ResearcherID [LINK]
ORCID [LINK]
Google Scholor [LINK]
ResearchGate [LINK]
Researchmap [LINK]
原著論文・査読あり
32. Kitahashi, T., Nakajima, R., Nomaki, H., Tsuchiya, M., Yabuki, A., Yamaguchi, S., Zhu, C., Kanaya, Y., Lindsay, D.J., Chiba, S., Fujikura, K. (2021). Development of robust models for rapid classification of microplastic polymer types based on near infrared hyperspectral images. Analytical Methods 13, 2215–2222 [LINK] NEW!
31. Nomaki, H., Rastelli, E., Alves, A., Suga, H., Ramos, S., Kitahashi, T., Tsuchiya, M., Ogawa, NO., Matsui, Y., Seike, K., Miyamoto, N., Corinaldesi, C., Manea, E., Ohkouchi, N., Danovaro, R., Nunoura, T., Amaro, T. (2021). Abyssal fauna, benthic microbes, and organic matter quality across a range of trophic conditions in the western Pacific ocean. Progress in Oceanography 195, 102591 [LINK] NEW!
30. Watanabe, HK., Senokuchi, R., Nomaki, H., Kitahashi, T., Uyeno, D., Shimanaga, M. (2021). Distribution and Genetic Divergence of Deep-Sea Hydrothermal Vent Copepods (Dirivultidae: Siphonostomatoida: Copepoda) in the Northwestern Pacific. Zooligical Science 38 [LINK] NEW!
29. Nakajima, R., Tsuchiya, M., Yabuki, A., Masuda, S., Kitahashi, T., Nagano, Y., Ikuta, T., Isobe, N., Nakata, H., Ritchie, H., Oguri, K., Osafune, S., Kawamura, K., Suzukawa, M., Yamauchi, T., Iijima, K., Yoshida, T., Chiba, S., Fujikura, K. (2021). Massive occurrence of benthic plastic debris at the abyssal seafloor beneath the Kuroshio Extension, the North West Pacific. Marine Pollution Bulletin in press [LINK] NEW!
28. Nurlatifah, Yamauchi, T., Nakajima, R., Tsuchiya, M., Yabuki, A., Kitahashi, T., Nagano, Y., Isobe, N., Nakata, H. (2021). Plastic additives in deep-sea debris collected from the western North Pacific and estimation for their environmental loads. Science of the Total Environment 768, 144537 [LINK] NEW!
27. Zhu, C., Kanaya, Y., Tsuchiya, M., Nakajima, R., Nomaki, H., Kitahashi, T., Fujikura, K. (2021). Optimization of a hyperspectral imaging system for rapid detection of microplastics down to 100 µm. MethodsX 8, 101175 [LINK]
26. Senokuchi, R., Nomaki, H., Uyeno, D., Watanabe, H.K., Kitahashi, T., Shimanaga, M. (2020). Sex ratio of Stygiopontius senokuchiae (Dirivultidae, Copepoda), an endemic copepod species at deep hydrothermal vent sites, is biased to males. Journal of Oceanography 76, 341–350 [LINK]
25. Zhu, C., Kanaya, Y., Nakajima, R., Tsuchiya, M., Nomaki, H., Kitahashi, T., Fujikura, K. (2020). Characterization of microplastics on filter substrates based on hyperspectral imaging: Laboratory assessments. Environmental Pollution 263, 114296 [LINK]
24. Kitahashi, T., Sugime, S., Inomata, K., Nishijima, M., Kato, S., Yamamoto, H. (2020). Meiofaunal diversity at a seamount in the Pacific Ocean: A comprehensive study using environmental DNA and RNA. Deep-Sea Research Part I 160, 103253 [LINK]
23. Hiraoka, H., Hirai, M., Matsui, Y., Makabe, A., Minegishi, H., Tsuda, M., Juliarni, J., Rastelli, E., Danovaro, R., Corinaldesi, C., Kitahashi, T., Tasumi, E., Nishizawa, M., Takai, K., Nomaki, H., Nunoura, T. (2020). Microbial community and geochemical analyses of trans-trench sediments for understanding the roles of hadal environments. ISME Journal 14, 740-756. [LINK]
22. Tsuchiya, M., Nomaki, H., Kitahashi, T., Nakajima, R., Fujikura, K. (2019). Sediment sampling with a core sampler equipped with aluminum tubes and an onboard processing protocol to avoid plastic contamination. MethodsX 6, 2662-2668. [LINK]
21. Nakajima, R., Tsuchiya, M., Lindsay, D.J., Kitahashi, T., Fujikura, K., Fukushima, T. (2019). A new small device made of glass for separating microplastics from marine and freshwater sediments. PeerJ 7, e7915. [LINK]
20. Nakajima, R,, Lindsay, D.J., Tsuchiya, M., Matsui, R., Kitahashi, T., Fujikura, K., Fukushima, T. (2019). A small, stainless-steel sieve optimized for laboratory beaker-based extraction of microplastics from environmental samples. MethodsX 66, 1677–1682. [LINK]
19. Nomaki, H., Uejima, Y., Ogawa, N.O., Yamane, M., Watanabe, H.K., Senokuchi, R., Bernhard, J.M., Kitahashi, T., Miyairi, Y., Yokoyama, Y., Ohkouchi, N., Shimanaga, M. (2019). Nutritional sources of meio- and macrofauna at hydrothermal vents and adjacent areas: natural-abundance radiocarbon and stable isotope analyses. Marine Ecology Progress Seriesy 622, 49–65. [LINK]
18. Shimanaga, M., Kitahashi, T., Kawamura, K. (2019). First insight of bathymetric patterns among deep-sea harpacticoid diversity and composition on landward slopes of subduction zones along the Japanese island arc. Journal of Oceanography. [LINK]
17. Senokuchi, R., Nomaki, H., Watanabe, H.K., Kitahashi, T., Ogawa, N.O., Shimanaga, M. (2018). Chemoautotrophic food availability influences copepod assemblage composition at deep hydrothermal vent sites within sea knoll calderas in the northwestern Pacific. Marine Ecology Progress Series 607, 37-51. [LINK]
16. Kitahashi, T., Watanabe, H.K., Tsuchiya, M., Yamamoto, H., Yamamoto, H. (2018). A new method for acquiring meiobenthic images using FlowCAM. MethodsX 5, 1330–1335. [LINK]
15. Kitahashi, T., Jenkins, R.G., Kojima, S., Shimanaga, M. (2018). High resilience of harpacticoid copepods in the landward slope of the Japan Trench against disturbance of the 2011 Tohoku Earthquake. Limnology and Oceanography 63, 2751–2761. [LINK] NEW!
14. Uejima, Y., Nomaki, H., Senokuchi, R., Setoguchi, Y., Kitahashi, T., Watanabe-Kayama, H., Shimanaga, M. (2017). Meiofaunal communities in hydrothermal vent and proximate non‐vent habitats around neighboring seamounts on the Izu‐Ogasawara Arc, western North Pacific Ocean. Marine Biology 164:183. [LINK]
13. Noguchi, T., Kitahashi, T., Shinohara, G., Hashimoto, J., Kojima, S. (2016). Morphological differences among snipefishes (Macroramphosidae: Macroramphosus) from the Pacific and Atlantic oceans. Plankton and Benthos Research 11, 147–150. [LINK]
12. Nomaki, H., Bernhard, J.M., Ishida, A., Tsuchiya, M., Uematsu, K., Tame, A., Kitahashi, T., Takahata, N., Sano, Y., Toyofuku, T. (2016). Intracellular isotope localization in Ammonia sp. (Foraminifera) of oxygen-depleted environments: results of nitrate and sulfate labeling experiments. Frontiers in Microbiology 7, 163. [LINK]
11. Kitahashi, T., Watanabe, H., Ikehara, K., Jenkins, R.G., Kojima, S., Shimanaga, M. (2016). Deep-sea meiofauna off the Pacific coast of Tohoku and other trench slopes around Japan: A comparative study before and after the 2011 off the Pacific coast of Tohoku Earthquake. Journal of Oceanography 72, 129–139. [LINK]
10. Seike, K., Kitahashi, T., Noguchi, T. (2016). Sedimentary features of Onagawa Bay, northeastern Japan after the 2011 off the Pacific coast of Tohoku Earthquake: sediment mixing by recolonized benthic animals decreases the preservation potential of tsunami deposits. Journal of Oceanography 72, 141–149. [LINK]
9. Nomaki, H., Mochizuki, T., Kitahashi, T., Nunoura, T., Arai, K., Toyofuku, T., Tanaka, G., Shigeno, S., Tasumi, E., Fujikura, K., Watanabe, S. (2016). Effects of mass sedimentation events after the 2011 off the Pacific coast of Tohoku earthquake on benthic prokaryotes and meiofauna inhabiting the upper bathyal sediments. Journal of Oceanography 72, 113–128. [LINK]
8. Noguchi, T., Sakuma, K., Kitahashi, T., Itoh, H., Kano, Y., Shinohara, G., Hashimoto, J., Kojima, S. (2015). No genetic deviation between two morphotypes of the snipefishes (Macroramphosidae: Macroramphosus) in Japanese waters. Ichthyological Research 62, 368–373. [LINK]
7. Kitahashi, T., Jenkins, R.G., Nomaki, H., Shimanaga, M., Fujikura, K., Kojima, S. (2014). Effect of the 2011 Tohoku Earthquake on deep-sea meiofaunal assemblages inhabiting the landward slope of the Japan Trench. Marine Geology 358, 128–137. [LINK]
6. Setoguchi, Y., Nomaki, H., Kitahashi, T., Watanabe, H., Inoue K., Ogawa, N.O., Shimanaga, M. (2014). Nematode community composition in hydrothermal vent and adjacent non-vent fields around Myojin Knoll, a seamount on the Izu-Ogasawara Arc in the western North Pacific Ocean. Marine Biology 161, 1775–1785. [LINK]
5. Kitahashi, T., Kawamura, K., Kojima, S., Shimanaga, M. (2014). Bathymetric patterns of α and β diversity of harpacticoid copepods at the genus level around the Ryukyu Trench, and turnover diversity between trenches around Japan. Progress in Oceanography 123, 54–63. [LINK]
4. Kitahashi, T., Kawamura, K., Kojima, S., Shimanaga, M. (2013). Assemblages gradually change from bathyal to hadal depth: A case study on harpacticoid copepods around the Kuril Trench (north-west Pacific Ocean). Deep-Sea Research Part I 74, 39–47. [LINK]
3. Kitahashi, T., Kawamura, K., Veit-Köhler, G., Danovaro, R., Tietjen, J., Kojima, S., Shimanaga, M. (2012). Assemblages of Harpacticoida (Crustacea: Copepoda) from the Ryukyu and Kuril Trenches, north-west Pacific Ocean. Journal of the Marine Biological Association of the United Kingdom 92, 275–286. [LINK]
2. Itoh, M., Kawamura, K., Kitahashi, T., Kojima, S., Katagiri, H., Shimanaga, M. (2011). Bathymetric patterns of meiofaunal abundance and biomass associated with the Kuril and Ryukyu trenches, western North Pacific Ocean. Deep-Sea Research Part I 58, 86–97. [LINK]
1. 北橋倫, 嶋永元裕, 井上広滋, 渡部裕美 (2010). 熱水噴出域のメイオファウナの定量的研究におけるサンプラーバイアスについて:内径の異なる2種類のハンドコアラーによる堆積物の比較. JAMSTEC Report of Research and Development 10, 33–39. [LINK]
原著論文・査読なし
1. 西島美由紀,中村匡聡,北橋倫 (2017).海底鉱物資源開発に伴う環境影響評価のためのメタゲノム解析法. 第26回海洋工学シンポジウム講演論文集 OES26-027.
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