モチヅキ ユウヤ望月 佑哉講師Yuya Mochizuki
■研究者基本情報
学歴
経歴
■研究活動情報
論文
- 〔主要な業績〕Hyperspectral imaging for estimating substances related to enzymatic browning of strawberry fruits
Yuya MOCHIZUKI; Soya ISHIDA; Hitomi SAKAGUCHI; Eiichi INOUE; Yoshinori KAWAGOE; Hiroki UMEDA, 筆頭著者
Engineering in Agriculture, Environment and Food, 2025年, [査読有り] - 〔主要な業績〕Effects of Excimer Fluorescent UV Lamps on Mold and Fruit Quality in Strawberries
Yujiro Takano, Ryuta Ninohei, Ayano Koike, Izumi Serizawa, Yuya Mochizuki*, ラスト(シニア)オーサー
AgriEngineering, 2024年12月16日, [査読有り] - 〔主要な業績〕深度センサーを用いた茎長・葉面積の非破壊計測の精度評価とトマトの表現型予測への応用可能性
大山 暁男; 望月 佑哉; 斉藤 哲哉; 梅田 大樹; 黒崎 秀仁; 斎藤 岳士; 河崎 靖; 東出 忠桐; 岩崎 泰永, Japanese Society of Agricultural, Biological and Environmental Engineers and Scientists
植物環境工学, 2024年06月01日, [査読有り] - 〔主要な業績〕Effects of Air and CO2 Application within a Strawberry Plant Canopy on Fruit Yield and Dry Matter Production during Summer and Autumn Culture
Yuya Mochizuki; Ryuta Ninohei; Manato Ohishi; Yukio Yonezu; Tsuyoshi Okayama and Eiichi Inoue, 筆頭著者, The Japanese Society for Horticultural Science
The Horticulture Journal, 2024年01月15日, [査読有り] - 〔主要な業績〕Local CO2 Application within Strawberry Plant Canopy Increased Dry Matter Production and Fruit Yield in Summer and Autumn Culture
Yuya Mochizuki, Sou Murakami, Takuro Kobayashi, Kanjana Worarad, Yukio Yonezu, Hiroki Umeda, Tsuyoshi Okayama, Eiichi Inoue, 筆頭著者, Informa UK Limited
International Journal of Fruit Science, 2022年08月10日, [査読有り] - 〔主要な業績〕房取り収穫が可能なブルーベリー種間雑種系統HoSp-S65G-13の貯蔵特性
望月佑哉*・目黒亜依・福岡亜友・宮下智人・Kanjana Worarad・井上栄一, 筆頭著者, 一般社団法人園芸学会
園芸学研究, 2021年10月15日, [査読有り] - 〔主要な業績〕Transcriptome profiling for pericarp browning during long-term storage of intact lotus root (Nelumbo nucifera)
Kanjana Worarad; Tomohiro Suzuki; Haruka Norii; Yuya Mochizuki; Takashi Ishii; Keiko Shinohara; Takao Miyamoto; Tsutomu Kuboyama; Eiichi Inoue*, Springer Nature
Plant Growth Regulation, 2021年08月11日, [査読有り] - 〔主要な業績〕Age, stature, and trellis height as interrelated primary risk factors for musculoskeletal symptoms of vineyard farmers
Yin Yin NWE; Yuya MOCHIZUKI; Shigeki TOYAMA; Sakura TAKAHASHI; Kazuhiko KOBAYASHI; Takashi MOTOBAYASHI and Isao OGIWARA, Japanese Society of Farm Work Research
Japanese Journal of Farm Work Research, 2021年03月20日, [査読有り] - 〔主要な業績〕Diagnosing for the influence on strawberry growth by EC management using a 3-D depth sensor
H. Umeda; Y. Mochizuki; M. Takahashi and Y. Kawagoe, International Society for Horticultural Science
Acta Horticulturae, 2020年11月23日, [査読有り] - 〔主要な業績〕Estimation of Leaf Area and Light-use Efficiency by Non-destructive Measurements for Growth Modeling and Recommended Leaf Area Index in Greenhouse Tomatoes
Takeshi Saito; Yuya Mochizuki; Yasushi Kawasaki; Akio Ohyama and Tadahisa Higashide*, The Japanese Society for Horticultural Science
The Horticulture Journal, 2020年10月15日, [査読有り] - 〔主要な業績〕Application of a Growth Model to Validate the Effects of an Ultrafine-bubble Nutrient Solution on Dry Matter Production and Elongation of Tomato Seedlings
Yuya Mochizuki; Tiejun Zhao; Wataru Kanematsu; Takashi Kawasaki; Takeshi Saito; Akio Ohyama; Akimasa Nakano; Tadahisa Higashide, 筆頭著者, To clarify the effect of ultrafine bubbles (UFBs) on the growth of tomato seedlings, we investigated elongation growth and dry matter production by analysing growth under different assimilation conditions and by modelling. The leaf area enlargement rate of plants grown with UFB nutrient solution increased and the specific leaf area (SLA) decreased at 18 days after sowing (DAS) relative to those grown without UFB solution. Thus, UFBs increased both leaf area and leaf thickness. UFB significantly increased the relative growth rate (RGR) and net assimilation rate (NAR) at 18 DAS, but there was no significant difference in SLA, RGR, and NAR between treatments at 25 DAS. These results were used to model plant growth with and without UFB treatment. In a second experiment, UFB treatment increased aboveground dry weight under a low-assimilation condition, but had no significant effect under a high-assimilation condition. Our model supported these results. It was also implied that UFB treatment affected leaf area expansion, but not dry matter production. Although the values predicted by the model were slightly lower than observed, it was possible to predict the effect of UFB treatment on plant growth with high accuracy., JAPAN SOC HORTICULTURAL SCI
The Horticulture Journal, 2019年07月15日, [査読有り] - 〔主要な業績〕Photosynthetic Characteristics of Individual Strawberry (Fragaria×ananassa Duch.) Leaves under Short-distance Lightning with Blue, Green and Red LED Lights
Yuya Mochizuki; Saori Sekiguchi; Naomi Horiuchi; Thanda Aung; Isao Ogiwara, 筆頭著者, To clarify the response of net photosynthetic rate (Pn), stomatal conductance (gS), transpiration rate (Tr), and leaf intercellular CO2 concentration (Ci) to irradiance on the adaxial and abaxial sides of mature and young strawberry leaves using blue, green, and red light-emitting diodes (LEDs), irradiation from a short distance was investigated using 'Tochiotome'. Light-photosynthetic response curves of the adaxial side of mature leaves were not different among LED treatments. However, those of the adaxial side of young leaves irradiated with red LEDs were less than those of other LED treatments. Pn of the abaxial side of mature leaves was 42% to 71% of the abaxial side. In young leaves, Pn of the abaxial side was 17% to 68% of the adaxial side. Moreover, light-transpiration response curves were different with LED treatments. Ci and Tr under blue and green LEDs were greater than those under red LEDs. This indicates that blue and green lights affected the stomatal opening. In contrast, red LEDs decreased Ci more than other LED treatments. In addition, reactions of the adaxial side of young leaves under blue and red LEDs were seen not only in 'Tochiotome', but also in 'Sachinoka' and 'Eran', which indicates that the photosynthetic reactions of blue light and red light are commoncharacteristics of the strawberry. Therefore, red LEDs promoted the photochemical reaction and activated the CO2 fixation system. Based on the results of this study of short-distance lighting with LEDs in strawberry production, irradiance of the abaxial side of leaves by blue or green LEDs might improve more assimilates in young leaves compared with red LEDs to increase strawberry yield., AMER SOC HORTICULTURAL SCIENCE
HortScience, 2019年03月01日, [査読有り] - ドライフォグ噴霧耕装置で栽培した多収性イチゴ’紅ほっぺ’における根の発育特性
望月佑哉・村上 望・田淵なな・荻原 勲, 筆頭著者, Japanese Society for Root Research
根の研究(Root Research), 2018年12月21日, [査読有り] - Effect of low temperature and solar radiation on dry-matter production, fruit yield and emergence of malformed fruit in strawberry (Fragaria × ananassa Duch.)
Y. Mochizuki; H. Umeda; T. Saito; T. Higashide; Y. Iwasaki, 筆頭著者, © 2018 International Society for Horticultural Science. All Rights Reserved. In Japan, most strawberries are grown by forcing culture, and fruit is harvested from November to June. Low temperature and solar radiation are major factors behind the unstable yield in winter. To clarify the effect of substrate heating and shading in winter in Japan, we investigated dry-matter production, fruit yield and causes of malformed fruit emergence in strawberry. We compared strawberry ‘Mouikko’ plants grown under combinations of substrate heating (25°C) and no heating, and 55% shading and no shading under forcing culture. Substrate heating and shading started on 8 December 2015. Total above-ground dry weight in the substrate-heating+no-shading treatment was significantly higher than that in other treatments, except on 15 January. In both shading and no shading treatments, substrate heating increased total above-ground dry weight significantly. There were significant differences in total above-ground dry weight as a result of substrate heating and shading. Leaf area showed a similar tendency to total above-ground dry weight. Total fresh-fruit yield was highest in substrate heating+no shading, and significantly lowest in no substrate heating+shading of the four treatments. On the other hand, the rate of malformed fruit was significantly highest in no substrate heating+shading and lowest in substrate heating+no shading. There were significant differences in the number of normal fruit, total number of fruit and malformed fruit rate in relation to substrate heating and shading. Fruit yields with substrate heating were significantly higher than those without substrate heating at the end of January and the beginning of April. These results show that, at low temperature and low solar radiation, emergence of malformed fruit may be influenced by lower levels of assimilation products caused by the decreased leaf area. Thus, substrate heating may decrease the rate of malformed fruit and increase fruit yield through an increase in total above-ground dry weight.
Acta Horticulturae, 2018年11月20日, [査読有り] - Diagnosing method for plant growth using a 3D depth sensor
H. Umeda; Y. Mochizuki; T. Saito; T. Higashide; Y. Iwasaki, © 2018 International Society for Horticultural Science. All Rights Reserved. To simultaneously increase yield in horticulture, it is necessary to control the environment in the greenhouse while continuously monitoring plant growth. Light-intercepting characteristics evaluated from leaf area is used as a plant growth index. Therefore, we tested whether it is possible to measure leaf area nondestructively using a 3D depth sensor, Microsoft Kinect. The Kinect was developed to control video games through gestures and spoken commands. Information collected with a visible-light camera, an infrared-light camera for measuring distance, an infrared projector, and a microphone array is transferred to a Windows PC. We wrote a leaf-area calculation program in C# and built it in the Kinect for Microsoft Software Development Kit. Comparing the actual and estimated areas of plastic plates and using a linear approximation method gave an estimation accuracy of R2=0.99. We placed the Kinect above a tomato canopy in a greenhouse and measured the leaf area of two cultivars, ‘Anoukou 9’ and ‘Managua’. We found that the spatial distribution of leaves was markedly different between cultivars, and that the Kinect calculated the sunlit leaf area. By comparing the leaf area and LAI obtained with the Kinect and the measurements of the vertical change in light intensity within the plant canopy, it was possible to describe the light-intercepting characteristics of each cultivar.
Acta Horticulturae, 2018年11月20日, [査読有り] - Differential Influences of Leaf Tip Trimming on Light Interception and Dry Matter Production in Tomato Dutch Cultivar Gourmet and Japanese Cultivar Momotaro York
Tadahisa Higashide; Yuya Mochizuki; Takeshi Saito; Yasushi Kawasaki; Dong-Hyuk Ahn; Akio Ohyama, To investigate the influence of morphological changes in individual leaves of tomato on light interception and dry matter (DM) production, we altered leaf shape by trimming leaflets of young or mature leaves of the Dutch cultivar Gourmet and the Japanese cultivar Momotaro York. Young leaves 5-cm long were trimmed of their first and second leaflets from the leaf apex. Mature leaves were similarly trimmed at >= 71 days after transplanting (DAT). The individual leaf area (LA) of intact 'Momotaro York' leaves was significantly larger than that of 'Gourmet'. Light-photosynthesis curves of the cultivars were almost identical. Mature-trimmed plants of both cultivars had a smaller individual LA and a smaller leaf area index (LAI), and a greater light-extinction coefficient (LEC). Although there was no significant difference in light-use efficiency (LUE) (i.e., DM production per unit intercepted solar radiation) in 'Gourmet' between trimming stages, LUE of 'Momotaro York' was decreased significantly by young-leaf trimming. Trimming of young leaves significantly decreased the LEC in 'Gourmet' but increased it in 'Momotaro York'. Although leaf trimming would be impractical for commercial cultivation, these results may provide with a clue for breeding for yield improvement., AMER SOC HORTICULTURAL SCIENCE
HORTSCIENCE, 2017年05月01日, [査読有り] - In vitro regeneration through direct shoot organogenesis in Honey Orange (Citrus tangerina)
Yin Yin Nwe; Khin Thida Myint; Yuya Mochizuki; Mehran Vazirzanjani; Kouji Okayasu; Sakae Suzuki; Isao Ogiwara, Rapid propagation of Honey orange (Citrus tangerina) was achieved by induction of shoots from epicotyl and cotyledonary node explants and rooting of cotyledonary node derived shoots. Significant explant differences were observed in the induction of direct shoots. Cotyledonary node explant is the most efficient in regeneration frequency followed by epicotyl explant. Cotyledonary node explants cultured on Murashige and Skoog (MS) medium supplemented with 8.88 mu M N6-benzyladenine (BA) and 0.54 mu M alpha-naphthaleneacetic acid (NAA) developed more than five shoots per explant. The isolated shoots transferred onto the MS medium supplemented with 5.4 mu M NAA rooted 100% within 30 days., JAPANESE SOC PLANT CELL & MOLECULAR BIOLOGY
PLANT BIOTECHNOLOGY, 2014年12月25日, [査読有り] - Plant Growth and Fruit Quality of Blueberry in a Controlled Room under Artificial Light
Thanda Aung; Yukinari Muramatsu; Naomi Horiuchi; Jingai Che; Yuya Mochizuki; Isao Ogiwara, The purpose of this study was to clarify the plant growth and fruit quality of blueberry in a controlled room under artificial light. Cultivars used were a northern highbush 'Blueray', and two southern highbush, 'Misty' and 'Sharpblue'. A comparative study was carried out of growth characteristics, photosynthetic potential and fruit quality analysis in different growing environments, in particular focusing on plants growing in a glasshouse under natural sunlight and plants in a controlled room under artificial light. Environmental conditions of the controlled room under artificial light were 15 to 25 degrees C, 50 to 70% humidity, 150 to 350 mu mol.m(-2)-s(-1) light intensity, and a 10-hour photoperiod from the primary experiment. In these growing environments, normal fruits developed from all the tested cultivars by successful growth without decreasing plant vigor and leaf photosynthetic ability until fruit harvesting time compared to the cultivars grown in the glasshouse under natural sunlight condition. Moreover, it was confirmed that high-quality fruits could be harvested in a controlled environment to increase fruit production with high SSC % and high anthocyanin content but low acid % in 'Blueray' and 'Misty', but not 'Sharpblue'. Finally, this report presents the possibility of high-quality blueberry production in a controlled environment under artificial light conditions with some cultivars., JAPAN SOC HORTICULTURAL SCI
Journal of the Japanese Society for Horticultural Science, 2014年10月15日, [査読有り] - Analysis of a High-yielding Strawberry (Fragaria × Ananassa Duch.) Cultivar ‘Benihoppe’ with Focus on Root Dry Matter and Activity
Y. Mochizuki; Y. Iwasaki; M. Fuke; I. Ogiwara, 筆頭著者, This study analyzes and clarifies the eco-physiological traits of high-yielding strawberry (Fragaria xananassa Duch.) 'Benihoppe' focusing on its dry matter production, total nitrogen content, bleeding rate, mineral nutrient concentration in bleeding fluid, and fine root respiration rate in comparison with those of the cultivar 'Sachinoka'. The results show that Benihoppe' has three beneficial characteristics. The first characteristic is higher primary and fine root dry matter and less root rotting during the cold season. The second is superior root function that includes high root activity and a well-maintained root system. The third is a high ability to absorb more NO3- and preferentially partition NO3- to the leaves, crowns, and fine roots. Thus, with these three beneficial functions, 'Benihoppe' may produce more dry matter and fruits than 'Sachinoka'., JAPAN SOC HORTICULTURAL SCI
Journal of the Japanese Society for Horticultural Science, 2014年04月15日, [査読有り] - Analysis of a High-yielding Strawberry (Fragaria × Ananassa Duch.) Cultivar ‘Benihoppe’ with Focus on Dry Matter Production and Leaf Photosynthetic Rate
Y. Mochizuki; Y. Iwasaki; M. Funayama; S. Ninomiya; M. Fuke; Y. Y. NWE; M. Yamada; I. Ogiwara, 筆頭著者, This study was conducted to clarify the ecophysiological traits of high-yielding 'Benihoppe' with focus on its dry matter production, plant growth analysis, and leaf photosynthetic rate in comparison with those of 'Toyonoka' and 'Sachinoka'. Total dry matter of 'Benihoppe' was higher than that of 'Toyonoka', while no difference was found between their harvest indices. In 'Benihoppe', the crop growth rate (CGR) and leaf area index (LAI) were higher than those of 'Toyonoka' and 'Sachinoka'. The large LAI of 'Benihoppe' was attributed to its ability to bear larger leaves than other cultivars, while 'Benihoppe' demonstrated a superior net assimilation rate (NAR) to that of 'Toyonoka'. NAR is affected by leaf photosynthetic activity
however, no difference was observed between the leaf photosynthetic rates of 'Benihoppe' and 'Toyonoka'. Petioles in 'Benihoppe' that supported large leaves were longer and upright, and NAR might be affected by their trait, which allow solar radiation to penetrate the plant canopy. Thus, the outstanding CGR in 'Benihoppe' may be a result of the large LAI and upright petioles which allow solar radiation to penetrate the plant canopy. © 2013 JSHS., Japanese Society for Horticultural Science
Journal of the Japanese Society for Horticultural Science, 2013年01月15日, [査読有り] - イチゴ果実径の日変化をモニタリングするためのデンドロメーターの改良
二宮伸哉・望月佑哉・福家光敏・岡安浩次・山田祐彰・鈴木 栄・荻原 勲, 一般社団法人園芸学会
園芸学研究, 2012年10月15日, [査読有り]
講演・口頭発表等
- 麹菌の資化によるカンキツ果皮中のポリメトキシフラボノイド含有量の増加
阿武佑弥; 藤井智教; 大西賢一; 柳橋 諒; 長谷川守文; 豊田 淳; 望月佑哉; 井上栄一
第22回日本機能性食品医用学会総会, 2024年12月07日, 日本機能性食品医用学会
20241207, 20241208 - 〔主要な業績〕Hyperspectral imaging for estimating substances related to enzymatic browning of strawberry fruits
Yuya Mochizuki; Soya Ishida; Eiichi Inoue; Yoshinori Kawagoe; Hiroki Umeda
Postharvest 2024, 2024年11月12日, International Society for Horticultural Science
20241111, 20241115 - Effect of fertilizer management on fruit preservation in strawberry
Hiroki Umeda; Yoshinori Kawagoe; Yuya Mochizuki
Postharvest 2024, 2024年11月12日, International Society for Horticultural Science
20241111, 20241115 - 〔主要な業績〕エキシマUVランプを用いた異なる殺菌処理がブルーベリー果実の貯蔵性に及ぼす影響
望月佑哉; 北條大地; 高野友二郎; 芹澤和泉; 宮下智人; 井上栄一
園芸学会令和6年度秋季大会, 2024年11月04日, 一般社団法人園芸学会
20241103, 20241105 - 〔主要な業績〕根部エンドファイトの接種はイチゴの開花を促進し収量を増大する
二野屏隆大; 吉野花奈美; 野口 愛; 坂上伸生; 成澤才彦; 望月佑哉
園芸学会令和6年度秋季大会, 2024年11月04日, 一般社団法人園芸学会
20241103, 20241105 - クリ易渋皮剥皮性品種の堅果の取り扱いが子葉の褐変に及ぼす影響
井上栄一; 布施達也; 江花拓磨; 山口貴史; 望月佑哉
園芸学会令和6年度秋季大会, 2024年11月03日, 一般社団法人園芸学会
20241103, 20241105 - A 3D realistic strawberry plant model for phenotyping based on the point cloud data
Tsuyoshi Okayama; Tsuneyo Sekido; Masaki Mitsuyoshi; Yuya Mochizuki
The 11th International Symposium on Machinery and Mechatronics for Agriculture and Biosystems Engineering, 2024年09月28日
20240927, 20240929 - サツマイモのセカンドキュアリングにおける癒傷組織の発達過程
荒木田尚広・渡邊 健・望月佑哉・井上栄一
園芸学会令和6年度春季大会, 2024年03月23日, 一般社団法人園芸学会
20240323, 20240324 - Identification of candidate gene controlling cork formation on apple pericarp by using Malus domestica 'Gold farm' as a bud mutation variety of 'Fuji'
Eiichi Inoue; Kanjana Worarad; Yuya Mochizuki
The 4th Asian Horticultural Congress, 2023年08月30日, The Japanese Society for Horticultural Science
20230828, 20230831 - 〔主要な業績〕Effects of air and CO2 application within strawberry plant canopy on dry matter production and fruit yield during summer and autumn culture
Yuya Mochizuki; Ryuta Ninohei; Manato Ohishi; Yukio Yonezu; Tsuyoshi Okayama; Eiichi Inoue
The 4th Asian Horticultural Congress, 2023年08月30日, The Japanese Society for Horticultural Science
20230828, 20230831 - レンコン粉末の麹化によるヌシフェリン産生機構の解明
柳橋 諒・藤井智教・大西賢一・長谷川守文・豊田 淳・望月佑哉・井上栄一
園芸学会令和5年度春季大会, 2023年03月20日, 一般社団法人園芸学会
20230319, 20230320 - イチゴのパラメトリック成長モデルの提案
岡山毅・望月佑哉
第80回農業食料工学会年次大会, 2022年09月14日, 一般社団法人 農業食料工学会
20220912, 20220914 - 〔主要な業績〕低温環境下で水耕栽培した多収性イチゴ‘紅ほっぺ’の根の発生特性
望月佑哉・細久保安奈・井上栄一
園芸学会令和4年度秋季大会, 2022年09月08日, 一般社団法人 園芸学会
20220908, 20220911 - 点群から推定するイチゴ成長モデルの提案
岡山 毅・望月佑哉
農業食料工学会第79回(2021年度)年次大会, 2021年09月15日, 一般社団法人農業食料工学会
20210913, 20210915 - ガンマ線を照射したリンゴ花粉を用いたニホンナシとリンゴの交雑実生の特性
于 波・郷内 武・望月佑哉・井上栄一
園芸学会令和3年度秋季大会, 2021年09月11日, 一般社団法人園芸学会
20210911, 20210912 - 〔主要な業績〕イチゴ夏秋どり栽培における植物群落内への CO2 局所施用が乾物生産および果実収量に及ぼす影響
望月佑哉・村上 颯・小林拓朗・米津幸雄・井上栄一
園芸学会令和3年度秋季大会, 2021年09月11日, 一般社団法人園芸学会
20210911, 20210912 - 〔主要な業績〕アセチルシステインの施用法の違いが四季成り性イチゴ‘すずあかね’の乾物生産および個葉光合成速度に及ぼす影響
小林拓朗・米津幸雄・岡山 毅・井上栄一・望月佑哉
園芸学会令和3年度春季大会, 2021年03月27日, 一般社団法人園芸学会
20210327, 20210328 - 深度センサを用いたイチゴの水ストレス応答計測
岡山 毅・古谷駿介・西脇淳子・望月佑哉
農作業学会2021年度春季大会, 2021年03月22日, 農作業学会
20210322, 20210323
担当経験のある科目(授業)
- 植物生産環境学特論
2024年11月 - 現在
東京農工大学連合農学研究科 - 植物生理学
2024年10月 - 現在
茨城大学 - 地域総合農学演習
2019年04月 - 現在
茨城大学 - 植物生理学
2019年04月 - 現在
茨城県立農業大学校 - 青果物生産学
2019年04月 - 現在
茨城大学 - 青果物利用学
2019年04月 - 現在
茨城大学 - 園芸学Ⅰ
2019年04月 - 現在
東京農工大学 - 青果物利用学特論
2017年04月 - 現在
茨城大学 - 化学実験
2017年04月 - 現在
茨城大学 - 園芸学実験
2017年04月 - 現在
茨城大学 - Advanced Horticultural Science
2017年04月 - 現在
茨城大学 - 園芸学Ⅱ
2018年04月 - 2019年03月
東京農工大学 - 蔬菜学各論
2017年04月 - 2019年03月
茨城大学 - 蔬菜学
2017年04月 - 2019年03月
茨城大学
共同研究・競争的資金等の研究課題
- 〔主要な業績〕気候変動に適応した持続的なイチゴ夏秋生産技術の開発
2024年04月 - 2026年03月 - 断根接木トマトの長期貯蔵装置の開発に関する研究
2023年04月 - 2024年03月 - 〔主要な業績〕植物群落内への局所エアー処理と二酸化炭素施用を組合せた夏秋イチゴの収量増大技術の確立
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