筑波大学下田臨海実験センター筑波大学ホームページへ

2021年

  1. Kutomi, O., Yamamoto, R., Hirose, K., Mizuno, K., Nakagiri, Y., Imai, H., Noga, A., Obbineni, J.M., Zimmermann, N., Nakajima, M., Shibata, D., Shibata, M., Shiba, K., Kita, M., Kigoshi, H., Tanaka, Y., Yamasaki, Y., Asahina, Y., Song, C., Nomura, Mami, Nomura, Mamoru, Nakajima, A., Nakachi, M., Yamada, L., Nakazawa, S., Sawada, H., Murata, K., Mitsuoka, K., Ishikawa, T., Wakabayashi, K., Kon, T. & Inaba, K.,
    A dynein-associated photoreceptor protein prevents ciliary acclimation to blue light. Science Advances, 7(9), p.eabf3621. (February 2021)

  2. Wada, S., Agostini, S., Harvey, B.P., Omori, Y. & Hall-Spencer, J.M.,
    Ocean acidification increases phytobenthic carbon fixation and export in a warm-temperate system. Estuarine, Coastal and Shelf Science, 250, p.107113. (March 2021)

  3. Martins, M., Carreiro-Silva, M., Martins, G.M., Barcelos e Ramos, J., Viveiros, F., Couto, R.P., Parra, H., Monteiro, J., Gallo, F., Silva, C., Teodósio, A., Guilini, K., Hall-Spencer, J.M., Leitão, F., Chícharo, L. & Range, P.,
    Ervilia castanea (Mollusca, Bivalvia) populations adversely affected at CO2 seeps in the North Atlantic. Science of The Total Environment, 754, p.142044. (February 2021)

  4. Kleitou, P., Crocetta, F., Giakoumi, S., Giovos, I., Hall-Spencer, J., Kalogirou, S., Kletou, D., Moutopoulos, D. & Rees, S.,
    Fishery reforms for the management of non-indigenous species. Journal of Environmental Management. (February 2021)

  5. Yamakawa, U., Kanou, K., Tsuda, Y. & Kon, K.,
    Food resource use by juveniles of the endangered sleeper Eleotris oxycephala in the Sagami River system, Japan. Ichthyological Research. (January 2021)

  6. Harvey, B.P., Kon, K., Agostini, S., Wada, S. & Hall‐Spencer, J.M.,
    Ocean acidification locks algal communities in a species-poor early successional stage. Global Change Biology, (January 2021)

  7. Aiuppa, A., Hall-Spencer, J.M., Milazzo, M., Turco, G., Caliro, S. & Di Napoli, R.,
    Volcanic CO2 seep geochemistry and use in understanding ocean acidification. Biogeochemistry, 152(1), pp.93–115. (January 2021)

  8. Agostini, S., Houlbrèque, F., Biscéré, T., Harvey, B.P., Heitzman, J.M., Takimoto, R., Yamazaki, W., Milazzo, M. & Rodolfo-Metalpa, R.,
    Greater Mitochondrial Energy Production Provides Resistance to Ocean Acidification in “Winning” Hermatypic Corals. Frontiers in Marine Science, 7. (2021)

  9. Kinjo, S., Kiyomoto, M., Yamamoto, T., Ikeo, K. & Yaguchi, S.,
    Usage of the Sea Urchin Hemicentrotus pulcherrimus Database, HpBase. In D. J. Carroll & S. A. Stricker, eds. Developmental Biology of the Sea Urchin and Other Marine Invertebrates: Methods and Protocols. Methods in Molecular Biology. New York, NY: Springer US, pp. 267–275. (2021)

 

 

 

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