技術シーズ関連論文

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1 除草剤による植物の光合成機能障害の画像診断 −クロロフィルa蛍光解析におけるインダクション法と飽和パルス法の比較−.
大政謙次・高山弘太郎・後藤英司.
植物工場学会誌,13(1),29-37,2001.
DOI: https://doi.org/10.2525/jshita.13.29
2 除草剤による植物の光合成機能障害の画像診断 −尿素系土壌処理剤がin situのキュウリ葉に与える影響の解析−.
高山弘太郎・大政謙次.
植物工場学会誌, 13(4), 247-253,2001.
DOI: https://doi.org/10.2525/jshita.13.247
3 Diagnosis of Invisible Photosynthetic Injury Caused by a Herbicide (Basta) with Chlorophyll Fluorescence Imaging System.
Kotaro Takayama, Atsumi Konishi, Kenji Omasa.
CIGR Journal, 5, Manuscript IT 03 001, 1-12, 2003.
https://www.researchgate.net/publication/237338687
4 Simultaneous Measurement of Stomatal Conductance, Non-photochemical Quenching, and Photochemical Yield of Photosystem II in Intact Leaves by Thermal and Chlorophyll Fluorescence Imaging.
Kenji Omasa and Kotaro Takayama.
Plant and Cell Physiology, 44(12), 1290-1300, 2003.
https://doi.org/10.1093/pcp/pcg165
5 Early Detection of Photosynthetic Dysfunction Caused by a Herbicide (Basta) Using Chlorophyll Fluorescence and Thermal Imaging System.
Kotaro TAKAYAMA and Kenji OMASA.
Journal of Agricultural Meteorology,60(6),1179-1181,2005.
DOI: https://doi.org/10.2480/agrmet.1179
6 大規模ガラス温室内のトマト群落におけるクロロフィル蛍光パラメータ(Fv/Fm),SPAD値およびクロロフィル濃度の垂直分布の解析.
高山弘太郎・石神靖弘・後藤英司・久枝和昇・仁科弘重.
植物環境工学,18(4),277-283,2006.
https://doi.org/10.2525/shita.18.277
7 Analysis of the Psychological State of Elderly People in the Process of Raising Plants from Seedlings and Bulbs by Means of Brain Waves and the Semantic Differential Technique -Including Comparison with Young People-.
Sadako NORIMATSU, Hiroshige NISHINA, Kayo NOZAKI and Kotaro TAKAYAMA.
Environmental Control in Biology,45(3),143-153,2007.
https://doi.org/10.2525/ecb.45.143
8 大規模トマト生産温室における生産性向上に関する研究 -トマト群落における光強度とCO2固定量の垂直分布の解析-.
久枝和昇・高山弘太郎・仁科弘重・東 幸太・有馬誠一.
植物環境工学,19(1),19-26,2007.
https://doi.org/10.2525/shita.19.19
9 クロロフィル蛍光画像計測法によるハイゴケ(Hypnum plumaeforme)の光合成機能解析.
高山弘太郎,仁科弘重,坂井義明.
Eco-Engineering,19(1),49-57,2007.
https://doi.org/10.11450/seitaikogaku.19.49
10 Chlorophyll Fluorescence Imaging at 77K for Assessing the Heterogeneously Distributed Light Stress Over a Leaf Surface.
Kotaro TAKAYAMA, Yoshiaki SAKAI, Hiroshige NISHINA and Kenji OMASA.
Environmental Control in Biology,45(1),39-46,2007.
https://doi.org/10.2525/ecb.45.39
11 クロロフィル蛍光計測法によるシバ(Zoysia matrella Marr.)群落の光合成速度の定量評価.
高山弘太郎,仁科弘重,成原貴博,長野洋文,高倉 直.
Eco-Engineering,19(2),95-101,2007.
https://doi.org/10.11450/seitaikogaku.19.95
12 Detection of Water Stress Induced Photosynthetic Dysfunction in Tomato Plant Leaf with PRI Measurement.
K. Takayama, H. Nishina and Y. Sakai.
Acta Horticulturae,801(2),1213-1219,2008.
DOI: 10.17660/ActaHortic.2008.801.148
https://www.actahort.org/books/801/801_148.htm
13 Measurement of evapotranspiration rate in a single-span greenhouse using the energy-balance equation.
T. Takakura, C. Kubota, S. Sase, M. Hayashi, M. Ishii, K. Takayama, H. Nishina, K. Kurata, G.A. Giacomelli.
Biosystems Engineering,102,298-304,2009.
DOI: https://doi.org/10.1016/j.biosystemseng.2008.12.004
14 弱光励起クロロフィル蛍光インダクション画像計測による光阻害の検知.
高山弘太郎,仁科弘重,大泉喬子,有馬誠一,羽藤堅治.
Eco-Engineering,21(2),69-74,2009.
https://doi.org/10.11450/seitaikogaku.21.69
15 デジタルカメラを用いた投影面積モニタリングによるトマトの水ストレス早期診断.
高山弘太郎・仁科弘重・山本展寛・羽藤堅治・有馬誠一.
植物環境工学,21(2),59-64,2009.
https://doi.org/10.2525/shita.21.59
16 Health monitoring of plants by their emitted volatiles: A model to predict the effect of Botrytis cinerea on the concentration of volatiles in a large-scale greenhouse.
R.M.C. Jansen, J.W. Hofstee, J. Wildt, B.H.E. Vanthoor, F.W.A Verstappen, K. Takayama, H.J. Bouwmeester, E.J. van Henten.
Biosystems Engineering,106(1),37-47,2010.
DOI: https://doi.org/10.1016/j.biosystemseng.2010.01.009
17 太陽光利用型植物工場のトマト群落における光合成機能の空間分布の解析.
高山弘太郎・仁科弘重・久枝和昇・末岐 剛・原田 聰.
植物環境工学,22(4),175-180,2010.
DOI: https://doi.org/10.2525/shita.22.175
18 Assessment of Photosynthetic Dysfunction in a Whole Tomato Plant with Chlorophyll Fluorescence Induction Imaging.
Kotaro TAKAYAMA, Yoshiaki SAKAI, Takako OIZUMI and Hiroshige NISHINA.
Environmental Control in Biology,48(4),151-159,2010.
DOI: https://doi.org/10.2525/ecb.48.151
19 Chlorophyll Fluorescence Imaging for Health Condition Monitoring of Tomato Plants in Greenhouse.
K. Takayama, H. Nishina, K. Mizutani, S. Arima, K. Hatou and Y. Miyoshi.
Acta Horticulturae,893(2),333-339,2011.
DOI: 10.17660/ActaHortic.2011.893.29
https://www.actahort.org/books/893/893_29.htm
20 Evaluation of Photosynthetic Functions of Tomato Plants in Greenhouse with Chlorophyll Fluorescence Induction Imaging System.
K. Takayama, H. Nishina, K. Mizutani, S. Iyoki, S. Arima, K. Hatou and Y. Miyoshi.
Acta Horticulturae,907(1),337-342,2011.
DOI: 10.17660/ActaHortic.2011.907.55
https://www.actahort.org/books/907/907_55.htm
21 Early detection of drought stress in tomato plants with chlorophyll fluorescence imaging –practical application of the speaking plant approach in a greenhouse–.
Takayama K., Nishina H., Iyoki S., Arima S., Hatou K., Ueka Y., Miyoshi Y.
IFAC Proceedings Volumes,44(1),1785-1790,2011.
https://doi.org/10.3182/20110828-6-IT-1002.01490
22 教室内に植物を置くことおよび植物を育てることが高校生の心理に及ぼす効果の解析.
三並めぐる,仁科弘重,續木寛子,高山弘太郎.
Eco-Engineering,23(2),47-55,2011.
https://doi.org/10.11450/seitaikogaku.23.47
23 クロロフィル蛍光計測によるトマト接ぎ木セル苗の光合成機能診断.
坂井義明・高山弘太郎・仁科弘重.
植物環境工学,23(3),101-106,2011.
https://doi.org/10.2525/shita.23.101
24 生徒どうしで協力して植物を育てることが高校生の心理に及ぼす効果の解析.
三並めぐる,仁科弘重,古谷朋子,高山弘太郎.
Eco-Engineering,23(4),111-121,2011.
https://doi.org/10.11450/seitaikogaku.23.111
25 Effects of Air Flow on Production of Vaccine Protein against Swine Edema Disease in Transgenic Lettuce.
Noriko TAKAHASHI, Ken-Ichi OKUMURA, Yoshie MATSUDA, Kadunari IGARI, Ko KATO, Hiroshi ASAO, Takeshi MATSUI, Eiji TAKITA, Kazutoshi SAWADA, Haruhiko MURASE, Kotaro TAKAYAMA and Hiroshige NISHINA.
Environmental Control in Biology,50(2),135-141,2012.
https://doi.org/10.2525/ecb.50.135
26 Analysis of ΦPSII and NPQ during the Slow Phase of the Chlorophyll Fluorescence Induction Phenomenon in Tomato Leaves.
Kotaro TAKAYAMA, Yuki MIGUCHI, Yuki MANABE, Noriko TAKAHASHI and Hiroshige NISHINA.
Environmental Control in Biology,50(2),181-187,2012.
https://doi.org/10.2525/ecb.50.181
27 Emission index for evaluation of volatile organic compounds emitted from tomato plants in greenhouses.
Kotaro Takayama, Roel M.C. Jansen, Eldert J. van Henten, Francel W.A. Verstappen, Horro J. Bouwmeester, Hiroshige Nishina.
Biosystems Engineering,113(2),220-228,2012.
https://www.researchgate.net/publication/254884499
28 Analysis for the Effect of Roof Greening in Warehouse by Mean of Simulation.
Noriko TAKAHASHI, Hiroshige NISHINA, Kotaro TAKAYAMA, Saori FUTAGAMI, Takashi KAMURA and Teruhisa NAKAHARA.
Environmental Control in Biology,51(3),99-103,2013.
https://doi.org/10.2525/ecb.51.99
29 Integrating Transient Heterogeneity of Non-Photochemical Quenching in Shade-Grown Heterobaric Leaves of Avocado (Persea americana L.): Responses to CO2 Concentration, Stomatal Occlusion, Dehydration and Relative Humidity.
Kotaro Takayama, Diana King, Sharon A Robinson and Barry Osmond.
Plant Cell Physiology,54(11),1852-1866,2013.
DOI: 10.1093/pcp/pct128
https://doi.org/10.1093/pcp/pct128
30 Development of Chlorophyll Fluorescence Imaging Robot for Practical Use in Commercial Greenhouse.
K. Takayama, R. Hirota, N. Takahashi, H. Nishina, S. Arima, K. Yamamoto, Y. Sakai and H. Okada.
Acta Horticulturae,1037,671-676,2014.
DOI: 10.17660/ActaHortic.2014.1037.86
https://www.actahort.org/books/1037/1037_86.htm
31 Distributions of Stem Diameter and Stem Elongation Rate in a Large-Scale Tomato Production Greenhouse -Measurement of Thousand Plants-.
K. Takayama, C. Morimoto, N. Takahashi and H. Nishina.
Acta Horticulturae,1037,721-726,2014.
https://www.ishs.org/ishs-article/1037_93
32 Estimation of Tomato Fruit Color Change with Different Storage Temperatures at Different Maturity Stages.
N. Takahashi, H. Maki, K. Takayama and H. Nishina.
Acta Horticulturae,1037,385-390,2014.
https://www.actahort.org/books/1037/1037_47.htm
33 Overexpression of a rice heme activator protein gene (OsHAP2E) confers resistance to pathogens, salinity and drought, and increases photosynthesis and tiller number.
Md. Mahfuz Alam, Toru Tanaka, Hidemitsu Nakamura, Hiroaki Ichikawa, Kappei Kobayashi, Takashi Yaeno, Naoto Yamaoka, Kota Shimomoto, Kotaro Takayama, Hiroshige Nishina and Masamichi Nishiguchi.
Plant Biotechnology Journal,13,85-96,2015.
https://onlinelibrary.wiley.com/doi/full/10.1111/pbi.12239
34 高軒高温室における長期の加湿処理による飽差環境の違いがパプリカの葉の形態・光合成機能および収穫物に及ぼす影響.
橋田祐二,高橋昭彦,下元耕太,高橋憲子,仁科弘重,高山弘太郎.
Eco-Engineering,27(3),91-98,2015.
https://www.jstage.jst.go.jp/article/seitaikogaku/27/3/27_91/_article/-char/ja/
35 Transcriptome Analysis of Plant Hormone-Related Tomato (Solanum lycopersicum) Genes in a Sunlight-Type Plant Factory.
Yusuke Tanigaki, Takanobu Higashi, Kotaro Takayama, Atsushi J. Nagano, Mie N. Honjo, Hirokazu Fukuda.
PLOS one,
DOI: 10.1371/journal.pone.0143412,2015.
https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0143412
36 Detection of Diurnal Variation of Tomato Transcriptome through the Molecular Timetable Method in a Sunlight-Type Plant Factory.
Takanobu Higashi, Yusuke Tanigaki, Kotaro Takayama, Atsushi. J. Nagano, Mie. N. Honjo and Hirokazu Fukuda.
Frontiers in Plant Science,
DOI: 10.3389/fpls.2016.00087,2016.
https://www.frontiersin.org/articles/10.3389/fpls.2016.00087/full
37 高軒高温室における夜間気温および養液濃度の違いがパプリカの生育と収量に及ぼす影響.
橋田祐二,高橋昭彦,高橋憲子,仁科弘重,高山弘太郎.
Eco-Engineering,28(2),29-36,2016.
https://doi.org/10.11450/seitaikogaku.28.29
38 個葉光合成特性評価のための標準的計測プロトコルにおける気孔コンダクタンスとリン酸律速の影響.
下元耕太,仁科弘重,高橋憲子,高山弘太郎.
Eco-Engineering, 29(3),73-80,2017.
https://doi.org/10.11450/seitaikogaku.29.73
39 Effect of low concentrations of Irgarol 1051 on RGB (R, red; G, green; B, blue) colour values of the hard-coralEffect of low concentrations of Irgarol 1051 on RGB (R, red; G, green; B, blue) colour values of the hard-coral Acropora tenuis.
Keita Hirayama, Kotaro Takayama, Shinsuke Haruta, Hiroshi Ishibashi, Ichiro Takeuchi.
Marine Pollution Bulletin, 124(2), 678-686, 2017.
https://doi.org/10.1016/j.marpolbul.2017.05.027
40 表計算ソフトExcelを用いた施設生産トマトの年間期待収穫量概算ツールの開発.
下元耕太,仁科弘重,高橋憲子,高山弘太郎.
Eco-Engineering,30(2),47-58,2018.
https://doi.org/10.11450/seitaikogaku.30.47
41 Estimation of Tomato Fruit Lycopene Content after Storage at Different Storage Temperatures and Durations.
Noriko Takahashi, Nagisa Yokoyama, Kotaro Takayama, Hiroshige Nishina.
Environmental Control in Biology, 56(4), 157-160, 2018.
https://doi.org/10.2525/ecb.56.157
42 Effects of ecologically relevant concentrations of Irgarol 1051 in tropical to subtropical coastal seawater on hermatypic coral Acropora tenuis and its symbiotic dinoflagellates.
Misato Kamei, Kotaro Takayama, Hiroshi Ishibashi, Ichiro Takeuchi.
Marine Pollution Bulletin ,150, 110734, 2020.
https://doi.org/10.1016/j.marpolbul.2019.110734
43 Simplification of circadian rhythm measurement using species-independent time-indicated genes.
Yusuke Tanigaki, Takanobu Higashi, Kotaro Takayama, Atsushi J. Nagano, Mie N. Honjo, Ayumi Tezuka, Mari Kamitani, Hirokazu Fukuda.
Current Plant Biology,19,
https://doi.org/10.1016/j.cpb.2019.100118
44 クロロフィル蛍光画像計測ロボットを用いた日単位の茎伸長計測.
戸田清太郎,高山弘太郎,加納多佳留,藤内直道,高橋憲子,仁科弘重.
Eco-Engineering, 32(2),15-21,2020,
https://doi.org/10.11450/seitaikogaku.32.15
45 トマト個体群を対象とした多元的画像計測装置の開発.
戸田清太郎,高山弘太郎,加納多佳留,藤内直道,高橋憲子,仁科弘重.
Eco-Engineering, 32(2),32-37,2020,
https://doi.org/10.11450/seitaikogaku.32.33
46 Real-time monitoring of photosynthesis and transpiration of a fully-grown tomato plant in greenhouse.
Kota Shimomoto, Kotaro Takayama, Noriko Takahashi, Hiroshige Nishina, Kazue Inaba, Yuri Isoyama, Shin-Chu OH.
Environmental Control in Biology,58(3)65-70, 2020,
https://doi.org/10.2525/ecb.58.65
47 高精度蒸散リアルタイムモニタリングシステムを用いたトマト個体群の水ストレス応答の評価.
磯山侑里,高山弘太郎,王震中,藤内直道,高橋憲子,仁科弘重.
Eco-Engineering, 32(2)55-60,2020,
https://doi.org/10.11450/seitaikogaku.32.55
48 高水温下でIrgarol 1051(除草剤)に曝露したウスエダミドリイシAcropora tenuisの体色と光合成収率の変動過程の解析.
具志美香子,高山弘太郎,石橋弘志,竹内一郎.

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