教員紹介

野々村 照雄
  • 野々村 照雄
  • 教授
所属 農学部 農業生産科学科
農学研究科
アグリ技術革新研究所
学位 博士(農学)
専門 植物感染機構学
コメント トマト、メロンおよびイチゴに発生するうどんこ病について研究しています。顕微鏡技術を利用して、うどんこ病菌の形態観察を行うとともに、その知見から新たな防除法の開発を目指しています。
備考 <報道関連出演・掲載一覧>
●2019/3/28
 日本経済新聞
 メロン 近畿大、ICT使い就農支援‐大学と地域について
リサーチマップリンク https://researchmap.jp/read0194025

学歴/経歴

経歴

  • 2016年4月 - 現在
    近畿大学 農学部 教授

研究活動情報

研究分野

  • 環境・農学, 植物保護科学
  • 環境・農学, 植物保護科学

研究キーワード

植物病理, Plant Pathology

論文

  1. A promising physical pest-control system demonstrated in a greenhouse equipped with simple electrostatic devices that excluded all insect pests: A review , 瀧川義浩, 角谷晃司, 松田克礼, 野々村照雄, 草刈眞一, 豊田秀吉 , Journal of Agricultural Science , 11 , 18 , 1-20 , 2019年11月 , 査読有り
  2. Quantitative analysis of the lifelong production of conidia released from single colonies of Podosphaera xanthii on melon leaves using electrostatic techniques , 鈴木智子, 中村亮介, 高木夏美, 瀧川義浩, 角谷晃司, 松田克礼, 松井邦彦, 野々村照雄 , Australasian Plant Pathology , 48 , 3 , 297-307 , 2019年3月 , 査読有り
  3. A simple electrostatic device for eliminating tobacco sidestream smoke to prevent passive smoking , 松田克礼, 角谷晃司, 野々村照雄, 瀧川義浩, 岡田清嗣, 柴尾学, 美山和宏, 横尾暢哉, 草刈眞一, 豊田秀吉 , Instruments , 2 , 13 , 13-22 , 2018年7月 , 査読有り
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書籍等出版物

  1. トマト<うどんこ病> 原色病害虫診断防除編追録第44号 , 野々村照雄, 松田克礼, 草刈眞一, 豊田秀吉 , 共著 , 一般社団法人 農山漁村文化協会 , 2014年
  2. トマト<うどんこ病> 農業総覧防除・資材編追録第19号 , 野々村照雄, 松田克礼, 草刈眞一, 豊田秀吉 , 共著 , 一般社団法人 農山漁村文化協会 , 2014年
  3. 静電場スクリーンの開発と実用化 , 「植物防疫」 社団法人 日本植物防疫協会 , 2008年
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講演・口頭発表等

  1. 日本で分離されたAMpelomyces sp. の形態観察と感染挙動解析 , 小林弘樹, 松田克礼, 野々村照雄 , 近畿大学大学院サイエンスネットワーク2019 , 2019年10月5日
  2. 顕微鏡技術および遺伝子工学的手法を用いたイチゴうどんこ病菌分離菌株の同定 , 岩崎章太, 仲川記代, 松田克礼, 野々村照雄 , 近畿大学アグリ技術革新研究所 第1回公開シンポジウム , 2019年5月25日
  3. トマト葉上トリコームに侵入・感染したうどんこ病菌の吸器数と総菌糸長の関係 , 水野友策, 中尾勇城, 西山徹, 松田克礼, 野々村照雄 , 近畿大学アグリ技術革新研究所 第1回公開シンポジウム , 2019年5月25日
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MISC

  1. Polymorphic change of appressoria by the tomato powdery mildew Oidium neolycopersici on host tomato leaves reflects multiple unsuccessful penetration attempts , Teruo Nonomura, Ayae Nishitomi, Yoshinori Matsuda, Chiyomi Soma, Ling Xu, Koji Kakutani, Yoshihiro Takikawa, Hideyoshi Toyoda , FUNGAL BIOLOGY , 114 , 11-12 , 917 , 928 , 2010年11月
    概要:The appressorial shapes of the powdery mildews are an important clue to the taxonomy of the powdery mildew fungi, but the conidia of the tomato powdery mildew Oidium neolycopersici KTP-01 develop non-lobed, nipple-shaped, and moderately lobed or multilobed appressoria on the same leaves. To remove this ambiguity, we performed consecutive observations of sequential appressorial development of KTP-01 conidia with a high-fidelity digital microscope. Highly germinative conidia of KTP-01, collected from conidial pseudo-chains formed on the tomato leaves, were inoculated into host tomato and nonhost barley leaves or an artificial hydrophobic membrane (Parafilm). Events from germination initiation to appressorium formation were synchronous in all conidia on all materials used for inoculation, but post-appressorial behaviors varied among the materials. Appressoria on the membrane-stuck glass slide formed several projections at different portions of the appressoria to repeat unsuccessful penetration attempts. Similar unsuccessful penetration behavior by KTP-01 conidia was observed in the inoculations into leaves of barley plants, wild tomato species Lycopersicon peruvianum LA2172 (carrying the Ol-4 gene for powdery mildew resistance), and a susceptible host tomato (Lycopersicon esculentum) that had been inoculated with the barley powdery mildew (Blumeria graminis f. sp. hordei, race 1) conidia. On the barley leaves, all penetrations of KTP-01 were impeded by the papillae formed beneath the sites of the appressorial projections. On both the wild tomato and the race 1-inoculated cultivated tomato plants, KTP-01 conidia were prevented from forming functional haustoria by hypersensitive epidermal cell death; this hypersensitive reaction involved the Ol-4 gene in the wild tomato plants or the 'induced resistance' acquired by the nonpathogenic conidia previously inoculated into the cultivated tomato plants. All these KTP-01 conidia produced several projections on the appressoria during the repeated unsuccessful penetration attempts and eventually exhibited multilobed appressoria. On the host tomato leaves inoculated singly with KTP-01 conidia, fewer than 20 % of the conidia located appressoria on the central part of target epidermal cells and succeeded in forming functional haustoria at the first penetration attempt without forming an appressorial projection. These conidia exhibited non-lobed appressoria. The remaining conidia, however, whose appressoria were located on/near the border of the target epidermal cells, were more likely to fail to penetrate at the first penetration, and then to develop additional projections for subsequent penetrations. Most conidia succeeded in forming functional haustoria at the second to fourth penetration attempts, but a few conidia failed to produce haustoria at all attempted penetrations. Eventually, the conidia that succeeded at the second penetration possessed a single appressorial projection (exhibiting the nipple-shaped appressoria), whereas the remaining conidia exhibited moderately lobed appressoria with two to four appressorial projections and multilobed appressoria, with more projections. Thus, the present study revealed that the basic shape of appressoria of KTP-01 was the non-lobed type, and that polymorphic changes of the appressoria occurred as a result of successive production of projections during repeated unsuccessful penetration attempts. (C) 2010 The British Mycological Society. Published by Elsevier Ltd. All rights reserved.
  2. 温室内で発生したトマト根腐萎凋病(Fusarium crown and root rot disease)の感染拡大に関わるミギワバエScatella stagnalis(Diptera: Ephydridae)の影響. , 松田克礼, 野々村照雄, 豊田秀吉 , 近畿大学農学部紀要 , 42 , 237 , 242 , 2009年
  3. Collection of highly germinative pseudochain conidia of Oidium neolycopersici from conidiophores by electrostatic attraction. , Nonomura, T, Matsuda, Y, Xu, L, Kakutani, K, Takikawa, Y, Toyoda, H , Mycological Research , 113 , 3 , 364 , 372 , 2009年
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特許

  1. 誘電分極を用いた分生子吸着による防カビ方法、飛動生物除去装置、及び植物保護装置 , 豊田 秀吉, 松田 克礼, 野々村 照雄, 角谷 晃司, カゴメ株式会社, 大阪府 , 特許第5599564号
  2. 静電場発生装置及びそれを用いた飛動生物除去方法 , 豊田 秀吉, 松田 克礼, 野々村 照雄, 角谷 晃司, パナソニック環境エンジニアリング株式会社, カゴメ株式会社 , 特許第5252449号
  3. 飛動可能生物収集兼オゾン発生装置及び植物栽培装置 , 豊田 秀吉, 松田 克礼, 野々村 照雄, 角谷 晃司, カゴメ株式会社 , 特許第5216225号
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競争的資金

  1. 標識遺伝子による┣DBFusarium(/)-┫DB ┣DBoxysporum(/)-┫DBの形質転換とその挙動解析に関する研究
  2. Basic studies on transformation of ┣DBFusarium(/)-┫DB ┣DBoxysporum(/)-┫DB and establishment of monitoring system
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