78. Saiki, S.T., Ilek, A., Ando, Y., Sahashi, N., Nanko, K. (2025) Impact of Pathogenic Fungi on Leaf Surface Wettability: A Case Study of Erysiphe castaneigena. Ecohydrology 18: e2755 doi:10.1002/eco.2755
77. Nanko, K., Levia, D.F., Iida, S., Shinohara, Y., Sakai, N. (2025) Machine learning reveals the contrasting roles of rainfall and canopy structure metrics on the formation of canopy drip and splash throughfall. Journal of Geophysical Research: Biogeosciences 130: e2024JG008340 doi:10.1029/2024JG008340
76. Kamimura, K., Nanko, K., Matsumoto, A., Ueno, S., Gardiner, B. (2024) Energy transfer during tree movement for different wind conditions and forest configurations. Forest Ecology and Management
571: 122223. doi:10.1016/j.foreco.2024.122223 ●プレスリリース
74. Jeong, S., Nanko, K., Katayama, A., Kume, T., Koga, S., Otsuki, K. (2024) Characteristics of throughfall kinetic energy in an unmanaged Japanese cypress plantation laden with dead branches. Catena 243: 108181. doi:10.1016/j.catena.2024.108181
73. Yamada, Y., Yamaura, Y., Shimizu, K., Murakami, W., Nanko, K., Takayama, N. (2024) Conflicts among ecosystem services may depend on environmental awareness: a multi-municipality analysis. Forestry: An International Journal of Forest Research 97: 424–435. doi:10.1093/forestry/cpad046
72. Iwasaki, K., Shimoda, S., Nakata, Y., Hayamizu, M., Nanko, K., Torita, H. (2024) Remote sensing of soil ridge height to visualize windbreak effectiveness in wind erosion control: A strategy for sustainable agriculture. Computers and Electronics in Agriculture 219: 108778. doi:10.1016/j.compag.2024.108778 ●プレスリリース
71. Katayama, A., Nanko, K., Jeong, S., Kume, T., Shinohara, Y., Seitz, S. (2023) Concentrated impacts by tree canopy drips: hotspots of soil erosion in forests. Earth Surface Dynamics 11: 1275–1282. [Short Communication]
[和] 樹冠からの滴下雨の集中的な衝撃:森林における土壌侵食のホットスポット doi:10.5194/esurf-11-1275-2023
70. Katsushima, T., Kato, A., Aiura, H., Nanko, K., Suzuki, S., Takeuchi, Y., Murakami, S. (2023) Modeling of snow interception on a Japanese cedar canopy based on weighing tree experiment in a warm winter region. Hydrological Processes 37: e14922. website ●プレスリリース
68. Nanko, K., Keim, R.F., Hudson, S.A., Levia, D.F. (2022) Throughfall drop sizes suggest canopy flowpaths vary by phenophase. Journal of Hydrology 612: 128144.
[和] 林内雨滴のサイズを用いた季節ごとの樹冠内の流路の示唆 doi:10.1016/j.jhydrol.2022.128144
67. Iwasaki, K., Nanko, K., Nakata, Y., Masaka, K., Shinohara, Y., Nitta, K., Mizunaga, H. (2022) Port construction alters dune topography and coastal forest growth: A study on forest decline due to coastal erosion. Ecological Engineering 180: 106640.
[和] 港湾建設が砂丘地形と海岸林成長を変えた:海岸侵食による森林衰退に関する研究 doi:10.1016/j.ecoleng.2022.106640 ●森林総研広報
66. Saidin, Z.H., Levia, D.F., Kato, H., Kurihara, M., Hudson, J.E., Nanko, K., Onda, Y. (2022) Vertical distribution and transport of radiocesium via branchflow and stemflow through the canopy of cedar and oak stands in the aftermath of the Fukushima Dai-ichi Nuclear Power Plant accident. Science of the Total Environment 818: 151698.
[和] スギとコナラにおける枝葉流と樹幹流を介した放射性セシウムの垂直分布と輸送 doi:10.1016/j.scitotenv.2021.151698
64. Llorens, P., Latron, J., Carlyle-Moses, D.E., Näthe, K., Chang, J.L., Nanko, K., Iida, S., Levia, D.F. (2022) Stemflow Infiltration Areas Into Forest Soils Around American Beech (Fagus grandifolia Ehrh.) Trees. Ecohydrology 15: e2369.
[和] アメリカブナ根元の森林土壌における樹幹流の浸透面積 doi:10.1002/eco.2369
63. Kamimura, K., Nanko, K., Matsumoto, A., Ueno, S., Gardiner, J., Gardiner, B. (2022) Tree dynamic response and survival in a category-5 tropical cyclone: the case of super typhoon Trami. Science Advances 8: eabm7891.
[和] カテゴリー5の熱帯低気圧における樹木の動的応答と生存率:超大型台風のケース doi:10.1126/sciadv.abm7891 ●プレスリリース ●森林総研広報
62. Yamashita, N., Ishizuka, S., Hashimoto, S., Ugawa, S., Nanko, K., Osone, Y., Iwahashi, J., Sakai, Y., Inatomi, M., Kawanishi, A., Morisada, K., Tanaka, N., Aizawa, S., Imaya, A., Takahashi, M., Kaneko, S., Miura, S., Hirai, K. (2022) National-scale 3D mapping of soil organic carbon in a Japanese forest considering microtopography and tephra deposition. Geoderma 406: 115534.
[和] 微地形とテフラ沈着を考慮した全国の森林における3次元土壌有機炭素マッピング doi:10.1016/j.geoderma.2021.115534 ●森林総研広報
60. Iida, S., Wheeler, K.I., Nanko, K., Shinohara, Y., Sun, X., Sakai, N., Levia, D.F. (2021) Canopy structure metrics governing stemflow funneling differ between leafed and leafless states: insights from a large-scale rainfall simulator. Hydrological Processes35: e14294.
[和] 樹幹流の集中度に影響を与える樹冠構造は着葉・非着葉状態で異なる doi:10.1002/hyp.14294 ●森林総研広報
59. Yamaura, Y., Yamada, Y., Matsuura, T., Tamai, K., Taki, H., Sato, T., Hashimoto, S., Murakami, W., Toda, K., Saito, H., Nanko, K., Ito, E., Takayama, N., Tsuzuki, N., Takahashi, M., Yamaki, K., Sano, M. (2021) Modeling impacts of broad-scale plantation forestry on ecosystem services in the past 60 years and for the future. Ecosystem Services 49: 101271.
[和] 広域的な人工林林業が生態系サービスに及ぼすインパクトの過去60年間と将来にかけての予測 doi:10.1016/j.ecoser.2021.101271 ●プレスリリース
58. Tucker, A., Levia, D.F., Katul, G.G., Nanko, K., Rossi, L.F. (2020) A network model for stemflow solute transport. Applied Mathematical Modelling 88: 266-282.
[和] 樹幹流による溶質輸送のネットワークモデル doi:10.1016/j.apm.2020.06.047
56. Mrad, A., Katul, G.G., Levia, D.F., Guswa, A.J., Boyer, E.W., Bruen, M., Carlyle-Moses, D.E., Coyte, R., Creed, I.F., van de Giesen, N., Grasso, D., Hannah, D.M., Hudson, J.E., Humphrey, V., Iida, S., Jackson, R.B., Kumagai, T., Llorens, P., Michalzik, B., Nanko, K., Peters, C.A., Selker, J.S., Tetzlaff, D., Zalewski, M., Scanlon, B.R. (2020) Peak grain forecasts for the U.S. High Plains amid withering waters. Proceedings of the National Academy of Sciences of the United States of America 117: 26145-26150.
[和] 水危機の真っ只中にあるアメリカハイプレーンズにおける穀物のピーク生産量の予測 doi:10.1073/pnas.2008383117 ●東大広報
55. Levia, D.F., Creed, I.F., Hannah, D.M., Nanko, K., Boyer, E.W., Carlyle-Moses, D.E., van de Giesen, N., Grasso, D., Guswa, A.J., Hudson, J.E., Hudson, S.A., Iida, S., Jackson, R.B., Katul, G.G., Kumagai, T., Llorens, P., Lopes Ribeiro, F., Pataki, D.E., Peters, C.A., Sanchez Carretero, D., Selker, J.S, Tetzlaff, D., Zalewski, M., Bruen, M. (2020) Homogenization of the terrestrial water cycle. Nature Geoscience 13: 656-658. [Comment]
[和] 陸域水循環の均質化 doi:10.1038/s41561-020-0641-y ●プレスリリース
54. Carlyle-Moses, D.E., Iida, S., Germer, S., Llorens, P., Michalzik, B., Nanko, K., Tanaka, T., Tischer, A., Levia, D.F. (2020) Commentary: "What We Know About Stemflow's Infiltration Area". Frontiers in Forests and Global Change 3: 577247. [Commentary]
[和] 「樹幹流の浸透面積に関する我々の理解」に対する論考 doi:10.3389/ffgc.2020.577247
53. Pinos, J., Latron, J., Nanko, K., Levia, D.F., Llorens, P. (2020) Throughfall isotopic composition in relation to drop size at the intra-event scale in a Mediterranean Scots pine stand. Hydrology and Earth System Sciences 24: 4675–4690.
[和] 地中海沿岸ヨーロッパアカマツ林におけるイベント内スケールでの樹冠通過雨の同位体組成と雨滴粒径の関係 doi:10.5194/hess-24-4675-2020
52. Zhu, X., Liu, W., Chen, J., Bruijnzeel, L.A., Mao, Z., Yang, X., Cardinael, R., Meng, F.-R., Sidle, R.C., Seitz, S., Nair, V.D., Nanko, K., Zou, X., Chen, C., Jiang, X.J. (2020) Reductions in water, soil and nutrient losses and pesticide pollution in agroforestry practices: a review of evidence and processes. Plant and Soil 453: 45-86.
[和] アグロフォレストリーの実践による水、土壌、養分損失及び農薬汚染の削減:証拠とプロセスの総括 doi:10.1007/s11104-019-04377-3
51. Guswa, A.J., Tetzlaff, D., Selker, J.S., Carlyle-Moses, D.E., Boyer, E.W., Bruen, M., Cayuela, C., Creed, I.F., van de Giesen, N., Grasso, D., Hannah, D.M., Hudson, J.E., Hudson, S.A., Iida, S., Jackson, R.B., Katul, G.G., Kumagai, T., Llorens, P., Lopes Ribeiro, F., Michalzik, B., Nanko, K., Oster, C., Pataki, D.E., Peters, C.A., Rinaldo, A., Sanchez-Carretero, D., Trifunovic, B., Zalewski, M., Haagsma, M., Levia, D.F. (2020) Advancing ecohydrology in the 21st century: a convergence of opportunities. Ecohydrology 13: e2208. [Review]
[和] 21世紀における生態水文学の深化:様々な知見と技術の融合 doi:10.1002/eco.2208
50. Dezhban, A., Attarod, P., Zahedi Amiri, G., Pypker, T.G., Nanko, K. (2020) The variability of stemflow generation in a natural beech stand (Fagus orientalis Lipsky) in relation to rainfall and tree traits. Ecohydrology 13: e2198.
[和] 雨と樹木形質に関連したコーカサスブナ天然林の樹幹流生成のばらつき doi:10.1002/eco.2198
48. Imamura, N., Levia, D.F., Nanko, K., Tanaka, N., Ohte, N. (2020) Geographic factors explain the variability of atmospheric deposition of sulfur and nitrogen onto coniferous forests within and beyond the Tokyo Metropolis. Water, Air, & Soil Pollution 231: 105.
[和] 東京圏内外の針葉樹林への硫黄と窒素の大気沈着の変動性を説明する地理的要因 doi:10.1007/s11270-020-4467-4
47. Nanko, K., Tanaka, N., Leuchner, M., Levia, D.F. (2020) Throughfall erosivity in relation to drop size and crown position: a case study from a teak plantation in Thailand. In: Levia, D.F., Carlyle-Moses, D.E., Iida, S., Michalzik, B., Nanko, K., Tischer, A. (Eds.) Forest-Water Interactions. Ecological Studies, No. 240, Springer Nature, Switzerland AG : 279-298.
[和] 雨滴粒径と樹冠位置による樹冠通過雨の侵食能:タイのチーク人工林での事例 doi:10.1007/978-3-030-26086-6_12
46. Lüpke, M., Leuchner, M., Levia, D.F., Nanko, K., Iida, S., Menzel, A. (2019) Characterization of differential throughfall drop size distributions beneath European beech and Norway spruce. Hydrological Processes 33: 3391-3406.
[和] ヨーロッパブナとドイツトウヒで異なる林内雨滴粒径分布の特徴 doi:10.1002/hyp.13565
45. Dezhban, A., Attarod, P., Zahedi Amiri, G., Pypker, T.G., Nanko, K. (2019) Spatial and temporal variability of throughfall under a natural Fagus orientalis stand in the Hyrcanian Forests, North of Iran. Journal of Agricultural Science and Technology 21: 1843-1858.
[和] カスピ海南東沿岸のコーカサスブナ天然林における樹冠通過雨の時空間ばらつき
●HTML
44. Dezhban, A., Attarod, P., Zahedi Amiri, G., Pypker, T.G., Nanko, K. (2019) Fog precipitation and rainfall interception in a pure natural oriental beech (Fagus orientalis L.) stand in the Hyrcanian Forests, North of Iran. Journal of Forest and Wood Products 72: 89-100. [ペルシア語。英語要旨あり]
[和] イラン北部のカスピ海南東沿岸のコーカサスブナ天然林における霧と降雨の遮断 doi:10.22059/jfwp.2019.267717.970
43. Levia, D.F.*, Nanko, K.*, Amasaki, H., Giambelluca, T.W., Hotta, N., Iida, S., Mudd, R.G., Nullet, M.A., Sakai, N., Shinohara, Y., Sun, X., Suzuki, M., Tanaka, N., Tantasirin, C., Yamada, K. (2019) Throughfall partitioning by trees. Hydrological Processes 33: 1698-1708.
* These authors contributed equally to this work; we make no distinction between the first and second authors.
[和] 樹木による樹冠通過雨の分離 doi:10.1002/hyp.13432 ●森林総研広報
42. Dezhban, A., Attarod, P., Zahedi Amiri, G., Pypker, T.G., Nanko, K. (2019) Seasonal variability of throughfall spatial pattern under a natural Fagus orientalis stand using geostatistical method. Iranian Journal of Forest 11: 13-28. [ペルシア語。英語要旨あり]
[和] 地球統計学手法を用いたコーカサスブナ天然林における樹冠通過雨空間分布の季節変化
●HTML
41. Nanko, K., Suzuki, S., Noguchi, H., Ishida, Y., Levia, D.F., Ogura, A., Hagino, H., Matsumoto, H., Takimoto, H., Sakamoto, T. (2019) Mechanical properties of Japanese black pine (Pinus thunbergii Parl.) planted on coastal sand dunes: resistance to uprooting and stem breakage by tsunamis. Wood Science and Technology 53: 469-489.
[和] 海岸砂丘に植栽されたクロマツの力学特性―津波に対する根返りと幹折れの抵抗 doi:10.1007/s00226-019-01075-z ●full-text view-only ●森林総研広報
40. Shinohara, Y., Misumi, Y., Kubota, T., Nanko, K. (2019) Characteristics of soil erosion in a moso-bamboo forest of western Japan: Comparison with a broadleaved forest and a coniferous forest. Catena 172: 451-460.
[和] 西日本のモウソウチク林における土壌侵食の特徴―広葉樹林と針葉樹林との比較 doi:10.1016/j.catena.2018.09.011
39. Boulange, J., Malhat, F., Jaikaew, P., Nanko, K., Watanabe, H. (2019) Portable rainfall simulator for plot-scale investigation of rainfall-runoff, and transport of sediment and pollutants. International Journal of Sediment Research 34: 38-47.
[和] プロットでの水・土砂・汚染物質の週出を調べるためのポータブル降雨装置の開発 doi:10.1016/j.ijsrc.2018.08.003
38. Shinohara, Y., Ichinose, K., Morimoto, M., Kubota, T., Nanko, K. (2018) Factors influencing the erosivity indices of raindrops in Japanese cypress plantations. Catena 171: 54-61.
[和] ヒノキ人工林の雨滴の侵食力に影響を与える要素 doi:10.1016/j.catena.2018.06.030 ●森林総研広報
37. Carlyle-Moses, D.E., Iida, S., Germer, S., Llorens, P., Michalzik, B., Nanko, K., Tischer, A., Levia, D.F. (2018) Expressing stemflow commensurate with its ecohydrological importance. Advances in Water Resources 121: 472-479. [Short communication]
[和] 樹幹流の生態水文学的な重要性を示すのにふさわしい表現 doi:10.1016/j.advwatres.2018.08.015
35. Iida, S., Levia, D.F., Nanko, K., Sun, X, Shimizu, T., Tamai, K., Shinohara, Y. (2018) Correction of canopy interception loss measurements in temperate forests: a comparison of necessary adjustments among three different rain gauges based on a dynamic calibration procedure. Journal of Hydrometeorology 19: 547-553.
[和] 温帯林の樹冠遮断量の補正: 3種類の雨量計での動的検定による補正の比較 doi:10.1175/JHM-D-17-0124.1
34. Imamura, N., Levia, D.F., Toriyama, J., Kobayashi, M., Nanko, K. (2017) Stemflow-induced spatial heterogeneity of radiocesium concentrations and stocks in the soil of a broadleaved deciduous forest. Science of the Total Environment 599–600: 1013–1021.
[和] 樹幹流によって生じる落葉広葉樹林の土壌中放射性セシウムの濃度と蓄積量のばらつき doi:10.1016/j.scitotenv.2017.05.017 ●森林総研広報
33. Nanko, K., Hashimoto, S., Miura, S., Ishizuka, S., Sakai, Y., Levia, D.F., Ugawa, S., Nishizono, T., Kitahara, F., Osone, Y., Kaneko, S. (2017) Assessment of soil group, site and climatic effects on soil organic carbon stocks of topsoil in Japanese forests. European Journal of Soil Science 68: 547–558.
[和] 日本の森林の表層土壌の炭素蓄積量に対する土壌群、立地、気候の影響評価 doi:10.1111/ejss.12444 ●森林総研広報
32. Levia, D.F., Hudson, S.A., Llorens, P., Nanko, K. (2017) Throughfall drop size distributions: a review and prospectus for future research. Wiley Interdisciplinary Reviews: Water 4: e1225. [Review]
[和] 林内の雨滴粒径分布―これまでの研究の総括と今後の研究展望 doi:10.1002/wat2.1225 ●森林総研広報 ●Advanced Science News
31. Hashimoto, S., Nanko, K., Ťupek, B., Lehtonen, A. (2017) Data-mining analysis of the global distribution of soil carbon in observational databases and Earth system models. Geoscientific Model Development 10: 1321–1337.
[和] 観測データと地球システムモデルを用いた、世界の土壌炭素分布のデータマイニング解析 doi:10.5194/gmd-10-1321-2017 ●森林総研広報
30. Tanaka, N., Levia, D.F., Igarashi, Y., Yoshifuji, N., Tanaka, K., Tantasirin, C., Nanko, K., Suzuki, M., Kumagai, T. (2017) What factors are most influential in governing stemflow production from plantation-grown teak trees? Journal of Hydrology 544: 10–20.
[和] チーク人工林の樹幹流生成を決める要因は何か? doi:10.1016/j.jhydrol.2016.11.010
29. Shinohara, Y., Otani, S., Kubota, T., Otsuki, K., Nanko, K. (2016) Effects of plant roots on the soil erosion rate under simulated rainfall with high kinetic energy. Hydrological Sciences Journal 61: 2435–2442.
[和] 大きな運動エネルギーを持つ人工降雨による土壌侵食への根の影響 doi:10.1080/02626667.2015.1112904
28. Weber, Y., Jolivet, V., Gilet, G., Nanko, K., Ghazanfarpour, D. (2016) A phenomenological model for throughfall rendering in real-time. Computer Graphics Forum 35: 13–23.
[和] リアルタイムな林内雨レンダリングのための現象論的モデル doi:10.1111/cgf.12945 ●森林総研広報
27. Nanko, K., Onda, Y., Kato, H., Gomi, T. (2016) Immediate change in throughfall spatial distribution and canopy water balance after heavy thinning in a dense mature Japanese cypress plantation. Ecohydrology 9: 300–314.
[和] 高密度の壮齢ヒノキ人工林への強度間伐による林内雨の空間分布と樹冠遮断の即時的な変化 doi:10.1002/eco.1636
26. Nanko, K., Moskalski, S.M., Torres, R. (2016) Rainfall erosivity–intensity relationships for normal rainfall events and a tropical cyclone on the US southeast coast. Journal of Hydrology 534: 440–450.
[和] アメリカ南西海岸域における通常降雨と熱帯低気圧の降雨侵食能と降雨強度の関係 doi:10.1016/j.jhydrol.2016.01.022
25. Nanko, K., Hudson, S.A., Levia, D.F. (2016) Differences in throughfall drop size distributions in the presence and absence of foliage. Hydrological Sciences Journal 61: 620–627.
[和] 葉の有無による樹冠通過雨の雨滴粒径分布の差異 doi:10.1080/02626667.2015.1052454 ●森林総研広報
24. Tanaka, N., Levia, D.F., Igarashi, Y., Nanko, K., Yoshifuji, N., Tanaka, K., Tantasirin, C., Suzuki, M., Kumagai, T. (2015) Throughfall under a teak plantation in Thailand: a multifactorial analysis on the effects of canopy phenology and meteorological conditions. International Journal of Biometeorology 59: 1145–1156.
[和] タイのチーク人工林の林内雨に対する樹冠フェノロジーと気象条件の影響の多要因解析 doi:10.1007/s00484-014-0926-1
23. Thai, P.K., Suka, Y., Sakai, M., Nanko, K., Yen, J.-H., Watanabe, H. (2015) Export of radioactive cesium from agricultural fields under simulated rainfall in Fukushima. Environmental Science: Processes & Impacts 17: 1157–1163.
[和] 福島県における模擬降雨による農地からの放射性セシウムの輸送 doi:10.1039/c5em00063g
22. Nanko, K., Giambelluca, T.W., Sutherland R.A., Mudd, R.G., Nullet, M.A., Ziegler, A.D. (2015) Erosion potential under Miconia calvescens stands on the Island of Hawai‘i. Land Degradation & Development 26: 218–226.
[和] ハワイ島への外来侵入植物であるオオバノボタンの林における土壌侵食ポテンシャル doi:10.1002/ldr.2200 ●森林総研広報 ●日本語解説
20. Nanko, K., Ugawa, S., Hashimoto, S., Imaya, A., Kobayashi, M., Sakai, H., Ishizuka, S., Miura, S., Tanaka, N., Takahashi, M., Kaneko, S. (2014) A pedotransfer function for estimating bulk density of forest soil in Japan affected by volcanic ash. Geoderma 213: 36–45.
[和] 火山灰が混入した日本の森林土壌の容積重を推定するための換算式 doi:10.1016/j.geoderma.2013.07.025 ●森林総研広報
19. Kato, H., Onda, Y., Nanko, K., Gomi, T., Yamanaka, T., Kawaguchi, S. (2013) Effect of canopy interception on spatial variability and isotopic composition of throughfall in Japanese cypress plantations. Journal of Hydrology 504: 1–11.
[和] ヒノキ人工林の林内雨における空間ばらつきと同位体組成に対する樹冠遮断の影響 doi:10.1016/j.jhydrol.2013.09.028
18. Hashimoto, S., Matsuura, T., Nanko, K., Linkov, I., Shaw, G., Kaneko, S. (2013) Predicted spatio-temporal dynamics of radiocesium deposited onto forests following the Fukushima nuclear accident. Scientific Reports 3: 2564.
[和] 福島原発事故後に森林に降下した放射性セシウムの時空間的変動の予測 doi:10.1038/srep02564 ●森林総研広報 ●主著者解説
16. Nanko, K., Watanabe, A., Hotta, N., Suzuki, M. (2013) Physical interpretation of the difference in drop size distributions of leaf drips among tree species. Agricultural and Forest Meteorology 169: 74–84.
[和] 葉からの滴下雨滴の粒径分布における樹種間差異についての物理的解釈 doi:10.1016/j.agrformet.2012.09.018
15. Ugawa, S., Takahashi, M., Morisada, K., Takeuchi, M., Matsuura, Y., Yoshinaga, S., Araki, M., Tanaka, N., Ikeda, S., Miura, S., Ishizuka, S., Kobayashi, M., Inagaki, M., Imaya, A., Nanko, K., Hashimoto, S., Aizawa, S., Hirai, K., Okamoto, T., Mizoguchi, T., Torii, A., Sakai, H., Ohnuki, Y., Kaneko, S. (2012) Carbon stocks of dead wood, litter, and soil in the forest sector of Japan: general description of the National Forest Soil Carbon Inventory. Bulletin of the Forestry and Forest Products Research Institute 11: 207–221.
[和] 日本の森林における枯死木、堆積有機物、土壌の炭素蓄積量―森林土壌インベントリの第1報
●pdf
13. Hashimoto, S., Ugawa, S., Nanko, K., Shichi, K. (2012) The total amounts of radioactively contaminated materials in forests in Fukushima, Japan. Scientific Reports 2: 416.
[和] 福島原発周辺の高濃度に放射能汚染された森林の物質量の推定 doi:10.1038/srep00416 ●森林総研広報 ●主著者解説
12. Nanko, K., Onda, Y., Ito, A., Moriwaki, H. (2011) Spatial variability of throughfall under a single tree: Experimental study of rainfall amount, raindrops, and kinetic energy. Agricultural and Forest Meteorology 151: 1173–1182.
[和] 単木下の樹冠通過雨の雨量、雨滴、運動エネルギーの空間ばらつきについての実験的研究 doi:10.1016/j.agrformet.2011.04.006
10. Wakiyama, Y., Onda, Y., Nanko, K., Mizugaki, S., Kim, Y., Kitahara, H., Ono, H. (2010) Estimation of temporal variation in splash detachment in two Japanese cypress plantations of contrasting age. Earth Surface Processes and Landforms 35: 993–1005.
[和] 2つの対照的な林齢のヒノキ人工林における雨滴侵食の時間変化の評価 doi:10.1002/esp.1844
8. Mizugaki, S., Nanko, K., Onda, Y. (2010) The effect of slope angle on splash detachment in an unmanaged Japanese cypress plantation forest. Hydrological Processes 24: 576–587.
[和] 未管理ヒノキ人工林の雨滴侵食に対する傾斜の影響 doi:10.1002/hyp.7552
7. Nanko, K., Onda, Y., Ito, A., Ito, S., Mizugaki, S., Moriwaki, H. (2010) Variability of surface runoff generation and infiltration rate under a tree canopy: indoor rainfall experiment using Japanese cypress (Chamaecyparis obtusa). Hydrological Processes 24: 567–575.
[和] ヒノキ単木を用いた室内降雨実験による単木樹冠下の表面流発生と浸透能のばらつき doi:10.1002/hyp.7551
4. Nanko, K., Onda, Y., Ito A., Moriwaki, H. (2008) Effect of canopy thickness and canopy saturation on the amount and kinetic energy of throughfall: An experimental approach. Geophysical Research Letters 35: L05401. [Letter]
[和] 林内雨の雨量と運動エネルギーに対する樹冠長と樹冠飽和状態の影響についての実験的検討 doi:10.1029/2007GL033010
3. Nanko, K., Mizugaki, S., Onda, Y. (2008) Estimation of soil splash detachment rates on the forest floor of an unmanaged Japanese cypress plantation based on field measurements of throughfall drop sizes and velocities. Catena 72: 348–361.
[和] 林内雨滴の粒径と速度の現地観測に基づく未管理ヒノキ人工林の雨滴侵食量の評価 doi:10.1016/j.catena.2007.07.002
2. Nanko, K., Hotta, N., Suzuki, M. (2006) Evaluating the influence of canopy species and meteorological factors on throughfall drop size distribution. Journal of Hydrology 329: 422–431.
[和] 林内雨の雨滴粒径分布に対する樹種と気象要素の影響評価 doi:10.1016/j.jhydrol.2006.02.036
1. Nanko, K., Hotta, N., Suzuki, M. (2004) Assessing raindrop impact energy at the forest floor in a mature Japanese cypress plantation using continuous raindrop-sizing instruments. Journal of Forest Research 9: 157–164.
[和] 雨滴粒径の連続測定装置を用いた壮齢ヒノキ人工林の雨滴衝撃エネルギーの評価 doi:10.1007/s10310-003-0067-6
6. Nanko, K., Levia, D.F., Seitz, S (2020) Sustaining the soil: management strategies of forest-water interactions to protect forest soils. 6th IAHR Europe Congress, 770-771.
●website
5. Nanko, K., Suzuki, S., Noguchi, H., Hagino, H., Ogura, A., Ishida, Y., Matsumoto, H., Takimoto, H., Sakamoto, T. (2015) Simulation of tree deformation of Japanese black pine caused by temporally varied wind. The 8th Plant Biomechanics International Conference, 240.
●website
4. Kaneko, S., Ugawa, S., Miura, S., Nanko, K., Takahashi, M. (2012) Monitoring of organic carbon stocks in Japanese forest soil. MARCO Symposium 2012, Strengthening Collaboration to meet Agro-Environmental Challenges in Monsoon Asia, Tsukuba, Japan, 154-158.
●website
2. Giambelluca, T.W., Sutherland, R.A., Nanko, K., Mudd, R., Ziegler, A.D. (2010) Effects of Miconia on hydrology: A first approximation. In Loope, L.L., J.-Y. Meyer, B.D. Hardesty and C.W. Smith (eds.), Proceedings of the International Miconia Conference, Keanae, Maui, Hawai‘i, May 4-7, 2009, Maui Invasive Species Committee and Pacific Cooperative Studies Unit, University of Hawai‘i at Manoa.
●pdf
1. Nanko, K., Hotta, N., Suzuki, M. (2004) The influence of forest species and atmospheric phenomena on the throughfall rainfall size distribution. In R.C. Sidle, Tani M, Abdul Rahim N and Tewodros Ayele T (eds.) Forests and Water in Warm, Humid Asia, Proc. IUFRO Forest Hydrology Workshop, Kota Kinabalu, Malaysia, 81-83.
15. 南光一樹・飯田真一・Delphis F. Levia・堀田紀文・田中延亮・鈴木雅一・篠原慶則・尼崎博正・山田耕三・酒井直樹・Thomas W. Giambelluca・Ryan G. Mudd・Michael A. Nullet・Xinchao Sun・Chatchai Tantasirin (2020) 樹冠の状態によって変わる森林の中で雨の降り方をレーザーセンサで解明.森林総合研究所令和2年版研究成果選集: 6-7. 成果選集全体個別記事
3. Nanko, K. (2025). Datasets of "Machine Learning Reveals the Contrasting Roles of Rainfall and Canopy Metrics on the Formation of Canopy Drip and Splash Throughfall" [Data set]. Zenodo. doi:10.5281/zenodo.14717459
2. Kamimura, K., Nanko, K., Matsumoto, A., Ueno, S., Gardiner, J., Gardiner, B. (2022) Tree movements, wind loading, and wind speeds. Dryad. doi:10.5061/dryad.r4xgxd2dj
1. Yamashita, N., Ishizuka, S., Hashimoto, S., Ugawa, S., Nanko, K., Osone, Y., Iwahashi, J., Sakai, Y., Inatomi, M., Kawanishi, A., Morisada, K., Tanaka, N., Aizawa, S., Imaya, A., Takahashi, M., Kaneko, S., Miura, S., Hirai, K. (2021) Predictive maps of soil organic carbon, bulk density, and rock fraction in Japanese forest. Zenodo. doi:10.5281/zenodo.4291343