東京大学 大学院農学生命科学研究科 生物・環境工学専攻

生物環境工学研究室

Bioenvironmental Engineering Lab
The University of Tokyo

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近年の発表論文

2024

  • Jishi, T., K. Nishino, R. Matsuda, A. Yano and K. Fujiwara: Cos lettuce growth under pulsed light generated with full-wave rectification of 50 Hz sine-wave alternating-current power. Journal of Agricultural Meteorology 80(2): 35-40.(2024)

2023

  • Fujiwara, K., T. Jishi, K. Nishino and A. Yano: Net photosynthetic rate of cos lettuce under pulsed light generated with full-wave rectification of 50 Hz sine-wave alternating-current power. Journal of Agricultural Meteorology 79(3): 104–108. (2023)
  • Matsuda, R., M. Shinohara, L. Yu and K. Fujiwara: Responses of leaf mass per area of cucumber seedlings to light with diurnal and day-to-day changes in photosynthetic photon flux density. Journal of Agricultural Meteorology 79(4): 138–141. (2023)
  • Matsuda, R., S. Shiba, Y. Chen, S. Kubo, L. Yu, J.-Y. Lee and K. Fujiwara: Growth of cucumber seedlings under emulated sunlight with artificially reproduced fluctuations in photosynthetic photon flux density. Journal of Agricultural Meteorology 79(4): 131–137. (2023)
  • Kim, Y.-J., M.-S. Yeom, J.-Y. Lee, S.-Y. Park and M.-M. Oh: Biomass and ginsenosides content of ginseng sprouts upon exposure to several white LED lights with different correlated color temperatures and color rendering indexes. Horticultural Science and Technology 42(2): 167–179. (2023)

2022

  • Fujiwara, K., S. Kubo, K. Eijima, R. Matsuda and A. Yano: Improved LED artificial sunlight source system available for sunlight-effect research in plant sciences. Journal of Agricultural Meteorology 78(3): 101–112. (2022)
  • Ishii, M., V. P. Lam, K. Fujiwara and J. Park: Intermittent root flushing with ozonated water promotes plant growth of Komatsuna (Brassica rapa L.) grown in nutrient film technique hydroponic culture. Ozone Science and Engineering 44(5): 464–472. (2022)
  • Lee, J., E. Goto, H. Yoshida and S. Hikosaka: Optimal harvest-time to maximize the annual camptothecin production by Ophiorrhiza pumila in a plant factory with artificial light. Journal of Natural Medicines 76(4): 865–872. (2022)
  • Matsuda, R.: Inter-batch variability of hemagglutinin content transiently expressed in Nicotiana benthamiana plants grown under sole-source lighting and sunlight conditions before gene transfer. Journal of Agricultural Meteorology 78(4): 164–173. (2022)
  • Fujiwara, K.: Performance description sheet for plant cultivation LED luminaires. Acta Horticulturae 1337: 81–88. (2022)
  • 松田 怜・的場伸行: 植物工場を利用した医薬用タンパク質生産. 生物と気象 22(3): 58–68. (2022)

2021

  • Fujiuchi, N., R. Matsuda, N. Matoba and K. Fujiwara : Effects of lighting conditions on Agrobacterium-mediated transient expression of recombinant hemagglutinin in detached Nicotiana benthamiana leaves inoculated with a deconstructed viral vector. Plant Cell, Tissue and Organ Culture, 145: 679-688. (2021) (E)
  • Matsuda, R., K. Hayano, T. Kawashima, K. Fujiwara : Intraseasonal and interseasonal applicability of a neural network model for real-time estimation of the number of air exchanges per hour of a naturally ventilated greenhouse. Journal of Agricultural Meteorology, 77(1): 96-101. (2021) (E)
  • Jishi, T. and K. Fujiwara : Time-varying photosynthetic photon flux density and relative spectral photon flux density distribution to improve plant growth and morphology in plant factories with artificial lighting. The Horticulture Journal, 90(2): 147-153. (2021)

2019

  • Matsuda, R., K. Hayano, S. Yagi and K. Fujiwara : Comparison of neural network models with aerodynamic and empirical models toward real-time estimation of the number of air exchanges per hour of a naturally ventilated greenhouse. Journal of Agricultural Meteorology, 75(3): 166-172. (2019)
  • Matsuda R., A. Ueno and K. Fujiwara : Effects of environmental conditions before gene transfer on the amount of influenza hemagglutinin transiently expressed in Nicotiana benthamiana leaves. Journal of Agricultural Meteorology, 75(3): 129-136. (2019)
  • Shibuya, T., S. Kishigami, R. Endo, R. Matsuda : Interaction between red to far-red ratio of light and vapor pressure deficit on extension growth of cucumber seedlings. Scientia Horticulturae, 248, 98-104. (2019)
  • Fujiwara, K. : Light sources. In: Kozai, T. et al. (eds.) Plant Factory: An indoor vertical farming system for efficient quality food production, 2nd Edition, Academic Press, London, UK, p.139-151. (2019)
  • Iizumi, T., R. Hirata and R. Matsuda (eds.) : Adaptation to Climate Change in Agriculture: Research and Practices, Springer Singapore, Singapore, pp.227. (2019)
  • Matsuda, R : Effects of supplemental lighting with LEDs on physiological aspects of photosynthesis in crop plants. Light & Engineering, 27, 42-48. (2019)
  • 村上貴一・地子智浩・松田 怜・富士原和宏 : 人工光植物栽培における光質と光合成. 光合成研究, 29(2), 138-146. (2019)
  • Fujiwara, K. : Introduction of a performance description sheet for plant cultivation LED luminaires. Proc. 2019 International Symposium on Environment Control Technology for Value-added Plant Production, 160-165, Huwan Hotel, Beijing, China. (2019)

2018

  • Jishi, T., R. Matsuda and K. Fujiwara: Effects of photosynthetic photon flux density, frequency, duty ratio and their interactions on net photosynthetic rate of cos lettuce leaves under pulsed light: explanation based on photosynthetic-intermediate pool dynamics. Photosynthesis Research 136(3): 371-378. (2018)
  • Matsuda, R., T. Kushibiki, N. Fujiuchi and K. Fujiwara: Agroinfiltration of leaves for deconstructed viral vector-based transient gene expression: infiltrated leaf area affects recombinant hemagglutinin yield. Horticulture, Environment, and Biotechnology 59(4): 547-555. (2018)
  • Matsuda, R., A. Ueno, H. Nakaigawa, K. Fujiwara: Gas exchange rates decrease and leaf temperature increases in Nicotiana benthamiana leaves transiently overexpressing hemagglutinin in an Agrobacterium -assisted viral vector system. Frontiers in Plant Science, 9, 1315. (2018)
  • Murakami, K., R. Matsuda and K. Fujiwara: Quantification of excitation energy distribution between photosystems based on a mechanistic model of photosynthetic electron transport. Plant, Cell and Environment 41(1): 148-159. (2018)
  • Murakami, K., R. Matsuda and K. Fujiwara: A mathematical model of photosynthetic electron transport in response to light spectrum based on excitation energy distributed to photosystems. Plant and Cell Physiology 59(8): 1643-1651. (2018)
  • 富士原和宏 (2018): 光植物学研究用LED人工太陽光光源システム. 照明学会誌 102(11): 505-509.
  • 富士原和宏 (2018): 分光分布制御型LED人工太陽光光源システム. 「アグリフォトニクスⅢ」(分担執筆), シーエムシー出版, p.156-167.
  • 後藤英司・富士原和宏 (2018): 植物用LED照明器具特性表のガイドライン. 「アグリフォトニクスⅢ」(分担執筆), シーエムシー出版, p.203-209.
  • 地子智浩・富士原和宏 (2018): 矩形パルス光照射がレタス個葉の純光合成速度に及ぼす影響. 「アグリフォトニクスⅢ」(分担執筆), シーエムシー出版, p.147-155.
  • 松田 怜・藤内直道 (2018): 植物を利用した医薬用タンパク質生産のための環境調節. 関東の農業気象, 44, p.6-11.

2017

  • Fujiuchi, N., R. Matsuda, N. Matoba and K. Fujiwara: Effects of plant density on recombinant hemagglutinin yields in an Agrobacterium-mediated transient gene expression system using Nicotiana benthamiana plants. Biotechnology and Bioengineering 114(8): 1762-1770. (2017)
  • Matsuda, R., T. Abe, N. Fujiuchi, N. Matoba and K. Fujiwara: Effect of temperature post viral vector inoculation on the amount of hemagglutinin transiently expressed in Nicotiana benthamiana leaves. Journal of Bioscience and Bioengineering 124(3): 346-350. (2017)
  • Matsuda, R., T. Abe and K. Fujiwara: Viral vector-based transient gene expression in Nicotiana benthamiana: effects of light source on leaf temperature and hemagglutinin content. Plant Cell Reports 30(10): 1667-1669. (2017)
  • Murakami, K., R. Matsuda and K. Fujiwara: A basis for selecting light spectral distribution for evaluating leaf photosynthetic rates of plants grown under different light spectral distributions. Environmental Control in Biology 55(1): 1-6. (2017)

2016

  • Fujiuchi, N., R. Matsuda, N. Matoba and K. Fujiwara: Removal of bacterial suspension water occupying the intercellular space of detached leaves after agroinfiltration improves the yield of recombinant hemagglutinin in a Nicotiana benthamiana transient gene expression system. Biotechnology and Bioengineering 113(4): 901-906. (2016)
  • Fujiuchi, N., N. Matoba and R. Matsuda: Environment control to improve recombinant protein yields in plants based on Agrobacterium-mediated transient gene expression. Frontiers in Bioengineering and Biotechnology 4: 23. (2016)
  • Fujiwara, K.: Radiometric, photometric and photonmetric quantities and their units. In: Kozai, T. et al. (eds.) LED Lighting for Urban Agriculture, Springer Science+Business Media, Singapore, p.367-376. (2016)
  • Fujiwara, K.: Basics of LEDs for plant cultivation. In: Kozai, T. et al. (eds.) LED Lighting for Urban Agriculture, Springer Science+Business Media, Singapore, p.377-394. (2016)
  • Jishi, T., K. Kimura, R. Matsuda and K. Fujiwara: Effects of temporally shifted irradiation of blue and red LED light on cos lettuce growth and morphology. Scientia Horticulturae 198: 227-232. (2016)
  • Kozai, T., K. Fujiwara and E. Rankle (eds.): LED Lighting for Urban Agriculture, Springer Science+Business Media, Singapore, p.454. (2016)
  • Kozai, T. and K. Fujiwara: Moving toward self-learning plant production systems. In: Kozai, T. et al. (eds.) LED Lighting for Urban Agriculture, Springer Science+Business Media, Singapore, p.445-448. (2016)
  • Matsuda, R., T. Yamano, K. Murakami and K. Fujiwara: Effects of spectral distribution and photosynthetic photon flux density for overnight LED light irradiation on tomato seedling growth and leaf injury. Scientia Horticulturae 198: 363-369. (2016)
  • Matsuda, R. and K. Murakami: Light- and CO2-dependent systemic regulation of photosynthesis. In: Luttge, U. et al. (eds.) Progress in Botany 77, Springer International Publishing, Switzerland, p.151-166. (2016)
  • Matsuda, R.: Effects of physical environment on photosynthesis, respiration, and transpiration. In: Kozai, T. et al. (eds.) LED Lighting for Arban Agriculture, Springer Science+Business Media, Singapore, p.163-175. (2016)
  • Murakami, K., R. Matsuda and K. Fujiwara: Interaction between the spectral photon flux density distributions of light during growth and for measurements in net photosynthetic rates of cucumber leaves. Physiologia Plantarum 158(2): 218-224. (2016)
  • Murakami, K. and R. Matsuda: Optical and physiological properties of a leaf. In: Kozai, T. et al. (eds.) LED Lighting for Arban Agriculture, Springer Science+Business Media, Singapore, p.113-123. (2016)

2015

  • Fujiwara, K.: Light sources. In: Kozai, T. et al. (eds.) Plant Factory: An indoor vertical farming system for efficient quality food production, Academic Press, London, UK, p.118-128. (2015)
  • Jishi, T., R. Matsuda and K. Fujiwara: A kinetic model for estimating net photosynthetic rates of cos lettuce leaves under pulsed light. Photosynthesis Research 124(1): 107-116. (2015)
  • Park, J.-S. and K. Fujiwara: Storage of grafted-tomato seedling under low-light conditions with light-emitting diodes and an electroluminescent sheet. Horticulture, Environment and Biotechnology 56(4): 472?477. (2015)

2014

  • Atobe, R., K. Saga, H. Maeyama, K. Fujiwara, S. Okada and K. Imou: Culture of the green microalga Botryococcus braunii Showa with LED irradiation eliminating violet light enhances hydrocarbon production and recovery. Bioscience, Biotechnology and Biochemistry 78(10): 1765-1771. (2014)
  • Fujiuchi, N., R. Matsuda, N. Matoba and K. Fujiwara: Effect of nitrate concentration in nutrient solution on hemagglutinin content of Nicotiana benthamiana leaves in a viral vector-mediated transient gene expression system. Plant Biotechnology 31(3): 207-211. (2014)
  • Hoyo, Y., K. Fujiwara and Y. Hoshino: Effects of different wavelengths of LED light on pollen germination and direction of pollen tube elongation in Cyrtanthus mackenii. Advances in Horticultural Science 28(4): 190-194. (2014)
  • Matsuda, R., N. Ozawa and K. Fujiwara: Leaf photosynthesis, plant growth, and carbohydrate accumulation of tomato under different photoperiods and diurnal temperature differences. Scientia Horticulturae 170: 150-158. (2014)
  • Murakami, K., R. Matsuda and K. Fujiwara: Light-induced systemic regulation of photosynthesis in primary and trifoliate leaves of Phaseolus vulgaris: effects of photosynthetic photon flux density (PPFD) versus spectrum. Plant Biology 16(1): 16-21. (2014)