| 教員紹介トップページへ | 三重大学トップページへ |
| 職名 | 教授 | |||||||||
| 氏名 | まつだようすけ 松田 陽介 |
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| TEL | 059-231-9639 | |||||||||
| FAX | 059-231-9639 | |||||||||
| m-yosuke@bio. (末尾に mie-u.ac.jp を補ってください) | ||||||||||
| 個人のホームページ | https://www.bio.mie-u.ac.jp/junkan/forest/mycology/matsuda.htm | |||||||||
| 学歴 | 名古屋大学大学院生命農学研究科 博士課程・博士後期課程 (~) 卒業・修了
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| 学位 | 1999.03 博士(農学) 名古屋大学
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| 所属学会 | 日本森林学会 日本生態学会 日本菌学会 樹木医学会 菌根研究会 | |||||||||
| 社会活動 | 一般社団法人 日本菌学会 代議員
一般社団法人 日本森林学会 代議員 独立行政法人 大学改革支援・学位授与機構,国立大学教育研究評価委員会 独立行政法人 大学改革支援・学位授与機構,大学機関別認証評価委員会 日本生態学会 中部地区会 会長 Journal of Forest Research編集委員 Frontier in Microbiology編集委員 菌根研究会企画幹事 |
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| 職歴 | 2000.04~2007.03 三重大学生物資源学部 助手
2007.04~2009.03 三重大学大学院生物資源学研究科 助教 2009.04~2015.09 三重大学大学院生物資源学研究科 准教授 2015.10~ 三重大学大学院生物資源学研究科 教授 |
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| 学術(芸術)賞 | Best Paper Award 2002, Jorunal of Plant Research
菌学会奨励賞 学生発表奨励賞,2017.10,中部森林学会 学生発表奨励賞,2018.10,中部森林学会 若手研究者ポスター賞,2019.09,日本線虫学会 Journal of Forest Research論文賞,2021.03 |
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| 専門分野 | 菌根生態,森林保護 | |||||||||
| 現在の研究課題 | 森林生態系内における微生物の多様性とその機能の解明 | |||||||||
| 担当科目 | 生物資源学総論,基礎生物学II,森林微生物機能学,農林生物学英語,植物微生物学実験,農林統計学 | |||||||||
| 主な業績等 | 【著 書】
●松田陽介(2021)海岸マツ林の健全性のカギは菌根菌に.森林保護学の基礎(小池孝良・中村誠宏・宮本敏澄 編),p102-103,農山漁村文化協会 ●松田陽介 (2021) 4-5 植物-微生物共生系.森林学の百科事典 (日本森林学会 編),p120-123,694p,丸善出版 ●松田陽介 (2020) 2.5 根に関わる微生物.森の根の生態学(平野恭弘・野口享太郎・大橋瑞江 編)p106-127,376p,共立出版 ●松田陽介・小長谷啓介 (2020) 外生菌根菌を通して海岸林の再生を考える. 菌根の世界 (齋藤雅典 編),256p 築地書館 ●松田陽介 (2018) 森林利用と菌根菌.森林科学シリーズ10 森林と菌類 (升屋勇人 編), p105-139,共立出版. ●Obase K, Douhan GW, Matsuda Y, Smith ME (2017) Progress and challenges in understanding the biology, diversity, and biogeography of Cenococcum geophilum. Ecol. Stud. 230: 299-317. In: Tedersoo L. ed., Biogeography of Mycorrhizal Symbiosis, Volume 230 of the series Ecological Studies, 566, Springer International Publishing. ●松田陽介 (2013) モノトロポイド菌根.菌類の事典,日本菌学会編,p310-312,朝倉書店. ●松田陽介 (2000) 森林における外生菌根菌の群集構造-樹木をつなぐ菌根菌ネットワーク-.森林微生物生態学(二井一禎・肘井直樹編著), p230-243, 朝倉書店. 【論 文】 ● Matsuda Y, Kita K, Kitagami Y, Tanikawa T (2021) Colonization status and community structure of arbuscular mycorrhizal fungi in the coniferous tree, Cryptomeria japonica, with special reference to root orders. Plant and Soil 468:423–438. ● Takenaka C, Fukushi A. Matsuda Y (2021) Arbuscular mycorrhizal fungi facilitate the uptake of radiocesium by Eleutherococcus sciadophylloides (araliaceae)–a pot-scale and field survey. Journal of Forest Research 26: 101-109 ● Kitagami Y, Matsuda Y. (2020) Temperature changes affect multi-trophic interactions among pines, mycorrhizal fungi, and soil nematodes in a microcosm experiment. Pedobiologia 78: 150595 ● Matsuda Y, Yamaguchi Y, Matsuo N, Uesugi T, Ito J, Yagame T, Figura T, Selosse M-A, Hashimoto Y. (2020) Communities of mycorrhizal fungi in different trophic types of Asiatic Pyrola japonica sensu lato (Ericaceae). Journal of Plant Research 133: 841-853 ● Kitagami Y, Tanikawa T, Matsuda Y (2020) Effects of microhabitats and soil conditions on structuring patterns of nematode communities in Japanese cedar (Cryptomeria japonica) plantation forests under temperate climate conditions. Soil Biology & Biochemistry 151: 108044 ● Põlme S et al. (2020) FungalTraits: a user-friendly traits database of fungi and fungus-like stramenopiles. Fungal Diversity 105:1–16 ● Sakoda S, Aisu K, Imagami H, Matsuda Y (2019) Comparison of actinomycete community composition on the surface and inside of Japanese black pine (Pinus thunbergii) tree roots colonized by the ectomycorrhizal fungus Cenococcum geophilum. Microbial Ecology 77 370-379 ● Kitagami Y, Tanikawa T, Mizoguchi T, Matsuda Y (2018) Nematode communities in pine forests are shaped by environmental filtering of habitat conditions. Journal of Forest Research 23 346-353 ● Obase K, Douhan G, Matsuda Y, Smith M (2018)Isolation source matters: sclerotia and ectomycorrhizal roots provide different views of the genetic diversity in the ectomycorrhizal fungus Cenococcum geophilum. Mycologia 110 473-481 ● Tanikawa T, Fujii S, Sun L, Hirano Y, Matsuda Y, Miyatani K, Doi R, Mizoguchi T, Maie N (2018) Leachate from fine root litter is more acidic than leaf litter leachate: A 2.5-year laboratory incubation. Science of the Total Environment 645 179-191 ● Deguchi S, Matsuda Y, Takenaka C, Sugiura Y, Ogata Y (2017) A new estimation method on colonization rate of arbuscular mycorrhizal fungi in the root of Chengiopanax sciadophylloides. Mycobiology 45:15-19 ● Kitagami Y, Kanzaki N, Matsuda Y (2017) Distribution and community structure of soil nematodes in coastal Japanese pine forests were shaped by harsh environmental conditions. Applied Soil Ecology 119 91-98 ● Kitagami Y, Torii M, Matsuda Y (2017) Characterizations of community and trophic structures of soil nematodes in a coastal Japanese black pine forest. Nematological Research 46 71-78 ● Matsuda Y, Uesugi T, Hsu TW, Chen CF (2017) Mycorrhizal fungi associated with Taiwanese Pyrola morrisonensis (Ericaceae) in a naturally regenerated forest. Taiwania 62 399-406 ● Matsuda Y, Yamakawa M, Inaba T, Obase K, Ito S (2017) Intraspecific variation in mycelial growth of Cenococcum geophilum isolates response to salinity gradients. Mycoscience 58 369-377 ● Kitagami Y, Torii M, Matsuda Y (2016) Characterizations of community and trophic structures of soil nematodes in a coastal Japanese black pine forest. Nematological Research 46:71-78 ● Lallemand F, Gaudeul M, Lambourdière J, Matsuda Y, Hashimoto Y, Selosse MA (2016) The elusive predisposition to mycoheterotrophy in Ericaceae. New Phytologist 212:314-319 ● Obase K, Douhan G, Matsuda Y, Smith M (2016) Cladophialophora floridana and Cladophialophora tortuosa, new species isolated from sclerotia of Cenococcum geophilum in forest soils of Florida, USA. Mycoscience 57:26–34 ● Obase K, Douhan G, Matsuda Y, Smith M. (2016) Revisiting phylogenetic diversity and cryptic species of Cenococcum geophilum sensu lato. Mycorrhiza 26:529-540 ● Uesugi T, Nakano M, Selosse MA, Obase K, Matsuda Y (2016) Pyrola japonica, a partially mycoheterotrophic Ericaceae, has mycorrhizal preference for russulacean fungi in central Japan. Mycorrhiza 26:819-829 ● Matsuda Y, Takeuchi K, Obase K, Ito S. (2015) Spatial distribution and genetic structure of Cenococcum geophilum in coastal pine forests in Japan. FEMS Microbiology Ecology 91:1-14 ● Nakashima H, Eguchi N, Uesugi T, Yamashita N, Matsuda Y (2015) Effect of ectomycorrhizal composition on survival and growth of Pinus thunbergii seedlings varying in resistance to the pine wilt nematode. Trees 30:475-481 ● Obase K, Matsuda Y (2014) Culturable fungal endophytes in roots of Enkianthus campanulatus (Ericaceae). Mycorrhiza 24:635-644 ● Obase K, Douhan G, Matsuda Y, Smith M (2014) Culturable fungal assemblages growing within Cenococcum sclerotia in forest soils. FEMS Microbiology Ecology 90:708-717 ● Obase K, Matsuda Y, Ito S (2013) Enkianthus campanulatus (Ericaceae) is commonly associated with arbuscular mycorrhizal fungi. Mycorrhiza 23:199-208 ● Põlme S, Bahram M, Yamanaka T, Nara K, Dai Y, Grebenc T, Kraigher H, Toivonen M, Wang P, Matsuda Y, Naadel T, Kennedy P, Kõljalg U, Tedersoo L (2013) Species richness and community composition of ectomycorrhizal fungi associated with alders (Alnus spp.) in relation to biotic and abiotic variables at the global scale 2013.05 New Phytologist 198:1239-1249 ● Matsuda Y, Takano Y, Shimada M, Yamanaka T, Ito S (2013) Distribution of ectomycorrhizal fungi in a Chamaecyparis obtusa stand at different distances from a mature Quercus serrata tree.Mycoscience 54:260-264 ● Matsuda Y, Shimizu S, Mori M, Ito S, Selosse MA (2012) Seasonal and enverinmental changes of mycorrhizal associations and heterotrophy levels in mixotrophic Pyrola japonica growing under different light environments.American Journal of Botany 99:1177-1188 ● Matsuda Y, Okochi S, Katayama T, Yamada A, Ito S (2011) Mycorrhizal fungi associated with Monotropastrum humile (Ericaceae) in central Japan. Mycorrhiza 21:569-576 ● Matsuda Y, Kimura K, Ito S (2010) Genetic characterization of Raffaelea quercivora isolates collected from areas of oak wilt in Japan 2010 Mycoscience 51:310-316 ● Matsuda Y, Noguchi Y, Ito S (2009) Ectomycorrhizal fungal community of naturally regenerated Pinus thunbergii seedlings in a coastal pine forest. Journal of Forest Research Springer 14:335-341 ● Matsuda Y, Hayakawa N, Ito S (2009) Local and microscale distributions of Cenococcum geophilum in soils of coastal pine forests. Fungal Ecology 2:31-35 ● Matsuda Y, Amiya A, Ito S (2009) Colonization patterns of mycorrhizal fungi associated with two rare orchids, Cephalanthera falcata and C. erecta. Ecological Research 24:1023-1031 ● Matsuda Y, Sugiyama F, Nakanishi K, Ito S (2006) Effects of sodium chloride on growth of ectomycorrhizal fungal isolates in culture. Mycoscience 47:212-217 ● Matsuda Y, Murahashi F, Kimoto M, Nakanishi K, Ito S (2005) Arbuscular mycorrhizas on Athyrium yokoscense and A. niponicum grown at a lead-contaminated site. Mycoscience 46:261-264 ● Matsuda Y, Hijii N (2004) Ectomycorrhizal fungal communities in an Abies firma forest, with special reference to ectomycorrhizal associations between seedlings and mature trees. Canadian Journal of Botany 82:822-829. ● Matsuda Y, Yamada A (2003) Mycorrhizal morphology of Monotropastrum humile collected from six different forests in central Japan. Mycologia 95: 993-997 ● Matsuda Y, Hijii N (1999) Ectomycorrhizal morphotypes of naturally grown Abies firma Sieb. et Zucc. seedlings. Mycoscience 40: 217-226 ● Matsuda Y, Hijii N (1998) Spatiotemporal distribution of fruitbodies of ectomycorrhizal fungi in an Abies firma forest. Mycorrhiza 8: 131-138 ● 松田陽介(2008)海岸林生態系を支える菌根菌. 森林技術 798:7-14 ● 松田陽介 (2007) モミに形成される外生菌根の群集構造と菌根共生系を用いた環境修復技術に関する基礎的研究.日本菌学会会報 48:32-41 ● 松田陽介・伊藤進一郎 (2005) 森林生態系における外生菌根共生.森林科学 45:32-39 ● 松田陽介(1999)モミ根系における外生菌根菌の群集生態学的研究. 名大森研 18:83-141 |
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