1110, Poaceae, Irradiation, Elongation, Agronomy and Crop Science, Light-emitting diode

Abstract

Wheat (Triticum aestivum L. cv. Norin 61) plants were grown under five different photon flux densities obtained by modulating the number of green light-emitting diodes (LEDs) under white fluorescent lamps. The experiment was conducted under continuous irradiation at a constant temperature of 20°C to clarify the developmental responses of wheat to the fluence rate of green light. The higher the photon flux density of green light, the shorter the number of days from emergence to heading. The earliest heading was observed in the plants grown under 496 green LEDs, 32.0 days after emergence. A significant logarithmic function could fit the relationship between the fluence rate of green light and developmental rate. In this report, principal component analysis (PCA) was adopted to analyze the confounding of green light versus photosynthetic photon flux density (PPFD) with 17 developmental and morphological traits. The eigenvalues explained were 5.64, 3.20, and 2.61, respectively, for the first, second and third principal components (PCs). The first PC was assumed as the factor related to the isometric growth, and the third PC was assumed as the factor related to the developmental rate and culm elongation. Therefore, it was supposed that the first and third PCs were affected by the PPFD and the photon flux density of green light, respectively. The results suggested that the fluence rate of green light affects the development of wheat as a signal source. Furthermore, the development of wheat was promoted by the green light independent of PPFD.

Published

2008

8. Effect of Light Quality on Developmental Rate of Wheat under Continuous Light at a Constant Temperature

Author

Kaori Fujita, Shinya Kasajima, Naoto Inoue, Rezwanul Mahmud, and Masakazu Kato

Subjects

photoperiodism, Chemistry, food and beverages, Green light, Vernalization, lcsh:Plant culture, Green-light, Developmental rate, Heading time, Fluorescence, Light quality, Horticulture, Wheat, Botany, lcsh:SB1-1110, Poaceae, Seeding, Cultivar, Red light, Agronomy and Crop Science

Abstract

The developmental rate of wheat was investigated under continuous light of eight different qualities (in eight plots) obtained by combining three out of four different kinds of fluorescent lamps (white, blue, purplish red and ultraviolet-A) at a constant temperature of 20°C. A Japanese spring wheat var. Norin 61 and a winter wheat var. Shun-yo were used. The number of days from seeding to heading varied extensively with the variety and the light quality. The first heading was observed in the plot under three white fluorescent lamps (W + W + W) at 37 and 81 days after seeding in Norin 61 and Shun-yo, respectively. The developmental rate in both cultivars was significantly correlated with the ratio of energy in 500-550 nm range (green light) and 600-700 nm range (red light) to that in the whole spectral range (250-1,000 nm). These results suggest that green and red lights play important roles in the regulation of the developmental rate independent of photoperiodism and vernalization.

Published

2007