English / Japanese

Masayuki Ushio's Website

原著論文

    Preprints

  • Miki T, Chang CW, Ke PJ, Telschow A, Tsai CH, Ushio M, Hsieh CH (2024) How to quantify interaction strengths? A critical rethinking of the interaction Jacobian and evaluation methods for non-parametric inference in time series analysis.
  • Gao et al. (2024) Diversity and distinctive traits of the global RNA virome in urban environments. Available at SSRN
  • Osada Y*, Ushio M, Kondoh M (2023) Unified understanding of nonparametric causality detection in time series.

    In press/early view

  1. Fukasawa Y*, Kimura S, Kominami Y, Takagi M, Matsukura K, Makoto K, Suzuki SN, Takemoto S, Tanaka N, Jomura M, Kadowaki K, Ushio M, Kinuura H, Yamashita S (accepted)
    Oak wilt disease may reduce the initial decay rate of dead Quercus serrata stems by altering fungal communities in the wood
    Environmental Microbiology

  2. 潮雅之*, 中嶋浩平 (in press)
    リザバーコンピューティング: 原理と生態学における応用可能性
    日本生態学会誌

  3. Jiang L*, Ushio M, Imai N, Sugau J, Kitayama K (2024)
    Changes of bacterial versus fungal community composition along a forest degradation gradient of logged-over tropical rain forests, and their consequences on soil enzyme activities in Malaysian Borneo
    Plant and Soil

  4. 2024

  5. Oka S-I*, Sado T, Ushio M, Miya M* (2024)
    Assessing the impact of tidal changes on fish environmental DNA metabarcoding in temperate and tropical coastal regions of Japan
    Metabarcoding & Metagenomics 8:e135461

  6. Atsumi K, Nishida Y, Ushio M, Nishi H, Genroku T, Fujiki S* (2024)
    Boosting biodiversity monitoring using smartphone-driven, rapidly accumulating citizen data
    eLife 13:RP93694

  7. Maehara K, Iwachido Y, Katsuhara H, Tomitaka M, Seto K, Ushio M, Kagami M, Sasaki T* (2024)
    Plant and soil microbial community assembly processes across urban vacant lots
    Journal of Vegetation Science 35:e13262

  8. Sugiyama Y*, Matsuoka S, Shimono Y, Ushio M, Doi H (2024)
    Do aquatic fungal environmental DNA assemblages reflect the surrounding terrestrial sporocarp communities?
    Fungal Ecology 67:101311

  9. 2023

  10. Fujita H*, Ushio M, Suzuki K, Abe MS, Yamamichi M, Okazaki Y, Canarini A, Hayashi I, Fukushima K, Fukuda S, Kiers ET, Toju H* (2023)
    Metagenomic analysis of ecological niche overlap and community collapse in microbiome dynamics
    Frontiers in Microbiology 14:1261137

  11. Sakata M*, Sado T, Oka S-I, Ushio M, Miya M* (2023)
    Collection of environmental DNA from stemflow for monitoring arboreal biodiversity: preliminary validation using lichens
    MethodsX 11:102448

  12. Maxime M*, Ushio M, Sakai S (2023)
    The effects of the floral infection by a bacterial pathogen in a dioecious plant, Mallotus japonicus (Euphorbiaceae)
    Population Ecology 65:232-239

  13. Ushio M*, Saito H, Tojo M, Nagano AJ (2023)
    An ecological network approach for detecting and validating influential organisms for rice growth
    eLife 12:RP87202

    JSTさきがけプロジェクトで行ったイネ研究です (c) M. Ushio


  14. Ushio M*, Sado T, Fukuchi T, Sasano S, Masuda R, Osada Y, Miya M* (2023)
    Temperature sensitivity of the interspecific interaction strength of coastal marine fish communities
    eLife 12:RP85795

    房総半島の採水地点の一つ (c) M. Miya

    ・以下のサイトで紹介されています: EukAlert!, 香港科技大学プレスリリース, 京都大学プレスリリース, 東北大学プレスリリース, Croucher Foundation


  15. Yoneya K*, Ushio M, Miki T (2023)
    Non-destructive collection and metabarcoding of arthropod environmental DNA remained on a terrestrial plant
    Scientific Reports 13:7125

  16. Jiang L*, Ushio M, Kitayama K (2023)
    Changes of soil chemical properties, microbial biomass and enzymatic activities along a gradient of forest degradation in logged over tropical rain forests, Borneo
    Plant and Soil 485:525–536

  17. Ushio M*, Watanabe K, Fukuda Y, Tokudome Y, Nakajima K* (2023)
    Computational capability of ecological dynamics
    Royal Society Open Science 10:221614

    人工ネットワークを生物によるネットワークに置き換えて計算が可能であることを実証 (credit:KyotoU/Jake Tobiyama)
    bioRxivNew Scientist で紹介されました (英語)
    bioRxivFocus.pl で紹介されました (ポーランド語)

  18. Fujita H*, Ushio M, Suzuki K, Abe MS, Yamamichi M, Okazaki Y, Canarini A, Hayashi I, Fukushima K, Fukuda S, Kiers ET, Toju H* (2023)
    Facilitative interaction networks in experimental microbial community dynamics
    Frontiers in Microbiology 14:1153952

  19. Fujita H*, Ushio M, Suzuki K, Abe MS, Yamamichi M, Iwayama K, Canarini A, Hayashi I, Fukushima K, Fukuda S, Kiers ET, Toju H* (2023)
    Alternative stable states, nonlinear behavior, and predictability of microbiome dynamics
    Microbiome 11:63

  20. Fukasawa Y*, Akai D, Ushio M, Takehi T (2023)
    Electrical potentials in the ectomycorrhizal fungus Laccaria bicolor after a rainfall event
    Fungal Ecology 63:101229

  21. Tsujii Y*, Sakai S, Ushio M, Aiba S-I, Kitayama K (2023)
    Variations in the reproductive cycle of Bornean montane tree species along elevational gradients on ultrabasic and non-ultrabasic soils
    Biotropica 55 (1):210–220

  22. 2022

  23. Ushio M*, Furukawa S, Murakami H, Masuda R, Nagano AJ* (2022)
    An efficient early-pooling protocol for environmental DNA metabarcoding
    Environmental DNA 4 (6):1212–1228

  24. Inoue N*, Sato M, Furuichi N, Imaizumi T, Ushio M (2022)
    The relationship between eDNA density distribution and current fields around an artificial reef in the waters of Tateyama Bay, Japan
    Metabarcoding & Metagenomics 6:e87415

  25. Fukasawa Y*, Matsukura K, Stephan JG, Makoto K, Suzuki SN, Kominami Y, Takagi M, Tanaka N, Takemoto S, Kinuura H, Okano K, Song Z, Jomura M, Kadowaki K, Yamashita S, Ushio M (2022)
    Patterns of community composition and diversity in latent fungi of living Quercus serrata trunks across a range of oak wilt prevalence and climate variables in Japan
    Fungal Ecology 59:101095

  26. Elvira NJ, Ushio M, Sakai S* (2022)
    Are microbes growing on flowers evil? Effects of old flower microbes on fruit set in a wild ginger with one-day flowers, Alpinia japonica (Zingiberaceae)
    Metabarcoding & Metagenomics 6:e84331

  27. Maxime M*, Ushio M, Sakai S. (2022)
    Contrasting microbial communities on male and female flowers of a dioecious plant, Mallotus japonicus (Euphorbiaceae)
    Environmental DNA 4 (3):565–579

  28. Ushio M* (2022)
    Interaction capacity as a potential driver of community diversity
    Proceedings of the Royal Society B 289: 20212690

    環境 DNA モニタリングデータを元に再構成した種間相互作用ネットワーク
    プレスリリース: 京都大学 HP, 詳しい内容 (PDF),
  29. 2021

  30. Chang CW, Miki T, Ushio M, Ke PJ, Lu HP, Shiah FK, Hsieh CH* (2021)
    Reconstructing large interaction networks from empirical time series data
    Ecology Letters 24 (12):2763–2774

  31. Sato M*, Inoue N, Nambu R, Furuich N, Imaizumi T, Ushio M (2021)
    Quantitative assessment of multiple fish species around artificial reefs using environmental DNA metabarcoding
    Scientific Reports 11:19477

  32. Matsuoka S*, Sugiyama Y, Shimono Y, Ushio M, Doi H (2021)
    Evaluation of seasonal dynamics of fungal DNA assemblages in a flow-regulated stream in a restored forest using eDNA metabarcoding
    Environmental Microbiology 23 (8):4797–4806

  33. Doi H*, Yasuhara M*, Ushio M* (2021)
    Causal analysis of the temperature impact on deep-sea biodiversity
    Biology Letters 17 (7):20200666

  34. 白垣友寛, 井上拓, 福田秀樹, 潮雅之, 日下美樹, 岡野孝哉, 高巣裕之* (2021)
    海洋堆積物に残存する環境DNAを用いた魚類相把握の試み
    水環境学会誌 44 (4):79–84

  35. Kawatsu K, Ushio M, van Veen F, Kondoh M* (2021)
    Are networks of trophic interactions sufficient for understanding the dynamics of multi-trophic communities? Analysis of a tri-trophic insect food-web time-series
    Ecology Letters 24 (3):543–552

  36. Kitayama K*, Ushio M*, Aiba S-I (2021)
    Temperature is a dominant driver of distinct annual seasonality of leaf litter production of equatorial tropical rain forests
    Journal of Ecology 109 (2):727–736
    DOI

    キナバル山と標高別の葉リターの時系列データ
    プレスリリース: 京都大学 HP, 詳しい内容 (PDF)
  37. 2020

  38. Yonezawa S, Ushio M*, Yamanaka H, Miya M, Takayanagi A, Isagi Y* (2020)
    Environmental DNA metabarcoding reveals the presence of a small, quick-moving, nocturnal water shrew in a forest stream
    Conservation Genetics 21 (6):1079–1084

  39. Tsuji S*, Shibata N, Sawada H, Ushio M (2020)
    Quantitative evaluation of intraspecific genetic diversity in a natural fish population using environmental DNA analysis
    Molecular Ecology Resources 20 (5):1323–1332

  40. 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

  41. Cai J, Hodoki Y, Ushio M, Nakano S-I* (2020)
    Influences of potential grazers on picocyanobacteria abundances in Lake Biwa revealed by empirical dynamic modeling
    Inland Water 10 (3):386–396

  42. Ushio M* (2020) [Special Feature]
    Idea paper: Predicting culturability of microbes from population dynamics under field conditions
    Ecological Research 35 (4):586–590

  43. Nishio H*, Buzas DM, Nagano AJ, Iwayama K, Ushio M, Kudoh H* (2020)
    Repressive chromatin modification underpins the long-term expression trend of a perennial flowering gene in nature
    Nature Communications 11:2065

  44. Shirouzu T*, Matsuoka S, Doi H, Nagata N, Ushio M, Hosaka K (2020)
    Complementary molecular methods reveal a comprehensive phylogenetic diversity with integrating invisible lineages of early-diverged mushrooms
    Scientific Reports 10:3057

  45. Ushio M*, Osada Y, Kumagai T, Kume T, Pungga RS, Nakashizuka T, Itioka T, Sakai S* (2020) Miyadi Award Paper
    Dynamic and synergistic influences of air temperature and rainfall on general flowering in a Bornean lowland tropical forest
    Ecological Research 35 (1):17–29

  46. 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
  47. 2019

  48. Ushio M* (2019)
    Use of a filter cartridge combined with intra-cartridge bead-beating improves detection of microbial DNA from water samples
    Methods in Ecology and Evolution 10 (8):1142–1156

  49. Nakagawa M, Ushio M, Kume T, Nakashizuka T (2019)
    Seasonal and long-term patterns in litterfall in a Bornean tropical rainforest
    Ecological Research 34 (1): 31–39

  50. 2018

  51. Toju H*, Peay KG, Yamamichi M, Narisawa K, Hiruma K, Naito K, Fukuda S, Ushio M, Nakaoka S, Onoda Y, Yoshida K, Schlaeppi K, Bai Y, Sugiura R, Ichihashi Y, Minamisawa K, Kiers ET (2018)
    Core microbiomes for sustainable agroecosystems
    Nature Plants 4: 247–257

  52. Ushio M*, Murata K, Sado T, Nishiumi I, Takeshita M, Iwasaki W, Miya M* (2018)
    Demonstration of the potential of environmental DNA as a tool for the detection of avian species
    Scientific Reports 8: 4493

  53. Ushio M*, Murakami H, Masuda R, Sado T, Miya M, Sakurai S, Yamanaka H, Minamoto T, Kondoh M (2018)
    Quantitative monitoring of multispecies fish environmental DNA using high-throughput sequencing
    Metabarcoding & Metagenomics 2: e23297


  54. Ushio M*, Hsieh CH, Masuda R, Deyle RE, Ye H, Chang CW, Sugihara G, Kondoh M* (2018)
    Fluctuating interaction network and time-varying stability of a natural fish community
    Nature 554 (7692): 360–363
    相互作用する魚たち © R. Masuda
    論文へのフリーリンク: SharedIt link (read only)
    紹介ブログ: Nature Ecology & Evolution, Behind the Paper
    プレスリリースなど: 京都大, Kyoto Univ (英語版), 京大フィールド研, 龍谷大, 科学技術振興機構, 東北大, 國立台灣大学
    新聞記事など: EurekAlert!, ScienceDaily, PHYS.ORG, 京都新聞, 日本経済新聞, 環境展望台 (国立環境研究所), Yahoo! ニュース
  55. 2017

  56. 相場慎一郎*, 宮本和樹, 潮雅之, 青柳亮太, 澤田佳美 (2017)
    陸上生態系において球果類の優占度を決定するメカニズム
    日本生態学会誌 67 (3): 355–360

  57. 潮雅之* (2017)
    マキ科・ナンヨウスギ科の根の形態・菌根菌・窒素固定活性
    日本生態学会誌 67 (3): 339–345

  58. Ushio M*, Fukuda H, Inoue T, Makoto K, Kishida O, Sato K, Murata K, Nikaido M, Sado T, Sato Y, Takeshita M, Iwasaki W, Yamanaka H, Kondoh M, Miya M* (2017)
    Environmental DNA enables detection of terrestrial mammals from forest pond water
    Molecular Ecology Resources 17 (6): e63–e75
    水を飲むトラの子供 © M. Ushio
    プレスリリース: 千葉県立中央博物館, 龍谷大, 東京農大
    テレビ・新聞記事: NHK News Web, 毎日新聞 (千葉), 千葉日報, 朝日新聞
  59. Chang CW*, Ushio M*, Hsieh CH* (2017)
    Empirical dynamic modeling for beginners
    Ecological Research 32 (6): 785–796

  60. Ishige T, Miya M, Ushio M, Sado T, Ushioda M, Yonechi R, Lagan P, Matsubayashi H* (2017)
    Tropical-forest mammals as detected by environmental DNA at natural saltlicks
    Biological Conservation 210: 281–285

  61. Tsuji S*, Ushio M, Sakurai S, Minamoto T, Yamanaka H (2017)
    Water temperature-dependent degradation of environmental DNA and its relation to bacterial abundance
    PLoS ONE 12 (4) e0176608

  62. Ushio M*, Aiba S-I, Takeuchi Y, Iida Y, Matsuoka S, Repin R, Kitayama K (2017)
    Plant-soil feedbacks and the dominance of conifers in a tropical montane forest in Borneo
    Ecological Monographs 87 (1): 105–129
    ボルネオ島キナバル山 © M. Ushio
    キナバル山熱帯山地林で 2005 年から行ってきた一連の研究の総まとめとなる論文です
  63. Koyama K*, Yamamoto K, Ushio M (2017)
    A lognormal distribution of the lengths of terminal twigs on self-similar branches of elm trees
    Proceedings of the Royal Society B 284: 20162395

  64. 2016

  65. Sakai S*, Keong CY, Koizumi M, Kishimoto-Yamada K, Takano KT, Ichikawa M, Samejima H, Kato Y, Soda R, Ushio M, Saizen I, Nakashizuka T, Itioka T (2016)
    Social and ecological factors associated with the use of non-timber forest products by people in rural Borneo
    Biological Conservation 204: 340–349

  66. 2015

  67. Ohba S-Y*, Ushio M (2015)
    Effect of water depth on predation frequency by diving beetles on mosquito larvae prey
    Entomological Science 18 (4): 519–522

  68. Ushio M*, Fujiki Y, Hidaka A, Kitayama K* (2015)
    Linkage of root physiology and morphology as an adaptation to soil phosphorus impoverishment in tropical montane forests
    Functional Ecology 29 (9): 1235–1245

  69. Takasu H, Ushio M, LeClair JE, Nakano S-I* (2015)
    High contribution of Synechococcus to phytoplankton biomass in the aphotic hypolimnion in a deep freshwater lake (Lake Biwa, Japan)
    Aquatic Microbial Ecology 75 (1): 69–79

  70. Ushio M*, Yamasaki E, Takasu H, Nagano AJ, Honjo MN, Fujinaga S, Ikemoto M, Sakai S, Kudoh H (2015)
    Microbial communities on flower surfaces act as signatures of pollinator visitation
    Scientific Reports 5: 8695
    ラベンダーを訪れるセイヨウマルハナバチ © E. Yamasaki
    Scientific Reports 注目の論文」に選定されました!
  71. 2014

  72. Katayama N*, Silva AO, Kishida O, Ushio M, Kita S, Ohgushi T (2014)
    Herbivorous insect decreases plant nutrient uptake: the role of soil nutrient availability and association of below-ground symbionts
    Ecological Entomology 39 (4): 511–518

  73. Ushio M*, Makoto K, Klaminder J, Takasu H, Nakano S-I (2014)
    High-throughput sequencing shows inconsistent results with a microscope-based analysis of the soil prokaryotic community
    Soil Biology & Biochemistry 76: 53–56

  74. 2013

  75. Ushio M*, Miki T, Balser TC (2013)
    A coexisting fungal-bacterial community stabilizes soil decomposition activity in a microcosm experiment
    PLoS ONE 8 (11) e80320

  76. Ushio M*, Makoto K, Klaminder J, Nakano S-I (2013)
    CARD-FISH analysis of prokaryotic community composition and abundance along small-scale vegetation gradients in a dry arctic tundra ecosystem
    Soil Biology & Biochemistry 64: 147–154

  77. Nakazawa T*, Ohba S-Y, Ushio M (2013)
    Predator-prey body size relationships when predators can consume prey larger than themselves
    Biology Letters 9 (3) no. 20121193

  78. Ushio M*, Balser TC, Kitayama K (2013)
    Effects of condensed tannins in conifer leaves on the composition and activity of soil microbial community in a tropical montane forest
    Plant and Soil 365 (1-2): 157–170

    キナバル山熱帯山地林の写真が表紙に採用されました!
  79. Before 2012

  80. Koyama K*, Hidaka Y, Ushio M (2012)
    Dynamic scaling in the growth of a non-branching plant, Cardiocrinum cordatum
    PLoS ONE 7 (9) e45317
  81. Ushio M, Adams JM* (2011)
    A meta-analysis of the global distribution pattern of condensed tannins in tree leaves
    The Open Ecology Journal 4: 18–23
  82. Takeuchi Y, Salcher MM, Ushio M, Shimizu-Inatsugi R, Kobayashi MJ, Diway B, von Mering C, Pernthaler J, Shimizu KK* (2011)
    In situ enzyme activity in the dissolved and particulate fraction of the fluid from four pitcher plant species of the genus Nepenthes
    PLoS ONE 6 (9) e25144
  83. Ushio M*, Kitayama K, Balser TC (2010)
    Tree species-mediated spatial patchiness of the composition of microbial community and physicochemical properties in the topsoils of a tropical montane forest
    Soil Biology & Biochemistry 42 (9):1588–1595
  84. Miki T*, Ushio M, Fukui S, Kondoh M (2010)
    Functional diversity of microbial decomposers facilitates plant coexistence in a plant-microbe-soil feedback model
    PNAS 107 (32): 14251–14256
  85. Ushio M*, Kitayama K, Balser TC (2010)
    Tree species effects on soil enzyme activities through effects on soil physicochemical and microbial properties in a tropical montane forest on Mt. Kinabalu, Borneo
    Pedobiologia 53 (4): 227–233
  86. Ushio M*, Miki T, Kitayama K (2009)
    Phenolic control of plant nitrogen acquisition through the inhibition of soil microbial decomposition processes: A plant-microbe competition model
    Microbes and Environments 24 (2): 180–187
  87. Ushio M*, Wagai R, Balser TC, Kitayama K (2008)
    Variations in the soil microbial community composition of a tropical montane forest ecosystem: Does tree species matter?
    Soil Biology & Biochemistry 40 (10): 2699–2702

  88. : This symbol is downloaded from this website and distributed under Creative Commmons Atribution Liscence (CC BY 2.0) (see also this Wikipedia page).

本など

  1. Ushio M*, Kawatsu K (2020)
    Forecasting ecological time series using empirical dynamic modeling: a tutorial for simplex projection and S-map. DOI:10.1007/978-981-15-7953-0_9. In Mougi A ed. "Diversity of Functional Traits and Interactions". pp.193–213 Springer, Singapore.

  2. Kondoh M*, Kawatsu K, Osada Y, Ushio M (2020)
    A data-driven approach to complex ecological systems. DOI:10.1093/oso/9780198824282.003.0008. In McCann K.S. & Gellner G eds. "Theoretical Ecology: concepts and applications". pp. 117–122. Oxford University Press, Oxford, UK.

  3. Kitayama K*, Aiba S-I, Ushio M, Seino T, Fujiki Y (2011)
    The ecology of podocarps in tropical montane forests of Borneo: distribution, population dynamics, and soil nutrient acquisition. Smithsonian Contributions to Botany 95 pp.101–117. In Turner, B.L. & Cernusak, L.A. eds. "Ecology of the Podocarpaceae in Tropical Forests". Smithsonian Institution Scholarly Press, Washington D.C.

  4. Nakazawa T, Ushio M, Kondoh M* (2011)
    Scale-dependence of predator-prey body-mass ratio: determinants and applications. Advances in Ecological Research 45 pp.269–302. In Belgrano, A. and Reiss, J. eds. "The Role of Body Size in Multispecies Systems". Academic Press, Amsterdam, The Netherlands
    TN and MU equally contributed to this work.

特許

  1. 平成30年9月18日出願 特願2018-173812
    潮雅之 「破砕ビーズを利用したカートリッジ型ろ過フィルターからの微生物DNAの効率的抽出」

  2. 平成30年4月18日出願 特願2018-79640 特開2019-191630
    令和4年5月17日査定
    潮雅之 「強く同期した周期性を持つ時系列データ間の因果関係を検出する解析手法」

その他

  1. 潮雅之・辻冴月 (2024) 「第3章 14. 水圏の環境DNA分析 分析のための採水・濾過・DNA抽出」
    鹿島誠・伊藤佑・尾崎遼(編)『誰でも再現できるNGS「前」サンプル調製プロトコール』羊土社・実験医学別冊 pp.202-215

  2. 潮雅之・辻冴月 (2024) 「第1章 5. 水圏における環境DNA分析」
    鹿島誠・伊藤佑・尾崎遼(編)『誰でも再現できるNGS「前」サンプル調製プロトコール』羊土社・実験医学別冊 pp.39-48

  3. 武方宏樹・相場慎一郎・中林雅・野津了・古川真央・田中良弥・潮雅之 (2022)
    「南の生物と時間」 時間生物学 vol.28 pp.9–16

  4. 潮雅之 (2021) (分担執筆)「5.6 哺乳類の検出」
    一般社団法人 環境DNA学会(企画)土居秀幸・近藤倫生(編)『環境DNA – 生態系の真の姿を読み解く –』 pp.204–216 共立出版

  5. 海洋と生物 234 Vol. 40 (1) 特集「環境 DNA が拓く魚類生態研究の未来 」 「次世代シーケンサーと内部標準 DNA を利用した魚類環境 DNA の網羅的・定量的モニタリング」(pp.40–46) 潮雅之

  6. 水産海洋研究 81 (4) 第47回北洋研究シンポジウム –環境 DNA を用いた水産生物のモニタリング– 「大量シーケンスと標準 DNA を利用した魚類環境 DNA の網羅的・定量的モニタリング:京都府舞鶴湾での解析事例」(pp.305–307) 潮雅之

  7. iOSアプリを開発しました (2014.1). 日本の生態学者 (for iPhone/iPad)
    ・詳しくはApp Store を御覧ください.
    ・(現在は配信されていません:2014年10月追記)

  8. 生態学研究センターニュース 第118号(2012年11月号)p.11
    センター員の研究紹介「土壌の微生物を光らせる」潮雅之

  9. 北山兼弘, 潮雅之, 和穎朗太 (2007)
    「熱帯降雨林の生態系-樹木と微生物の協奏曲」 京都大学総合博物館・生態学研究センター(編)『生物の多様性ってなんだろう?-生命のジグソーパズル-』 pp.250–272 京都大学学術出版会

受賞など

  1. 2021.4 令和3年度 科学技術分野の文部科学大臣表彰 若手科学者賞
  2. 2018.3 第22回日本生態学会 宮地賞
  3. 2014.3 第61回日本生態学会 英語口頭発表 Best Award (Microbial and Ecosystem Ecology section)
  4. 2009.3 第56回日本生態学会 ポスター発表優秀賞(物質生産・物質循環部門)
  5. 2008.3 第55回日本生態学会 ポスター発表最優秀賞(物質循環部門)
  6. 2007.2 第3回日本生態学会近畿地区会 奨励賞

学会発表

科学雑誌、研究費プロポーザルの査読経験

African Journal of Agricultural Research, African Journal of Biotechnology, African Journal of Microbiology Research, Agricultural Science, Applied Soil Ecology, Australian Journal of Botany, Communications Biology, Ecological Entomology, Ecological Indicators, Ecological Research, Ecology, Ecology Letters, Ecosystems, Ecosphere, eLife, Environmental DNA, European Journal of Soil Science, Fisheries Science, Forest Ecology and Management, Geoderma, Genes & Genetic Systems, Journal of Animal Ecology, Journal of Applied Microbiology, Journal of Arid Land, Journal of Forest Research, Metabarcoding & Metagenomics,, Microbial Ecology, Molecular Ecology Resources, Nature Climate Change, Nature Communications, Plant and Soil, PLoS ONE, Population Ecology, Proceedings of the Royal Society B, The Research Foundation Flanders (FWO), Review of Palaeobotany and Palynology, Science of the Total Environment, Scientific Reports, National Scientific Research Fund (F.R.S.-FNRS) (Belgium), Soil Biology & Biochemistry, Soil Research, Soil Science and Plant Nutrition, 日本生態学会誌, 黒潮圏科学