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総合学術博物館 教授:高嶋 礼詩

総合学術博物館 教授:高嶋 礼詩

総合学術博物館 教授:高嶋 礼詩

専門分野

地質学・層序学

研究テーマ

  •  白亜紀テフロクロノロジー
  •  白亜系-古第三系国際年代対比
  •  日本,フランス,北米西岸における白亜紀海洋無酸素事変の研究
  •  白亜紀の古環境変動とテクトニクス

論文

最近の主要論文

    Impact Factor付国際学術雑誌

  1. Takashima, R., Hoshi, H., Wada, Y., Shinjoe, H., 2021. Identification of the source caldera for the Middle Miocene ash-flow tuffs in the Kii Peninsula based on apatite trace-element composition. Island Arc, in press.
  2. Maekawa, T., Komatsu, T., Shigeta, Y., Takashima, R., Yamaguchi, T., 2021. Carbon isotope chemostratigraphy and conodont biostratigraphy around the Smithian-Spathian boundary in the Panthalassan carbonate succession (SW Japan). Journal of Asian Earth Sciences, v. 295, https://doi.org/10.1016/j.jseaes.2020.104570.
  3. Takashima, R., Kusakawa, H., Kuwabara, S., Orihashi, Y., Nishi, H., Niwano, M., Yoshida, T., in press. Identification of the source caldera for a Pliocene ash-flow tuff in Northeast Japan based on apatite trace-element compositions and zircon U–Pb ages. Journal of Volcanology and Geothermal Research. https://doi.org/10.1016/j.jvolgeores.2020.106948
  4. Arimoto, J., Nishi, H., Kuroyanagi, A., Takashima, R., Matsui, H., Ikehara, M., 2020. Changes in upper ocean hydrography and productivity across the Middle Eocene Climatic Optimum: Local insights and global implications from the Northwest Altantic. Global Planetary Changes. https://doi.org/10.1016/j.gloplacha.2020.103258
  5. Shizuya, A., Oba, M., Ando, T., Ogata, Y., Takashima, R., Nishi, H., Komatsu, T., Nguyen, P. D., 2020. Variations in trace elements, isotopes, and organic geochemistry during the Hangenberg Crisis, Devonian-Carboniferous transition, northeastern Vietnam. The Island Arc, 2020; 29: e12337, DOI: 10.1111/iar.12337.
  6. Takashima, R., Nishi, H., Yamanaka, T., Orihashi, Y., Tsujino, Y., Quidelleur, X., Hayashi, K., Sawada, K., Nakamura, H., Ando, T., 2019. Establishment of Upper Cretaceous bio- and carbon isotope stratigraphy in the northwest Pacific Ocean and radiometric ages around the Albian/Cenomanian, Coniacian/Santonian and Santonian/Campanian boundaries. Newsletters on Stratigraphy, DOI: 10.1127/nos/2019/0472.
  7. Kuwabara, S., Takashima, R. (corresponding author), Orihashi, Y., Nishi, H., Satoh, T., Hayashi, K., 2019. Preliminary tephrochronological study of the Yezo Group (uppermost Albian-basal Campanian) in north Japan. Cretaceous Research, v.109, https://doi.org/10.1016/j.cretres.2019.06.004.
  8. Koyasu, H., Nishi, H., Takashima, R., Suzuki, N., 2019. Cretaceous radiolarian biostratigraphy in the Yezo Group, Hokkaido, Northeast Japan. Newsletters on Stratigraphy, DOI: 10.1127/nos/2018/0357.
  9. Kuroyanagi, A., Toyofuku, T., Nagai, Y., Kimoto, K., Nishi, H., Takashima, R., Kawahata, H., 2019. Effect of Euxinic conditions on planktic foraminifers: culture experiments and implications for past and future environments. Paleoceanography and Paleoclimatology, DOI: 10.1029/2018PA003539.
  10. Komatsu, T., Urakawa, R., Inada, T., Yamauchi, K., Maekawa, T., Takashima, R., Williams, M., Nguyen, P. D., Doan, H. U., Nguyen, M. T., Niko, S., Tanaka, G., Yamaguchi, T., 2018. The Kellwasser events in the Upper Devonian Frasnian to Famennian transition in the Toc Tat Formation, northern Vietnam. The Island Arc, 2019; 28:e12281. https://doi.org/10. 1111/iar.12281.
  11. Arimoto, J., Takashima, R., Nishi, H., Yamanaka, T., Orihashi, Y., Jo, S., Yamamoto, K., Umetsu, K., 2018. Constraining the depositional age of an Upper Cretaceous non-marine and shallow marine siliciclastic succession, Kuji Group, northeastern Japan, based on carbon isotope stratigraphy and U-Pb radiometric dating. Cretaceous Research, v. 92, 254-278.
  12. Takashima, R., Kuwabara, S., Sato, T., Takemura, K., Nishi, H., 2017. Utility of trace elements in apatite for discrimination and correlation of Quaternary ignimbrites and co-ignimbrite ashes, Japan. Quaternary Geochronology, v. 41, 151-162.
  13. Uchimura H., Nishi H., Takashima R., Kuroyanagi A., Yamamoto Y., Kutterolf Steffen.,2017.Distribution of Recent benthic foraminifera off western Costa Rica in the eastern equatorial Pacific Ocean. Paleontological Research, v. 21, 380-396
  14. Gyawali B. R., Nishi H., Takashima R., Herrle J. O., Takayanagi H., Latil J-L., Iryu Y., 2017. Upper Albian–upper Turonian calcareous nannofossil biostratigraphy and chemostratigraphy in the Vocontian Basin, southeastern France. Newsletters on Stratigraphy, v. 50, 111-139.
  15. Matsui H., Nishi H., Kuroyanagi A., Hayashi H., Ikehara M., Takashima R., 2017. Vertical thermal gradient history in the eastern equatorial Pacific during the early to middle Miocene: implications for the equatorial thermocline development. Paleoceanography, v. 32, 729-743.
  16. Ando, T., Sawada, K., Okano, K., Takashima, R., Nishi, H., 2017. Marine primary producer community during the mid-Cretaceous oceanic anoxic events (OAEs) 1a, 1b and 1d in the Vocontian Basin (SE France) evaluated from triaromatic steroids in sediments. Organic Geochemisty, vol. 106, 13-24. DOI: 10.1016/j.orggeochem.2017.02.002.
  17. Ando, T., Sawada, K., Nakamura, H., Omatsu, K., Takashima, R., Nishi, H., 2017. Depositional environments and maturity evaluated by biomarker analyses of sediments deposited across the Cenomanian-Turonian boundary in the Yezo Group, Tomamae area, Hokkaido, Japan. The Island Arc, v. 26, e12178. DOI: 10.1111/iar.12178.
  18. Komatsu, T., Takashima, R., Shigeta, Y., Maekawa, T., Tran H. D., Cong, T.F., Sakata, S., Dinhm H. D., Takahashi, O., 2016. Carbon isotopic excursions and detailed ammonoid and conodont biostratigraphies around Smithian-Spathian boundary in the Bac Thuy Formation, Vietnam. Palaeogeography, Palaeoclimatology, Palaeoecology, v. 454, 65-74.
  19. Du Vivier, A. D. C., Selby, D., Condon, D. J., Takashima, R., Nishi, H., 2015. Pacific 187Os/188Os isotope and U-Pb geochronology: Synchroneity of global Os isotope change across OAE 2. Earth and Planetary Science Letters, v. 428, 204-216. DOI: 10.1016/j.epsl.2015.07.020.
  20. Matsui, H., Nishi, H., Takashima, R., Kuroyanagi, A., Ikehara, M., Takayanagi, H., Iryu, Y., 2016. Changes in the depth habitat of the Oligocene pkanktic foraminifera (Dentoglobigerina venezuelana) induced by thermocline deepening in the eastern equatorial Pacific. Paleoceanography, v. 31, p. 715-731.
  21. Matsuzaki, K. M., Suzuki, N., Nishi, H., Hayashi, H., Gyawali, B. R., Takashima, R., Ikehara, M., 2015. Early to Middle Pleistocene paleoceanographic history of shothern Japan based on radiolarian data from IODP Exp. 314/315 Sites C0001 and C0002. Marine Micropaleontology, v. 118, 17-33. DOI: 10.1016/j.marmicro.2015.05.001.
  22. Zagorsek, K., Takashima, R., Hirose, M., 2015. Palaeoenvironment of a monospecific association of a new bryozoan species, Schizoretepora tamagawaensis sp. N. (Phiidoloporidae, Briozoa), from the Miocene Tanosawa Formation, Northern Japan. Neues Jahrbuch Geologie Paläontologie Abhandlungen, v. 275, p. 115-123. DOI: 10.1127/njgpa/2015/0456.
  23. Matsuzaki, K. M., Nishi, H., Hayashi, H., Suzuki, N., Gyawali, B. R., Ikehara, M., Tanaka, T., Takashima, R., 2014. Radiolarian biostratigraphic scheme and stable oxygen isotope stratigraphy in southern Japan (IODP Expedition 315 Site C0001). Newsletters on Stratigraphy, vol. 47/1, p. 107–130.
  24. Matsuzaki, K. M., Suzuki, N., Nishi, H., Takashima, R., Kawate, Y., Sakai, T. 2014. Middle to Late Pleistocene radiolarian biostratigraphy in the water-mixed region of the Kuroshio and Oyashio currents, northeastern margin of Japan (JAMSTEC Hole 902-C9001C). Journal of Micropaleontology, v. 33, 205-222. DOI: 10.1144/jmpaleo2013-012.
  25. Matsuzaki, K. M., Nishi, H., Suzuki, N., Cortese, G., Eynaud, F., Takashima, R., Kawate, Y., Sakai, T. 2014. Paleoceanographic history of the Northwest Pacific Ocean over the past 740 kyr, discerned from radiolarian fauna. Palaeogeography, Palaeoclimatology, Palaeoecology, v. 396: 26-40. doi: 10.1016/j.palaeo.2013.12.036.
  26. Matsuzaki, K. M., Nishi, H., Suzuki, N., Kawate, Y., Takashima, R., Sakai, T., 2014a. Cycladophora davisiana abundances as a paleoceanographic and stratigraphic tool in high latitude siliciceous sediments. Marine Micropaleontology, v. 106:1-9. doi: 10.1016/j.marmicro.2013.11.002.
  27. Komatsu, T., Kato, S., Hirata, K., Takashima, R., Ogata, Y., Oba, M., Naruse, H., Ta, O., Ngyuen, P. D., Dang, H. T., Nguyen, H. H., Sakata, S., Kaiho, K., Koenigshof, P., 2014. Devonian-Carboniferous transition containing a Hangenberg Black Shale environment in the Pho Han Formation on Cat Ba Island, northeastern Vietnam. Palaeogeography, Palaeoclimatology, Palaeoecology. DOI: 10.1016/j.palaeo.2014.03.021.
  28. Komatsu, T., Naruse, H., Shigeta, Y., Takashima, R., Maekawa, T., Dang, H. T., Dinh, T. C., Nguyen, P. D., Nguyen, H. H., Tanaka, G., Sone, M., 2014. Lower Triassic mixed carbonate and siliciclastic setting with Smithian-Spatian anoxic to dysoxic facies, An Chau basin, northeastern Vietnam. Sedimentary Geology, v. 300, 28-48.
  29. Dick, M. H., Komatsu, T., Takashima, R., Ostrovsky, A. N.,2014. A mid-Cretaceous (Albian–Cenomanian) shell-rubble bryozoan fauna from the Goshoura Group, Kyushu, Japan. Journal of Systematic Palaeontology. V. 12, p. 401-425. DOI:10.1080/14772019.2013.765926.
  30. Quidelleur, X., Paquette,J. L., Fiet, N., Takashima, R., Tiepolo, M., Desmares, D., Nishi, H., Grosheny, D. 2011. New U-Pb (ID-TIMS and LA-ICPMS) and 40Ar/39Ar geochronological constraints of the Cretaceous geologic time scale calibration from Hokkaido (Japan). Chemical Geology, 286 72-83.
  31. Takashima, R., Nishi, H., Yamanaka, T., Tomosugi, T., Fernando, A. G., Tanabe, K., Moriya, K., Kawabe, F., Hayashi, K., 2011. Prevailing oxic environments in the Pacific Ocean during the mid-Cretaceous Oceanic Anoxic Event 2. Nature Communications: 2-234 doi: 10.1038/ncomms1233 (2011).
  32. Takashima, R., Nishi, H., Yamanaka, T., Hayashi, K., Waseda, A., Obuse, A., Tomosugi, T., Deguchi, N., Mochizuki, S., 2010. High-resolution terrestrial carbon isotope and planktic foraminiferal records of the Upper Cenomanian to the Lower Campanian in the Northwest Pacific. Earth and Planetary Science Letters, vol. 289. 570-582.
  33. Fernando, A. G., Takashima, R., Nishi, H., Giraud, F., Okada, H., 2010. Calcareous nannofossil biostratigraphy of the Thomel Level (OAE 2) in the Lambruisse section, Vocontian Basin, southeast France. Geobios, v. 43, 45-57.
  34. Takashima, R., Nishi, H., Hayashi, K., Okada, H., Kawahata, H., Yamanaka, T., Fernando, A. G., Mampuku, M., 2009. Litho-, bio- and chemostratigraphy across the Cenomanian/Turonian boundary (OAE2) in the Vocontian Basin of southeastern France. Palaeogeography, Palaeoclimatology, Palaeoecology, v. 273, p. 61-74.
  35. Okano, K., Sawada, K., Takashma, R., Nishi, H., Okada, H., 2008. Further examples of archael-derived hydrocarbons in mid-Cretaceous Oceanic Anoxic Event (OAE) 1b sediments. Organic Geochemistry, v. 39. p. 1088-1091.
  36. Yamamura, M., Kawahata, H., Matsumoto, K., Takashima, R., Nishi, H., 2007, Paleoceanography of the northwestern Pacific during the Albian. Palaeogeography, Palaeoclimatology, Palaeoecology, v. 254, p. 477-491.
  37. Takashima, R., Sano, S., Iba, Y., Nishi, H., 2007. The first Pacific record of the Late Aptian warming. Journal of the Geological Society, London, v. 164, p. 333-339.
  38. Ostrovsky, A. N., Takashima, R., Dick, M. H., Grischenko, A. V., Nishi, H., Mawatari, S. F., 2006, First finding of a Cretaceous cheilostome bryozoan from Hokkaido, Japan. Cretaceous Research, vol. 27, p. 859-862.
  39. Takashima, R., Nishi, H., Yoshida, T., 2006, Late Jurassic-Early Cretaceous intra-arc sedimentation and volcanism linked to plate motion change in northern Japan. Geological Magazine, v. 143, p. 753-770.
  40. Takashima, R., Nishi, H., Huber, B. T., Leckie, M. R., 2006. Greenhouse World and the Mesozoic Ocean. Oceanography, v. 19, 82-92.
  41. Takashima, R., Kawabe, F., Nishi, H., Moriya, K., Wani, R. and Ando, H., 2004, Geology and stratigraphy of forearc basin sediments in Hokkaido, Japan: Cretaceous environmental events on the Northwest Pacific margin. Cretaceous Research, v. 25, p. 365-390.
  42. Kawabe, F., Takashima, R., Wani, R., Moriya, K. and Nishi, H., 2003, Biostratigraphy of the Upper Albian to Lower Cenomanian in Oyubari, Hokkaido, Japan: implications for the Cretaceous biochronology in the North Pacific. Acta Geologica Polonica, v. 53, p. 81-91.
  43. Nishi, H., Takashima, R., Hatsugai, T., Saito, T., Moriya, K., Ennyu, A. and Sakai, T., 2003. Planktonic foraminiferal zonation in the Cretaceous Yezo Group, Central Hokkaido, Japan. Journal of Asian Earth Sciences, v. 21, p. 867-886.
  44. Ando, A., Kakegawa, T., Takashima, R., Saito, T., 2003. Stratigraphic carbon isotope fluctuations of detrital woody materials during the Aptian Stage in Hokkaido, Japan: Comprehensive δ13C data from four sections of the Ashibetsu area. Journal of Asian Earth Sciences, v. 21, p. 835-847.
  45. Takashima, R., Hiroshi, N., Yoshida, T., 2002. Geology, petrology and tectonic setting of the Late Jurassic ophiolite in Hokkaido, Japan. Journal of Asian Earth Sciences, v. 21, p. 197-215.
  46. Ando, A., Kakegawa, T., Takashima, R., Saito, T., 2002. A new perspective on Aptian carbon isotope stratigraphy: Constraints from δ13C records of terrestrial organic matter. Geology, v. 30, p. 227-230.

    47. Impact Factor無の査読付き国際学術論文

  47. Itoh, Y., Green, P. F., Takashima, R., Takemura, K., 2017. Fission Track Analysis and Trace-Element Compositions of Apatite for Thermo- and Tephrochronology of a Cretaceous Event Sedimentary Sequence on the East Asian Convergent Margin. Horizons in Earth Science Research. 17, p.197-224.
  48. Itoh, Y., Takano, O., Takashima, R., 2017. Tectonic synthesis: a plate reconstruction model of the NW Pacific region since 100 Ma. In Y. Itoh (Ed.), Dynamics of Arc Migration and Amalgamation - Architectural Examples from the NW Pacific Margin. Rijeka: InTech. http://dx.doi.org/10.5772/67358.
  49. Itoh, Y., Takashima, R., 2017. Cretaceous research: paleolatitudes and northward migration of crustal fragments in the NW Pacific inferred from paleomagnetic studies. In Y. Itoh (Ed.), Dynamics of Arc Migration and Amalgamation - Architectural Examples from the NW Pacific Margin. Rijeka: InTech. http://dx.doi.org/10.5772/67359
  50. Takashima, R., Nishi, H., Yoshida, T., 2017, Stratigraphic and Petrological Insights into the Late Jurassic–Early Cretaceous Tectonic Framework of the Northwest Pacific Margin. In Itoh, Y., Takano, O., Takashima, R., Nishi, H., Yoshida, T. (Eds.), Dynamics of Arc Migration and Amalgamation-Architectural Examples from the NW Pacific Margin. InTech, http://dx.doi.org/10.5772/64579.
  51. Komatsu, T., Takashima, R., Naruse, H., Ta, H. P., Dang, T. H., Nguyen, D. P., Dinh, C. T., Ho, T. C., Tran T. V., Kato, S., Maekawa, T., Gatovsky, Y., 2012. Devonian-Carboniferous transition in the Pho Han Formation on Cat Ba Island, northeastern Vietnam. The Journal of the Geological Society of Japan, 118, 5-6.
  52. Takashima, R., Dick, M. H., Nishi, H., Mawatari, S. F., Nojo, A., Hirose, M., Gautam, P., Nakamura, K., Tanaka, T., 2008. Geology and sedimentary environments of the Pleistocene Setana Formation in the Kuromatsunai District, Southwestern Hokkaido, Japan. In H. Okada, S. F. Mawatari, N. Suzuki and P. Gautam (eds.), Origin and Evolution of Natural Diversity, Proc. Int. Symp. “The Origin and Evolution of Natural Diversity”, 1-5 October 2007, Sapporro, pp. 75-82.
  53. Gautam, P., Takashima, R., Dick, M.H., Kanamatsu, T., Rijal, M.L., Nishi H. and Mawatari, S.F., 2008. Rockmagnetic characterization of the Setana and Chiraigawa Formations in SW Hokkaido (Soebetsu River, Kuromatsunai). In H. Okada, S. F. Mawatari, N. Suzuki and P. Gautam (eds.), Origin and Evolution of Natural Diversity, Proc. Int. Symp. “The Origin and Evolution of Natural Diversity”, 1-5 October 2007, Sapporro, pp. 101-107.
  54. Ishimura T., Dick, M.H., Takashima, R., Hirose, M., Gautam, P., Nishi, H. and Tsunogai, U., 2008. Experimental study of the use of the stable isotopic composition of calcareous microfossils in shallow marine sediments for reconstructing paleoenvironment, and a comparison with the MART index. In H. Okada, S. F. Mawatari, N. Suzuki and P. Gautam (eds.), Origin and Evolution of Natural Diversity, Proc. Int. Symp. “The Origin and Evolution of Natural Diversity”, 1-5 October 2007, Sapporro, pp. 109-114.
  55. Komatsu, T., Yoshihara, K., Dick M. H., Takashima, R., Ostrovsky, A., and Nishi, H., 2008. Habitats of Bivalves in the Lower-Cretaceous Aptian Tanohata and Aptian to Albian Hiraiga Formations, Iwate Prefecture, Northeastern Japan. In H. Okada, S. F. Mawatari, N. Suzuki and P. Gautam (eds.), Origin and Evolution of Natural Diversity, Proc. Int. Symp. “The Origin and Evolution of Natural Diversity”, 1-5 October 2007, Sapporro, pp. 163-170.
  56. Dick, M. H., Hirose, M., Takashima, R., Ishimura, T., Nishi, H. and Mawatari, S. F., 2008. Application of MART Analysis to Infer Paleoseasonality in a Pleistocene Shallow Marine Benthic Environment. In H. Okada, S. F. Mawatari, N. Suzuki and P. Gautam (eds.), Origin and Evolution of Natural Diversity, Proc. Int. Symp. “The Origin and Evolution of Natural Diversity”, 1-5 October 2007, Sapporro, pp. 83-91.
  57. Dick, M. H., Takashima, R., Komatsu, T., Kaneko, N., Mawatari, S. F., 2008. Overview of Pleistocene Bryozoans in Japan. In H. Okada, S. F. Mawatari, N. Suzuki and P. Gautam (eds.), Origin and Evolution of Natural Diversity, Proc. Int. Symp. “The Origin and Evolution of Natural Diversity”, 1-5 October 2007, Sapporro, pp. 93-99.
  58. Okano, K., Sawada, K., Takashima, R., Nishi, H. and Okada, H., 2008. Depositional Environments Revealed From Biomarkers in Sediments Deposited During the Mid-Cretaceous Oceanic Anoxic Events (OAEs) in the Vocontian Basin (SE France). In H. Okada, S. F. Mawatari, N. Suzuki and P. Gautam (eds.), Origin and Evolution of Natural Diversity, Proc. Int. Symp. “The Origin and Evolution of Natural Diversity”, 1-5 October 2007, Sapporro, pp. 233-238.
  59. Takashima, R., Coccioni, R., Nishi, H. and Hayashi, K., 2007. Mid-Cretaceous Oceanic Anoxic Events recorded in SE France and central Italy. Journal of the Geological Society of Japan vol. 113, p. iii-iv.

    60. 和文(査読有)

  60. 高嶋礼詩・斎藤広通,2021.アパタイト微量元素組成に基づく竹駒神社馬事博物館の腰部石材の産地同定と建築史的意義.東北大学総合学術博物館紀要,20巻,9-20.
  61. 松尾 遼・小松俊文・前川 匠・稲田稔貴・松田博貴・高嶋礼詩・グエン ダック フォン・グエン バ フン・ザン ディン フン,2020.中部ベトナムに分布する上部デボン系ソムニャー層のケルワッサー事変と堆積相.堆積学雑誌,78巻,55-75.
  62. 吉田武義・高嶋礼詩・工藤 健・プリマ・オキ・ディッキ A.・前田純伶・吉田圭佑・岡田知己・三浦 哲・高橋友啓・長橋良隆・片岡香子,印刷中.東北日本弧,後期新生代の火成活動と地殻構造-内陸地震活動の背景-.地学雑誌,129巻,529-563.
  63. 内山隆弘・高嶋礼詩,2020.東北大学片平キャンパスの歴史的建造物に用いられた凝灰岩についての研究.東北大学総合学術博物館紀要,19巻.p. 30-50.
  64. 高嶋礼詩・庭野道夫・佐藤寿正・成田朱里・鈴木結依・西弘嗣,2019.宮城県東部に露出する松島層最上部-大塚層最下部の地質年代とその意義.東北福祉大学感性福祉研究所年報,20巻,p. 103-111.
  65. 渡邊圭・庭野道夫・山口政人・鹿納晴尚・高嶋礼詩,2019.ドローンを用いた被災地域の三次元地形モデル作成の試み―崩落地域の地形を例に―.東北福祉大学感性福祉研究所年報,20巻,p.141-151.
  66. 高嶋礼詩・佐野晋一・林圭一,2018.蝦夷層群下部~中部に記録された白亜紀中頃の温暖化と古環境変動.地質学雑誌,124巻,p.381-398.
  67. 高嶋礼詩・桑原里・草川遥・庭野道夫,2018.東北福祉大学・横向山校地及び朴木山キャンパス周辺に露出する新第三系―第四系の層序.東北福祉大学感性福祉研究所年報,19巻,p. 79-92.
  68. 高嶋礼詩・西弘嗣,2017.白亜紀の火成活動と温暖化・環境変動.化石,101巻,69-74.
  69. 浦川良太・小松俊文・高嶋礼詩・尾松圭太・西弘嗣(2017)岩手県宮古地域の日出島に分布する下部白亜系宮古層群の底生有孔虫化石と堆積環境.地質学雑誌,123巻,121-130.
  70. 北川雄貴・高嶋礼詩・伊藤康人,2016.北海道中央部芦別地域に分布する空知層群・蝦夷層群の古地磁気学的研究.東北大学総合学術博物館紀要,15巻.p. 109-125.(査読有)
  71. 梅津 慶太・平山 廉・薗田哲平・高嶋礼詩,2013.岩手県に分布する白亜系宮古層群および久慈層群の浅海~非海成堆積物と後期白亜紀陸生脊椎動物群.日本地質学会第120年学術大会巡検案内書・地質学雑誌(CD-ROM),119,Supplement,82-95.
  72. 小城祐樹・小松俊文・岩本忠剛・高嶋礼詩・高橋 修.西 弘嗣,2011. 天草上島東部に分布する上部白亜系姫浦層群の層序と詳細な地質年代.地質学雑誌,第117巻,第7号,398-416.
  73. 林 圭一・西 弘嗣・高嶋礼詩・友杉貴茂・川辺文久,2011.北海道中央南部に露出する上部白亜系の地質と有孔虫層序.地質学雑誌,第117巻,第1号,14-34.
  74. 青池 寛・西 弘嗣・坂本竜彦・飯島耕一・土屋正史・平 朝彦・倉本真一・相田吉昭・秋元和實・堂満華子・林 広樹・長谷川四郎・北里 洋・池原 実・岩井雅夫・丸山俊明・尾田太良・岡田尚武・大井 剛志・大金 薫・佐藤時幸・酒井豊三郎・鈴木紀毅・谷村好洋・高嶋礼詩・内田淳一・山崎 誠,2010.地球深部探査船「ちきゅう」の下北半島沖慣熟航海コア試料―物性変動から予測される古環境変動―.化石,87巻,65-81.
  75. 堂満華子・西 弘嗣・内田淳一・尾田太良・大金薫・青池 寛・秋元和實・林 広樹・長谷川四郎・北里 洋・岩井雅夫・池原 実・丸山俊明・岡田尚武・大井 剛志・佐藤時幸・酒井豊三郎・鈴木紀毅・谷村好洋・高嶋礼詩・山崎 誠,2010.地球深部探査船「ちきゅう」の下北半島沖慣熟航海コア試料の年代モデル.化石,87巻,47-64.
  76. 西 弘嗣・高嶋礼詩,ヒマラヤ山脈のテクトニクスと東アジアの古環境・古気候の変動.石油技術協会誌,2005年1月,70巻,p. 6-14.
  77. 高嶋礼詩・宮本義憲・西 弘嗣・吉田武義,2002,東京大学北海道演習林地域に分布する中生界空知層群および蝦夷層群の層序と地質.東京大学演習林報告,108号, p. 57-76.
  78. 高嶋礼詩・吉田武義・西 弘嗣,2001,北海道夕張-芦別地域に分布する空知,蝦夷層群の地質と堆積環境—北海道の後期中生代テクトニクス—.地質学雑誌,107巻,p. 359-378.
  79. 西 弘嗣・高嶋礼詩・初貝隆行・圓入敦仁・斎藤常正・酒井利彰,2000,北海道に分布する蝦夷層群の浮遊性有孔虫化石帯区分.化石, No. 68,p. 17-18.
  80. 高嶋礼詩・西 弘嗣,1999,中蝦夷地変の再検討と北海道の白亜紀テクトニクス.地質学雑誌, 105巻,p. 711-728.
  81. 高嶋礼詩・西 弘嗣・斎藤常正・長谷川 卓,1997,北海道シューパロ川流域に分布する白亜系の地質と浮遊性有孔虫化石層序.地質学雑誌,103巻,p. 543-563.
  82. 高嶋礼詩・鈴木紀毅・小池敏夫・斎藤常正,1997,北海道双珠別地域における下部・中部蝦夷層群境界の不整合の再検討とその地史的意義—中蝦夷地変の再検討—.地質学雑誌,103巻,p. 489-492.

    83. 論文(査読無)

  83. 高嶋礼詩,2018.仙台市文化財調査報告書第464集,平成28年度貞山堀本発掘調査1区石積みの石材鑑定.平成27・28年度蒲生北部被災市街地復興土地区画整理事業関係遺跡発掘調査報告書,p. 92-97.
  84. Takashima, R., Gautam, P. and Nishi, H., 2006, Recent Advances in Research on Terrestrial and Marine sequences from the mid-Cretaceous Oceanic Anoxic Events (OAEs). Scientific Drilling, no. 2. 50-51.
  85. 高嶋礼詩,2005, テクトニクスと無酸素環境.月刊海洋,37巻,881-885.
  86. 高嶋礼詩・川辺文久,2005, フランスの白亜紀海洋無酸素事変.化石,表・裏表紙およびp. 2.
  87. 高嶋礼詩2002,白亜紀の生物大量絶滅と海洋環境の変遷.平成13年度深田研究助成研究報告書,89-107.
  88. 折橋祐二・酒井治孝・高嶋礼詩,2002,中央ネパール,シワリーク帯のDwar Khola ドレライト(1.7Ga)の岩石化学的特徴,月刊地球,24,272-278.
  89. 長谷川 卓・西 弘嗣・岡田尚武・坂本竜彦・Luc Beaufort・Fabianne Giraud・Oliver Friedrich・古川麻里子・川幡穂高・大河内直彦・高嶋礼詩・黒柳あずみ・山村 充・勝田長貴,2002,白亜紀の海洋無酸素事変(OAE1b)の高分解能解析,月刊地球, 24, 454-460.
  90. Matsumoto T., Takashima R. & Hasegawa K., 2000, Some turrilitid ammonoids from the mid-Cretaceous of the Shuparo Valley, central Hokkaido. Bulletin of the Mikasa City Museum, Natural Science, No 14. 1-17.
  91. 佐野晋一・高嶋礼詩,1999,崕山の石灰岩が教えてくれること.芦別市星の降る里百年記念館年報,6巻,15-22.
  92. 星 博幸・高嶋礼詩,1998,北海道中央部,富良野地域の空知層群火山岩に対する古地磁気解析.三笠市立博物館紀要,3号,23-30.

    93. 著書

  93. 西弘嗣・高嶋礼詩,2008.第4章:新生代の海洋環境と気候変動―海洋の長周期変動―,沢田健ほか編「地球の変動と生物進化―新・自然史科学II―」.p.67-96. 北海道大学出版会,札幌.
  94. 西弘嗣・高嶋礼詩,2008.コラム「白亜紀海洋無酸素事変」,沢田健ほか編「地球の変動と生物進化―新・自然史科学II―」.p.86-89. 北海道大学出版会,札幌.
  95. 高嶋礼詩・上栗伸一・西 弘嗣(2010): 微化石に基づく九州・沖縄の新生界の対比.日本の地質・九州地方,共立出版.東京(分担) 170-171.
  96. 高嶋礼詩・安藤寿男・西 弘嗣(2010):羽幌—士別地域および芦別—夕張—穂別地域の蝦夷層群.日本の地質・北海道地方,共立出版.東京(分担), 68-76.
  97. 古生物学事典(プリュームテクトニクス,プレートテクトニクス,蝦夷層群,海洋無酸素事変,オゾン層,気候変動,温室期,氷河時代,深海掘削計画,黒色頁岩,軟泥),朝倉書店,2010(分担).
  98. Komatsu, T., Naruse, H., Manabe, M., Tsuihiji, T., Ikegami, N., Takashima, R., 2009. Cretaceous non-marine and shallow marine facies and fossils in western Kumamoto, Kyushu, Japan. Field Excursion Guidebook, 4th International Symposium, IGCP507, Paleoclimates of the Cretaceous in Asia and their global correlation. 59 p.
  99. 西弘嗣・高嶋礼詩,2016.12章 過去の気候変動を明らかにする.「海洋底科学の基礎」共立出版.(東京),317-330.