NIES-TERRAの研究活動状況


<関連学会、ワークショップ等開催>

  1. 1996/9 加速器分析施設完成記念シンポジウム開催(大山ホール)
  2. 1997/7 10回「タンデム加速器及びその周辺技術の研究会」開催(大山ホール)
  3. 1999/1 「加速器質量分析法の新展開に関する国際ワークショップ」開催(大山ホール)
           (International Workshop on Frontiers in Accelerator Mass Spectrometry)

<刊行物>

  1. Annual Report of NIES-TERRA Vol .1 (1998) F-112-‘98/NIES「国立環境研究所タンデム加速器分析施設完成記念シンポジウム『加速器質量分析法の展望』講演集」p.41
  2. Annual Report of NIES-TERRA Vol. 2 (1998) F-113-‘98/NIES「第10回タンデム加速器及びその周辺技術の研究会報告書」 p.134.
  3. “Proceedings of the International Workshop on Frontiers in Accelerator Mass Spectrometry”, p. 265 (1999).
  4. Annual Report of NIES-TERRA Vol .3 (2002). 

<論文発表>

  1. Kume, H., Y. Shibata, A. Tanaka, M. Yoneda, Y. Kumamoto, T. Uehiro, and M. Morita (1997). The AMS facility at the National Institute for Environmental Studies (NIES), Japan. Nuclear Instrument and Methods in Physics Research B 123, 31-33.
  2. Shibata, Y., H. Kume, A. Tanaka, M. Yoneda, Y. Kumamoto, T. Uehiro, and M. Morita (1997). A preliminary report on the characteristics of CO2 gas ion source MGF-SNICS at NIES-TERRA. Nuclear Instrument and Methods in Physics Research B 123, 554-557.
  3. Kumamoto, Y., M. Yoneda, Y. Shibata, H. Kume, A. Tanaka, T. Uehiro, and M. Morita (1998). Direct observation of the rapid turnover of the Japan Sea bottom water by means of AMS radiocarbon measurement. Geophysical Research Letters 25 (5), 651-654.
  4. Yoneda, M., Y. V. Kuzmin, M. Morita, A. N. Popov, T. A. Chikisheva, Y. Shibata, Y. G. Shpakova (1998). Reconstruction of the paleodiet based on the stable carbon and nitrogen in the human bocollagen from the neolithic Boisman 2 burial ground (the Primorye Territory). Humanity Studies in Siberia 3, 9-13.
  5. Shibata, Y., A. Tanaka, M. Yoneda, H. Kume, T. Uehiro, T. Kawai, M. Morita, and K. Kobayashi (2000). 10Be-26Al method for age determination of sediment-core samples from Lake Baikal. Nuclear Instruments and Methods in Physics Research B 172, 827-831.
  6. Horiuchi, K., H. Matsuzaki, S. Hatori, K. Kobayashi, T. Nakamura, Y. Shibata, and T. Kawai (2000). Climate-induced fluctuations of 10Be concentration in Lake Baikal sediments, Nuclear Instruments and Methods in Physics Research B172, 562-567.
  7. Tanaka, A., M. Yoneda, M. Uchida, T. Uehiro, Y. Shibata, and M. Morita (2000). Recent advances in 14C measurement at NIES-TERRA. Nuclear Instruments and Methods in Physics Research B 172, 107-111.
  8. Yoneda, M., H. Kitagawa, J. van der Plichit, M. Uchida, A. Tanaka, T. Uehiro, Y. Shibata, M. Morita, and T. Ohno (2000). Pre-bomb marine reservoir ages in the western North Pacific: preliminary result on Kyoto University collection. Nuclear Instruments and Methods in Physics Research B 172, 377-381.
  9. Uchida, M., Y. Shibata, K. Minoura, K. Kawamura, M. Yoneda, H. Mukai, A. Tanaka, T. Uehiro, and M. Morita (2000). Preparation for radiocarbon analysis of individual organic compounds from sediments using preparative capillary gas chromatography (PCGC) at NIES-TERRA. Nuclear Instruments and Methods in Physics Research B 172, 583-588.
  10. Kuzmin, Y. V., M. Yoneda, and M. P. Richards (2000). Paleodiet of the Early-Holocene Population in Primorye, Russian Far East: Stable Carbon and Nitrogen Isotope Data of Human Bone Collagen. Current Research in the Pleistocene17, 128-131.
  11. Tani, Y., K. Yoshii, N. Itoh. F. Nara, M. Soma, A. Tanaka, Y. Soma, M. Yoneda, M. Hirota, and Y. Shibata (2001). Distribution of photosynthetic pigments and other biological compounds in the sediments from the southern basin of Lake Baikal. Geologiya i Geofizika (Russian Geology and Geophysics) 42(1-2), 206-212. 
  12. Matsumoto, K., K. Kawamura, M. Uchida, Y. Shibata, and M. Yoneda (2001). Compound specific radiocarbon and d13C measurements of fatty acids in a continental aerosol samples. Geophysical Research Letters 28(24), 4587-4590. 
  13. Yoneda, M, M. Hirota, M. Uchida, K. Uzawa, A. Tanaka, Y. Shibata, and M. Morita (2001). Marine radiocarbon reservoir effect in the western North Pacific observed in archaeological fauna. Proceedings of the 17th International Radiocarbon Conference, Radiocarbon 43(2A), 465-471. 
  14. Uchida, M., Y. Shibata, K. Kawamura, Y. Kumamoto, M. Yoneda, M. Hirota, H. Mukai, A. Tanaka, and M. Morita (2001). Compound-specific radiocarbon ages of fatty acids from bathyal sediments in the western North Pacific. Proceedings of the 17th International Radiocarbon Conference, Radiocarbon 43(2B), 949-956. 
  15. Shibata, Y., M. Hirota, M. Yoneda, M. Uchida, A. Tanaka, T. Uehiro, J. Yoshinaga, H. Ito, M. Morita (2001). GC-AMS program at NIES-TERRA. Analytical Science 17 (supplement), i625-i628. 
  16. Yoneda, M., A. Tanaka, Y. Shibata, and M. Morita, K. Uzawa, M. Hirota, and M. Uchida, (2002). Radiocarbon marine reservoir effect in human remains from the Kitakogane site, Hokkaido, Japan. Journal of Archaeological Science 29(5), 529-536.
  17. Kuzmin, Y. V., M. P. Richards, and M. Yoneda (2002). Palaeodietary patterning and radiocarbon dating of Neolithic population in the Primorye Province, Russian Far East. Ancient Biomolecules 4(2), 53-58.
  18. Tani, Y., K. Kurihara, F. Nara, N. Itoh, M. Soma, Y. Soma, A. Tanaka, M. Yoneda, M. Hirota, and Y. Shibata (2002). Temporal changes in phytoplankton community of the southern basin of Lake Baikal over last 24,000 years recorded by photosynthetic pigments in a sediment core. Organic Geochemistry 33(12), 1621-1634.
  19. Yoneda, M., M. Hirota, M. Uchida, A. Tanaka, Y. Shibata, M. Morita, and T. Akazawa (2002). Radiocarbon and stable isotope analyses on the Earliest Jomon skeletons from the Tochibara rockshelter, Nagano, Japan. Radiocarbon 44(2), 549-557.
  20. Yoshinaga, J., M. Yoneda, M. Yoshinaga, and T. Matsushita (2003). Children of samrai classes in Edo era might suffer from lead poisoning. Environmental Sciences 10, 63-69.
  21. Adachi, N., Y. Dodo, N. Ohshima, N. Doi, M. Yoneda, and H. Matsumura (in press). Morphologic and genetic evidence for the kinship of juvenile skeletal specimens from a 2000 year-old double burial. Anthropological Science.

<書籍>

  1. 森田昌敏:海洋・湖沼堆積物の年代測定法、「地球環境変動の科学 バイカルドリリングプロジェクト」井上、柏谷、箕浦編、古今書院,72-76 (1998).
  2. 柴田康行、小林紘一: 10Beによる絶対年代測定法、「地球環境変動の科学 バイカルドリリングプロジェクト」井上、柏谷、箕浦編、古今書院,91-111 (1998).
  3. 米田 穣:骨の化学分析からみた人類の生業適応、「環境考古学ハンドブック」、安田編、古今書院、印刷中.
  4. Yoneda, M., Y. Shibata, M. Morita, M. Hirota, M. Uchida, and T. Akazawa (2002). Radiocarbon age determination of the Dederyieh cave site, Syria: preliminary results. Recent Advances in Anthropology and Prematology (H. Ishida, M. Nakatsukasa, and N. Ogiwara, eds.)「人類学と霊長類学の新展開」(石田英實・中務真人・荻原直道編), pp. 31-34. 金星舎.
  5. 米田穣 (2002). 骨が語る食生活. 「東京大学コレクションXIII 北の異界:古代オホーツクと氷民文化」(西秋良宏・宇田川洋編)pp.94-96. 東京大学総合研究博物館/東京大学出版会(p.189).
  6. 米田穣(2003). マヤ文明をささえた食生活−人骨の化学分析からわかること−.「特別展『神秘の王朝−マヤ文明展』カタログ」.国立科学博物館.

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