Publications

• Kawasaki Y, Fukasawa Y, Pouska V, Bače R, Panayotov M, Tsvetanov N, Orman O, Matsuoka S, Sato H, Mikoláš M. 2026. Geographical gradients in fungal communities and decay types of Norway spruce logs across central to southeastern Europe. Fungal Ecology 80: 101482.

• Tasaki N, Nishikawa K, Nakamura K, Sato H. 2025. Gut and faecal microbial diversity in a Japanese lotic-breeding salamander, Hynobius boulengeri (Thompson, 1912). Herpetology Notes 18: 1073–1077.

• Sato H, Satomi O, Sugiyama Y. 2025. Two species of the Entoloma quadratum–murrayi complex from Japan. PLOS ONE  20(2): e0302695.

• Sato H, Lain A, Mizuno T, Yamashita S, Hassan J, Othman K, Itioka T. 2024. Host preference explains the high endemism of ectomycorrhizal fungi in a dipterocarp rainforest. Molecular Ecology 33(21): e17529.

• Kurita T, Nishikawa K, Hossman YM, Mizuno T, Sato H, Gumal M. 2024. Description of a new sandstone-dwelling species of genus Cnemaspis (Sauria: Gekkonidae) from Gunung Santubong National Park, southwestern Sarawak, Malaysia. Zootaxa 5468(2): 361-378.

• Mizuno T, Sato H, Itioka T. 2024. Foraging ants affect community composition and diversity of phyllosphere fungi on a myrmecophilous plants, Mallotus japonicus. Ecology and Evolution 14(5): e11423.

• Fukasawa Y, Pouska V, Bače R, Zíbarová L, Kawasaki Y, Matsuoka S, Sato H, Orman O, Král K, Svoboda M. 2024. Bark beetle outbreaks in Picea abies stands are associated with changes in wood-inhabiting fungal communities and seedling establishment on logs. Fungal Ecology 68: 101328.

• Sato H. 2024. The evolution of ectomycorrhizal symbiosis in the Late Cretaceous is a key driver of explosive diversification in Agaricomycetes. New phytologist 241(1): 444-460.

• Sugiyama Y, Sato H. 2024. Determinants of host specificity in ectomycorrhizal fungi: A focus on host and fungal biogeography. Fungal Ecology 70: 101350.

• Doi H, Matsuoka S, Matsuzaki SiS, Nagano M, Sato H, Yamanaka H, Matsuhashi S, Yamamoto S, Minamoto T, Araki H. 2023. Species traits and ecosystem characteristics affect species detection by eDNA metabarcoding in lake fish communities. Freshwater Biology 68(8): 1346-1358.

• Kadowaki K, Yamamoto S, Sato H, Tanabe AS, Toju H. 2021. Aboveground herbivores drive stronger plant species-specific feedback than belowground fungi to regulate tree community assembly. Oecologia 195: 773-784.

• Sugiyama Y, Sato H. 2021. The limited establishment of native ectomycorrhizal fungi in exotic Eucalyptus spp. stands in Japan. Frontiers in Microbiology 12: 597442.

• Han L, Wu G, Horak E, Halling R, Xu J, Ndolo E, Sato H, Fechner N, Sharma Y, Yang Z. 2020. Phylogeny and species delimitation of Strobilomyces (Boletaceae), with an emphasis on the Asian species. Persoonia-Molecular Phylogeny and Evolution of Fungi 44(1): 113-139.

• Hayami K, Sakata MK, Inagawa T, Okitsu J, Katano I, Doi H, Nakai K, Ichiyanagi H, Gotoh RO, Miya M, Sato H, Yamanaka H, Minamoto T. 2020. Effects of sampling seasons and locations on fish environmental DNA metabarcoding in dam reservoirs. Ecology and Evolution 10(12): 5354-5367.

• Sato H, Ohta R, Murakami N. 2020. Molecular prospecting for cryptic species of the Hypholoma fasciculare complex: toward the effective and practical delimitation of cryptic macrofungal species. Scientific Reports 10(1): 13224.

• Tsuji S, Maruyama A, Miya M, Ushio M, Sato H, Minamoto T, Yamanaka H. 2020. Environmental DNA analysis shows high potential as a tool for estimating intraspecific genetic diversity in a wild fish population. Molecular Ecology Resources 20(5): 1248-1258.

• Tsuji S, Miya M, Ushio M, Sato H, Minamoto T, Yamanaka H. 2020. Evaluating intraspecific genetic diversity using environmental DNA and denoising approach: A case study using tank water. Environmental DNA 2(1): 42-52.

• Fujii K, Doi H, Matsuoka S, Nagano M, Sato H, Yamanaka H. 2019. Environmental DNA metabarcoding for fish community analysis in backwater lakes: A comparison of capture methods. PLOS ONE 14(1): e0210357.

• Matsuoka S, Sugiyama Y, Sato H, Katano I, Harada K, Doi H. 2019. Spatial structure of fungal DNA assemblages revealed with eDNA metabarcoding in a forest river network in western Japan. Metabarcoding and Metagenomics 3: e36335.

• Sato H, Toju H. 2019. Timing of evolutionary innovation: scenarios of evolutionary diversification in a species‐rich fungal clade, Boletales. New phytologist 222(4): 1924-1935.

• Amma S, Toju H, Wachrinrat C, Sato H, Tanabe AS, Artchawakom T, Kanzaki M. 2018. Composition and diversity of soil fungi in Dipterocarpaceae-dominated seasonal tropical forests in Thailand. Microbes and environments 33(2): 135-143.

• Kadowaki K, Yamamoto S, Sato H, Tanabe AS, Hidaka A, Toju H. 2018. Mycorrhizal fungi mediate the direction and strength of plant–soil feedbacks differently between arbuscular mycorrhizal and ectomycorrhizal communities. Communications Biology 1(1): 196.

• Toju H, Sato H. 2018. Root-associated fungi shared between arbuscular mycorrhizal and ectomycorrhizal conifers in a temperate forest. Frontiers in Microbiology 9: 342426.

• Toju H, Sato H, Yamamoto S, Tanabe AS. 2018. Structural diversity across arbuscular mycorrhizal, ectomycorrhizal, and endophytic plant–fungus networks. BMC plant biology 18: 1-12.

• Toju H, Tanabe AS, Sato H. 2018. Network hubs in root-associated fungal metacommunities. Microbiome 6: 1-16.

• Kuo L-Y, Chen C-W, Shinohara W, Ebihara A, Kudoh H, Sato H, Huang Y-M, Chiou W-L. 2017. Not only in the temperate zone: independent gametophytes of two vittarioid ferns (Pteridaceae, Polypodiales) in East Asian subtropics. Journal of Plant Research 130: 255-262.

• Sato H, Sogo Y, Doi H, Yamanaka H. 2017. Usefulness and limitations of sample pooling for environmental DNA metabarcoding of freshwater fish communities. Scientific Reports 7(1): 14860.

• Sato H, Tanabe AS, Toju H. 2017. Host shifts enhance diversification of ectomycorrhizal fungi: diversification rate analysis of the ectomycorrhizal fungal genera Strobilomyces and Afroboletus with an 80‐gene phylogeny. New phytologist 214(1): 443-454.

• Sato H, Hattori T. 2015. New Species of Boletellus Section Boletellus (Boletaceae, Boletales) from Japan, B. aurocontextus sp. nov. and B. areolatus sp. nov. PLOS ONE 10(6): e0128184.

• Sato H, Tanabe AS, Toju H. 2015. Contrasting diversity and host association of ectomycorrhizal basidiomycetes versus root-associated ascomycetes in a dipterocarp rainforest. PLOS ONE 10(4): e0125550.

• Kadowaki K, Sato H, Yamamoto S, Tanabe AS, Hidaka A, Toju H. 2014. Detection of the horizontal spatial structure of soil fungal communities in a natural forest. Population ecology 56: 301-310.

• Sawada A, Sato H, Inoue E, Otani Y, Hanya G. 2014. Mycophagy among Japanese macaques in Yakushima: fungal species diversity and behavioral patterns. Primates 55: 249-257.

• Toju H, Sato H, Tanabe AS. 2014. Diversity and spatial structure of belowground plant–fungal symbiosis in a mixed subtropical forest of ectomycorrhizal and arbuscular mycorrhizal plants. PLOS ONE 9(1): e86566.

• Yamamoto S, Sato H, Tanabe AS, Hidaka A, Kadowaki K, Toju H. 2014. Spatial segregation and aggregation of ectomycorrhizal and root-endophytic fungi in the seedlings of two Quercus species. PLOS ONE 9(5): e96363.

• Toju H, Sato H, Yamamoto S, Kadowaki K, Tanabe AS, Yazawa S, Nishimura O, Agata K. 2013. How are plant and fungal communities linked to each other in belowground ecosystems? A massively parallel pyrosequencing analysis of the association specificity of root‐associated fungi and their host plants. Ecology and Evolution 3(9): 3112-3124.

• Toju H, Yamamoto S, Sato H, Tanabe AS. 2013. Sharing of diverse mycorrhizal and root-endophytic fungi among plant species in an oak-dominated cool–temperate forest. PLOS ONE 8(10): e78248.

• Toju H, Yamamoto S, Sato H, Tanabe AS, Gilbert GS, Kadowaki K. 2013. Community composition of root‐associated fungi in a Quercus‐dominated temperate forest:“codominance” of mycorrhizal and root‐endophytic fungi. Ecology and Evolution 3(5): 1281-1293.

• Ootsuki R, Sato H, Nakato N, Murakami N. 2012. Evidence of genetic segregation in the apogamous fern species Cyrtomium fortunei (Dryopteridaceae). Journal of Plant Research 125: 605-612.

• Sato H, Morimoto S, Hattori T. 2012. A thirty-year survey reveals that ecosystem function of fungi predicts phenology of mushroom fruiting. PLOS ONE 7(11): e49777.

• Sato H, Tsujino R, Kurita K, Yokoyama K, Agata K. 2012. Modelling the global distribution of fungal species: new insights into microbial cosmopolitanism. Molecular Ecology 21(22): 5599-5612.

• Toju H, Tanabe AS, Yamamoto S, Sato H. 2012. High-coverage ITS primers for the DNA-based identification of ascomycetes and basidiomycetes in environmental samples. PLOS ONE 7(7): e40863.

• Sato H, Hattori T, Lee S-S, Murakami N. 2011. Two species of Strobilomyces (Boletaceae, Boletales), S. seminudus and S. hongoi sp. nov. from Japan. Mycologia 103(3): 598-609.

• Sato H, Murakami N. 2009. Strobilomyces verruculosus sp. nov. from Japan. Mycoscience 50(3): 173-178.

• Tsujino R, Yumoto T, Sato H, Imamura A. 2009. Topography-specific emergence of fungal fruiting bodies in warm temperate evergreen broad-leaved forests on Yakushima Island, Japan. Mycoscience 50(5): 388-399.

• Sato H, Murakami N. 2008. Reproductive isolation among cryptic species in the ectomycorrhizal genus Strobilomyces: population-level CAPS marker-based genetic analysis. Molecular Phylogenetics and Evolution 48(1): 326-334.

• Sato H, Yumoto T, Murakami N. 2007. Cryptic species and host specificity in the ectomycorrhizal genus Strobilomyces (Strobilomycetaceae). American Journal of Botany 94(10): 1630-1641.

• Sato H, Hattori T, Kurogi S, Yumoto T. 2005. Strobilomyces mirandus Corner, a new record from Japan. Mycoscience 46(2): 102-105.

• 佐藤博俊. 2016. オニイグチ類とキクバナイグチ類の菌類で発見された新種とその形態的特徴. 分類 16(2): 107-114.

• 佐藤博俊. 2016. 外生菌根菌オニイグチ属菌における隠蔽種の識別と宿主特異性の解明. 日本菌学会会報 57(1): 1-12.

• 日高周, 山本哲史, 田邉晶史, 佐藤博俊, 東樹宏和. 2013. 野外におけるコナラ実生の生育状態と真菌群集の関係. 根の研究= Root research 22(1): 29.

• 小田貴志, 今村彰生, 佐藤博俊. 2002. 紹介 吉田山菌類目録. 日本菌学会会報= Japanese journal of mycology 43(3・4): 118-126.

佐藤博俊. 2024. 第7章　菌類研究はなぜ難しいのか. In 京都大学大学院人間・環境学研究科 (Ed.), 学問で平和はつくれるか？ (pp. 81-88). 京都: 京都大学学術出版会.

佐藤博俊. 2012. 第3部 共生する生物の関係を紐解く 第9章 キノコ類の隠れた種：共生する植物との相性を紐解く. In 川北篤 & 奥山雄大 (Eds.), 種生物学シリーズ 種間関係の生物学 共生・寄生・捕食の新しい姿 (pp. 217-244). 東京: 文一総合出版.

佐藤博俊. 2012. 第 4 部 新しい自然史研究の手法 第 11 章 野生生物からの DNA および RNA 抽出 IV 菌根サンプルの DNA 解析について. In 川北篤 & 奥山雄大 (Eds.), 種生物学シリーズ 種間関係の生物学 共生・寄生・捕食の新しい姿 (pp. 285-293). 東京: 文一総合出版.

佐藤博俊. 2012. 共生・共進化する植物の世界 (第 3 回) 菌根 (きんこん) 共生: 地下に隠された菌類と植物の密接な共生関係. In Milsil: 自然と科学の情報誌 (Vol. 5, pp. 22-25). 東京: 国立科学博物館.

佐藤博俊, 村上哲明. 2007. 植物の進化. 生物の科学 「遺伝」. 別冊/日本遺伝学会 監修・編(20): 213-218.