A01-1 海洋班

1. *Mizobata, K., Hirano, D., Kusahara, K., Aoki, S., Inoue, J., Takao, S., Makabe, R. (2025), Ocean Response Along the East Antarctic Coastal Margin to the Southern Annular Mode. Geophysical Research Letters, 52, e2024GL112914.
   DOI: 10.1029/2024GL112914（査読有）
2. *Ito, M., Takahashi, K. D., Makabe, R., Hirano, D., Ohshima,K. I., Tamura, T., Aoki, S.(2025), Intense frazil ice production promotes high algal biomass in newly-formed sea ice. Journal of Geophysical Research: Oceans, 130(3), e2024JC021689.
   DOI: 10.1029/2024JC021689（査読有）
3. *Katsumata, K., Aoki, S., Ohshima, K. I., Yamamoto-Kawai, M. (2025), Hydrographic section along 55°E in the Indian and Southern oceans. Ocean Science, 21, 419-436. DOI: 10.5194/os-21-419-2025（査読有）

A01-2　大気・物質循環班

1. *O’Connor, G. K., Nakayama, Y., Steig, E. J., Armour, K. C., Thompson, L., Hyogo, S., Berdahl, M., Shimada, T. (2025), Enhanced West Antarctic ice loss triggered by polynya response to meridional winds.Nature Geoscience, 18, 840-847.
   DOI: 10.1038/s41561-025-01757-6（査読有）
2. *Sato, K., Takahashi, K., Inoue, J. (2025), Impact of Canadian wildfires on aerosol and ice clouds in the early-autumn Arctic. Atmospheric Research, 315. DOI: 10.1016/j.atmosres.2024.107893（査読有）
3. Mizobata, K., Hirano, D., Kusahara, K., Aoki, S., Inoue, J., Takao, S., Makabe, R. (2025), Ocean Response Along the East Antarctic Coastal Margin to the Southern Annular Mode. Geophysical Research Letters, 52, e2024GL112914.
   DOI: 10.1029/2024GL112914（査読有）

A01-3 氷床質量班

1. *Sugiyama, S., Tsutaki, S., Sakakibara, D., Asaji, I., Kondo, K., Wang, Y., Podolskiy, E., Jouvet, G., Funk, M. (2025), Ice speed of a Greenlandic tidewater glacier modulated by tide, melt, and rain. The Cryosphere, 19, 525-540.
   DOI: 10.5194/tc-19-525-2025（査読有）

A02 AUV観測班

1. *Kashiwase, H., Ohshima, K. I., Tamura, T. (2025), Development and validation of a global thin ice thickness algorithm for SMMR. Journal of Atmospheric and Oceanic Technology, 42(1), 47-62. DOI: 10.1175/JTECH-D-23-0097.1（査読有）
2. 巻俊宏 (2025), AUVを支える海中音響技術. 海洋音響学会誌, 52(1), 17-22.（査読なし）

A03-1 海洋地質コア班

1. Iizuka, M., Amano, A., Itaki, T. (2025), Accurate sampling of undisturbed top sediment from grab sampler collected using aluminum tube and stainless-steel containers for shallow and deep-sea applications. MethodsX, 14, Article number: 103213. DOI: 10.1016/j.mex.2025.103213（査読有）
2. Mimura, K., Itaki, T., Kataoka, H., Miyakawa, A. (2025), Classifying microfossil radiolarians on fractal pre-trained vision transformers. Scientific Reports, 15, Article number: 7189.（査読有）

A03-2 氷床コア班

1. Oyabu, I., Kawamura, K., Kitamura, K., Sugawara, S., Ishidoya, S., Umezawa, T., Saito, T., Goto, D., Fujita, R., Morimoto, S., Aoki, S., Motoyama, H. (2025), Firn air composition at the H128 and NDFN sites, Dronning Maud Land, East Antarctica. Polar Data Journal, 9, 30-43. DOI: 10.20575/00000061（査読有）

A03-3 長期モデル班

1. *Oka, A. (2025), Deep ocean mixing mismatch between model and observational estimates. Commun. Earth Environ., 6, 108.
   DOI: 10.1038/s43247-025-02027-4（査読有）
2. *Hirose, L. A., Abe-Ouchi, A., Chan, W.-L., O’ishi, R., Yoshimori, M., Obase, T. (2025), Arctic warming suppressed by remnant glacial ice sheets in past interglacials. Geophys. Res. Lett., 52, e2024GL111798.DOI: 10.1029/2024GL111798（査読有）

A01-1 海洋班

1. 板木拓也, 徳田悠希, 石輪健樹, 佐々木聡史, 菅沼悠介, 青木茂 (2024), 第61次日本南極地域観測隊における「しらせ」を活用した採泥調査, 南極資料 [報告], 68, 21-35. （解説）（査読有）
2. *Tozawa, M., Nomura, D., Yamazaki, K., Kiuchi, M., Hirano, D., Aoki, S., Sasaki, H., Murase, H. (2024), Oceanographic factors determining the distribution of nutrients and primary production in the subpolar Southern Ocean. Progress in Oceanography, 225, 103266. DOI: 10.1016/j.pocean.2024.103266（査読有）
3. *Yamazaki, K., Katsumata, K., Hirano, D., Nomura, D., Sasaki, H., Murase, H., Aoki, S. (2024), Revisiting circulation and water masses over the East Antarctic margin (80-150°E). Progress in Oceanography, 225, 103285.
   DOI: 10.1016/j.pocean.2024.103285（査読有）

A01-2 大気・物質循環班

1. *Nakayama, Y., Malyarenko, A., Zhang, H., Wang, O., Auger, M., Nie, Y., Fenty, I., Mazloff, M., Köhl, A., Menemenlis, D. (2024), Evaluation of MITgcm-based ocean reanalysis for the Southern Ocean. Geoscientific Model Development, 17(23), 8613-8638.
   DOI: 10.5194/gmd-17-8613-2024（査読有）
2. *McCormack, F., Cook, S., Goldberg, D. N., Nakayama, Y., Seroussi, H., Nias, I., An, L., Slater, D., Hattermann, T. (2024), Commentary: The case for a Framework for UnderStanding Ice-Ocean iNteractions (FUSION) in the Antarctic-Southern Ocean System. Elementa: Science of the Anthropocene, 12(1).
   DOI: 10.1525/elementa.2024.00036（査読有）
3. Lin, Y., Nakayama, Y., Liang, K., Huang, Y., Chen, D., *Yang, Q. (2024), A dataset of the daily edge of each polynya in the Antarctic. Scientific Data, 11(1), 1006.
   DOI: 10.1038/s41597-024-03848-2（査読有）
4. *Mizuta, G., Ohshima, K. I., Takatsuka, T., Kitade, Y., Fujii, M., Nakayama, Y., Ikehara, M. (2024), Circulation and production of Cape Darnley Bottom Water on the continental slope off the Cape Darnley polynya, East Antarctica. Deep Sea Research Part 1, 211, 104362. DOI: 10.1016/j.dsr.2024.104362（査読有）
5. *De Rydt, J., *Jourdain, N., *Nakayama, Y., van Caspel, M., Timmermann, R., Mathiot, P., Asay-Davis, X. S., Seroussi, H., Dutrieux, P., Galton-Fenzi, B., Holland, D., Reese, R. (2024), Experimental design for the marine ice sheet and ocean model intercomparison project-phase 2 (MISOMIP2). Geoscientific Model Development, 17(18), 7105-7139. DOI: 10.5194/gmd-17-7105-2024（査読有）
6. *Park, T., *Nakayama, Y., Nam, S. (2024), Amundsen Sea circulation controls bottom upwelling and Antarctic Pine Island and Thwaites ice shelf melting. Nature Communications, 15, 2946. DOI: 10.1038/s41467-024-47084-z（査読有）

A01-3 氷床質量班

1. Niwano, M., Nishimura, M., Shimada, R., Yamasaki, T., Ohkawara, N., Sunako, S., Aoki, T., Hashimoto, A., Tanikawa, T., Matoba, S. and Yamaguchi, S. (2024), Field activities at the SIGMA-A site, northwestern Greenland ice sheet, 2023. Bulletin of Glaciological Research, 42, 61–68. DOI: 10.5331/bgr.24R03（査読有）
2. Kondo, K., Sugiyama, S., Minowa, M., Podolskiy, E. A. (2024), Ploughmeter for subglacial observations with an accelerometer and a water pressure sensor. Bulletin of Glaciological Research, 42, 113-121. DOI: 10.5331/bgr.24R03（査読有）
3. *Lamsters, K., Karuss, J., Jeskins, J., Dzerins, P., Ukai, S., Sugiyama, S. (2024), Geometry and thermal regime of the southern outlet glaciers of Qaanaaq Ice Cap, NW Greenland. Earth Surface Processes and Landforms, 49(13), 4275-4288.
   DOI: 10.1002/esp.5966（査読有）
4. *Zhang, G., Carrivick, J. L., Emmer, A., Shugar, D. H., Veh, G., Wang, X., Labedz, C., Mergili, M., Mölg, N., Huss, M., Allen, S., Sugiyama, S., Lützow, N. (2024), Characteristics and changes of glacial lakes and outburst floods.
   Nature Reviews Earth & Environment, 5, 447-462.
   DOI: https://www.nature.com/articles/s43017-024-00554-w（査読有）
5. 張佳晏，杉山慎，Jason Amundson，Lynn Kaluzienski (2024), アラスカ南東部タク氷河が前進から後退に転ずる時期の氷河末端位置と流動速度の変化. 北海道の雪氷, 43, 25–28.（査読なし）
6. 山田宙昂，鵜飼慎太，杉山慎 (2024), グリーンランド北西部カナック氷河におけるUAV測量による表面変化の解析. 北海道の雪氷, 43, 29–32.（査読なし）
7. 酢谷真巳，畑中謙一郎，長屋幸一，庭野匡思 (2024), 解析積雪深・解析降雪量及び降雪短時間予報について. 測候時報, 91, 1-25.
   URL: https://www.jma.go.jp/jma/kishou/books/sokkou/91/vol91_1.pdf （査読なし）（解説）

A02 AUV観測班

1. *Weng, Y., Chun, S., Ohashi, M., Matsuda, T., Sekimori, Y., Pajarinen, J., Peters, J., Maki, T. (2024), Autonomous underwater vehicle link alignment control in unknown environments using reinforcement learning. Journal of Field Robotics, 41(6), 1724-1743. DOI: 10.1002/rob.22348（査読有）
2. 巻俊宏 (2024), 海に光を、ロボットに冒険を ～AUV研究の最前線～. 海洋調査技術, 35(2), 36(1), 11-12.（査読なし）
3. Zhou, J., Koge, H., *Maki, T. (2024), Automation of MBES Noise Reduction: An Approach Based on Seafloor Bathymetry Features Derived from Manual Editing Procedures. Ocean Engineering, 299. DOI: 10.1016/j.oceaneng.2024.117397（査読有）

A03-2 氷床コア　

1. *Parrenin, F., Bouchet, M., Buizert, C., Capron, E., Corrick, E., Drysdale, R., Kawamura, K., Landais, A., Mulvaney, R., Oyabu, I., Rasmussen, S.O. (2024), The Paleochrono-1.1 probabilistic model to derive a common age model for several paleoclimatic sites using absolute and relative dating constraints.
   Geoscientific Model Development, 17, 8735-8750. DOI: 10.5194/gmd-17-8735-2024（査読有）
2. *Martin, K. C., Buizert, C., Brook, E., Williams, O. L., Edwards, J. S., Riddell-Young, B., Fudge, T. J., Mederbel, F., Beaudette, R., Severinghaus, J., Oyabu, I., Kawamura, K., Kirk, M., Koldtoft, I., Steffensen, J.P., Blunier, T. (2024), Greenland Ice Cores Reveal a South-To-North Difference in Holocene Thermal Maximum Timings. Geophysical Research Letters, 51, e2024GL111405. DOI: 10.1029/2024GL111405（査読有）
3. *Inoue, R., Aoki, T., Fujita, S., Tsutaki, S., Motoyama, H., Nakazawa, F., Kawamura, K. (2024), Spatial variation in the specific surface area of surface snow measured along the traverse route from the coast to Dome Fuji, Antarctica, during austral summer. Cryosphere, 18, 3513-3531. DOI: 10.5194/tc-18-3513-2024（査読有）
4. Kawamura, K., Oyabu, I. (2024), Two decades of deep ice cores from Antarctica. Nature, 630, 825-827. DOI: 10.1038/d41586-024-01507-5（査読なし）

A03-3 長期モデル

1. *Irie, Y., Okuno, J., Doi, K., Ishiwa, T., Fukuda, Y. (2024), Limited sensitivity of Antarctic GIA mass change estimates to lateral viscosity variations. Journal of Geodynamics, 162, 102047. DOI: 10.1016/j.jog.2024.102047（査読有）
2. *Kobayashi, H., Oka, A., Obase, T. and Abe-Ouchi, A. (2024), Assessing transient changes in the ocean carbon cycle during the last deglaciation through carbon isotope modeling. Climate of the Past, 20, 769-787. DOI: 10.5194/cp-20-769-2024（査読有）