研究情報

関連研究成果
  1. Uchiyama K, Fujii S, Tsuyama I, Tanaka N, Suzuki S, Kimura M K, Suyama Y, Tsumura Y (2023) Range shift and introgression of three Japanese Abies species: insights from population genetic data and species distribution modeling. Tree Genetics & Genomes, 19:41. https://doi.org/10.1007/s11295-023-01617-7
  2. Chiu, C.-A.; Matsui, T.; Tanaka, N.; Lin, C.-T. (2021) Exploring the Potential Distribution of Relic Trochodendron aralioides: An Approach Using Open-Access Resources and Free Software. Forests 12, 1749. https://doi.org/10.3390/f12121749
  3. Matsui T, Nakao K, Higa M, Tsuyama I, Kominami Y, Yagihashi T, Koide D, Tanaka N (2018) Potential impact of climate change on canopy tree species composition of cool-temperate forests in Japan using a multivariate classification tree model. Ecological Research 33: 289–302. https://doi.org/10.1007/s11284-018-1576-2
  4. 松井哲哉・田中信行・津山幾太郎 (2018) 日本の寒帯・亜寒帯性針葉樹の分布と気候変動影響. 生物の科学 遺伝 72: 70-78. ISBN 978-4-86043-920-0
  5. Koide, D., Higa, M., Nakao, K., Ohashi, H., Tsuyama, I., Matsui, T., Tanaka, N. (2016) Projecting spatiotemporal changes in suitable climate conditions to regenerate trees using niche differences between adult and juvenile trees. European Journal of Forest Research, 135: 125-136. https://doi.org/10.1007/s10342-015-0921-z
  6. 田中信行・井関智裕・北村系子・斎藤均・津山幾太郎・中尾勝洋・松井哲哉 (2016) 北海道におけるブナの潜在生育域と分布北限個体群の実態. 森林立地 58(1): 9-15. https://doi.org/10.18922/jjfe.58.1_9
  7. Tsuyama, I., Higa, M., Nakao, K., Matsui, M., Horikawa, M. and Tanaka, N. (2015) How will subalpine conifer distributions be affected by climate change? Impact assessment for spatial conservation planning. Regional Environmental Change, 15: 393-404. https://doi.org/10.1007/s10113-014-0641-9
  8. 津山幾太郎・中尾勝洋・松井哲哉・田中信行. (2015) 気候変動と針葉樹の分布. 北海道の林木育種 58(1): 7-12. ISSN 0387-4184
  9. Nakao K., Higa M., Tsuyama I., Lin C.-T., Sun S.-T., Lin J.-R., Chiou C.-R., Chen T.-Y., Matsui T. & Tanaka N. (2014) Changes in the potential habitats of 10 dominant evergreen broad-leaved tree species in the Taiwan-Japan archipelago. Plant Ecology, 215: 639–650. https://doi.org/10.1007/s11258-014-0329-8
  10. Tsuyama, I., K. Nakao, M. Higa, T. Matsui, K. Shichi and N. Tanaka (2014) What controls the distribution of the Japanese endemic hemlock, Tsuga diversifolia, Footprint of climate in the glacial period on current habitat occupancy. Journal of Forest Research, 19: 154-165. https://doi.org/10.1007/s10310-013-0399-9
  11. Yun, J.H., Nakao, K., Tsuyama, I., Higa, M., Matsui, T., Park, C.H., Lee, B.Y. and Tanaka, N. (2014) Does future climate change facilitate expansion of evergreen broad-leaved tree species in the human-disturbed landscape of the Korean Peninsula? Implication for monitoring design of the impact assessment. Journal of Forest Research, 19: 174-183. https://doi.org/10.1007/s10310-013-0401-6
  12. Higa, M., Nakao, K., Tsuyama, I., Nakazono, E., Yasuda, M., Matsui, T. and Tanaka, N. (2013) Indicator plant species selection for monitoring the impact of climate change based on prediction uncertainty, Ecological Indicators 29: 307-315. https://doi.org/10.1016/j.ecolind.2013.01.010
  13. Nakao, K., Higa, M., Tsuyama, I., Matsui, T. and Tanaka, N. (2013) Spatial conservation planning under climate change: using species distribution modeling to assess priority for adaptive management of Fagus crenata in Japan. Journal for Nature Conservation 21, 406-413. https://doi.org/10.1016/j.jnc.2013.06.003
  14. Worth, J.R.P., Sakaguchi, S., Tanaka, N., Yamasaki, M. and Isagi, Y. (2013) Northern richness and southern poverty: contrasting genetic footprints of glacial refugia in the relictual tree Sciadopitys verticillata (Coniferales: Sciadopityaceae). Biological Journal of the Linnean Society 108(2): 263–277. https://doi.org/10.1111/j.1095-8312.2012.02017.x
  15. Qi, X.-S., Chen, C., Comes, H. P., Sakaguchi, S., Liu, Y.-H., Tanaka, N., Sakio, H., and Qiu, Y.-X. (2012) Molecular data and ecological niche modelling reveal a highly dynamic evolutionary history of the East Asian Tertiary relict Cercidiphyllum (Cercidiphyllaceae), New Phytologist 196: 617-630. https://doi.org/10.1111/j.1469-8137.2012.04242.x
  16. Tanaka, N. (2012) Phytosociological Relevé Database of Japan (PRDB). In: Dengler, J. et al., Vegetation databases for the 21st century. Biodiversity & Ecology 4: 308. DOI: 10.7809/b-e.00104
  17. Tanaka, N., Nakao, K., Tsuyama, I., Higa, M., Nakazono, E. and Matsui, T. (2012) Predicting the impact of climate change on potential habitats of fir (Abies) species in Japan and on the East Asian continent. Procedia Environmental Sciences, 13, 455-466. https://doi.org/10.1016/j.proenv.2012.01.039
  18. Tsuyama, I., M., Horikawa, Nakao, K., Matsui, T., Kominami, Y. and Tanaka, N. (2012) Factors determining the distribution of a keystone understory taxon, dwarf bamboo of the section Crassinodi, on a national scale: application to impact assessment of climate change in Japan. Journal of Forest Research, 17: 137-148. https://doi.org/10.1007/s10310-011-0283-4
  19. 田中信行・松井哲哉・津山幾太郎・小南裕志 (2012) 植物分布を規定する気候要因の特定および気候変化に伴う生育地の移動予測. 天気 59(8): 681-686. ISSN 0546-0921
  20. Nakao, K. Matsui, T. Horikawa, M., Tsuyama, I. and Tanaka, N. (2011) Assessing the impact of land use and climate change on the evergreen broad-leaved species of Quercus acuta in Japan. Plant Ecology 212: 229-243. https://doi.org/10.1007/s11258-010-9817-7
  21. Tsuyama, I., Nakao, K., Matsui, T., Higa, M., Horikawa, M., Kominami, Y. and Tanaka, N. (2011) Climatic controls of a keystone understory species, Sasamorpha borealis, and an impact assessment of climate change in Japan. Annals of Forest Science, 68: 689-699. https://doi.org/10.1007/s13595-011-0086-y
  22. 田中信行 (2010) 地球温暖化と森林生態系(第7章). 中村徹 編著, 森林学への招待, 筑波大学出版会, pp.87-102.
  23. Horikawa, M., Tsuyama, I., Matsui, T., Kominami, Y. and Tanaka, N. (2009) Assessing the potential impacts of climate change on the alpine habitat suitability of Japanese stone pine (Pinus pumila). Landscape Ecology 24: 115-128. https://doi.org/10.1007/s10980-008-9289-5
  24. 中尾勝洋・松井哲哉・田中信行・福嶋司 (2009) 曰本における常緑カシ類2種の個体および優占林の分布を規定する気候条件. 森林立地 51(1): 27-37. https://doi.org/10.18922/jjfe.51.1_27
  25. 田中信行 (2009) 温暖化で危惧される自然林への影響. 季刊森林総研 第7号, p. 5-7. https://www.ffpri.go.jp/pubs/kikan/documents/kikanffpri-7.pdf
  26. 田中信行・中園悦子・津山幾太郎・松井哲哉 (2009) 温暖化の日本産針葉樹10種の潜在生育域への影響予測. 地球環境14(2):153-164. https://www.airies.or.jp/attach.php/6a6f75726e616c5f31342d326a706e/save/0/0/14_2-05.pdf
  27. 温暖化影響総合予測プロジェクト(2008)温暖化影響総合予測プロジェクト報告書「地球温暖化,日本への影響-最新の科学的知見-」 http://www.cger.nies.go.jp/climate/rrpj-impact-s4report/20080815report.pdf
  28. 津山幾太郎・松井哲哉・小川みふゆ・小南祐志・田中信行 (2008) 本州東部におけるチシマザサの潜在分布域の予測と気候変化の影響評価. GIS-理論と応用 16(1): 11-25. https://doi.org/10.5638/thagis.16.11
  29. 津山幾太郎・松井哲哉・堀川真弘・小南裕志・田中信行 (2008) 日本におけるチマキザサ節の潜在分布域の予測と気候変化の影響評価. GIS-理論と応用, 16(2): 11-25. https://doi.org/10.5638/thagis.16.99
  30. Matsui, T., Shimada, K., Yagihashi, T., Nakaya, T., Taoda, H., and Tanaka, N. (2005) Assessing potential distribution of beech (Fagus crenata) in central Japan. Journal of Agricultural Meteorology 60: 439-444. https://doi.org/10.2480/agrmet.439
  31. Tanaka, N., Matsui, T., Shimada, K., Yagihashi, T., and Taoda, H. (2005) Constructing Vegetation Databases Useful for Assessing Impact of Climate Changes in Japan. Journal of Agricultural Meteorology 60: 433-438. https://doi.org/10.2480/agrmet.433
  32. 田中信行 (2003) 植生データベースを用いた地球温暖化の影響予測研究. 植生情報 7: 9-13. https://shokusei.jp/contents/veginfo.html
  33. 九島宏道・田中信行 (2000) 関東周辺のブナ林における植物レッドリスト種の出現状況. 日林関東支論 51: 103-106 .
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