2025年度(令和7年度)の研究成果
Focus
令和7年度(2025)受理済論文 (査読付き)
1) Nakajima, T., Saito, Y., 2025. Facies variations in gravelly cyclic steps deposited from turbidity currents: Miocene fan delta front deposits compared with modern active fan delta, central Japan. The Depositional Record, 11, 490-510. (2025.04)
2) Sugahara, S., Higa, H., Iwama, M., Nakamura, Y., Inoue, T., Senga, Y., Egawa, M., Seike, Y., 2025. Method for extracting elemental sulfur in environmental water and its application to blue tide samples from Tokyo Bay, Japan. Analytical Sciences, 41, 495-501. (2025.04)
3) Takahara,T., Yamagishi, S., Shimoda, R., Nagata, A., Sakata, K.A., Doi, H., Minamoto, T., 2025. Seven-year changes in eDNA concentrations of two dominant submerged macrophytes in Lake Shinji: Effects of salinity, Estuarine, Coastal and Shelf Science, 315, 109165. (2025.04)
4) Yanay, N., Quade, J., Wang, Z.N., Waseem, M.T., Dettman, D.L., 2025. Alteration of carbonate clumped isotope composition by burial heating in foreland sediments of the Himalaya. Geochimica et Cosmochimica Acta, 394, 15-31. (2025.04)
5) Llopis Monferrer, N., Romac, S., Laget, M., Nakamura, Y., Biard, T., Sandin, M.M., 2025. Is the gelatinous matrix of Nassellaria (Radiolaria) a strategy for coping with oligotrophy? Environmental Microbiology 27(5), e70098. (2025.05)
6) Matsuzaki, K.M., Itaki, T., Kubota, Y., Lee, K.E., Motoyama, I., Sagawa, T., Horikawa, K., Murayama, M., Obata, H., 2025. Review of radiolarian microfossils as a tool for reconstructing sea surface temperature of the past in the Northwest Pacific. Progress in Earth and Planetary Science, 12(1), 35. (2025.05)
7) Higa, M., Naito, K., Sato, T., Tomii, A., Hitsuda, Y., Tahara, M., Ishii, K., Ichisaka, Y., Sugiyama, H., Kobayashi, R., Sakamoto, F., Watanabe, K., Yoshikiyo, K., Shimizu, H., 2025. Hexaraphane Affects the Activation of Hepatic PPARα Signaling: Impact on Plasma Triglyceride Levels and Hepatic Senescence with Aging. Nutrients, 17(11), 1768. (2025.05)
8) Yajima, H., Yoshioka, Y., 2025. Response of interconnected estuarine lakes to sea-level rise and large hydrological structures. Journal of Hydrology: Regional Studies, 59, 102432. (2025.06)
9) 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, 103213. (2025.06)
10) Horinouchi, M., Tongnunui, P., Kaeoprakan, P., Hukiew, P., Furumitsu, K., Kon, K., Nakamura, Y., Kanou, K., Yamaguchi, A., Okamoto, K., Sano, M., 2025. Fish assemblage structures in planted seagrass habitats compared with natural seagrass habitats: a field experiment in an intertidal bay in Trang, southern Thailand. Ichthyological Research, (2025 07)
11) Dianto, A., Katsuki, K., Sakai, T., Seto, K., Nakanishi, T., Tanaka, T., Miura, I., Hayashida, A., Irizuki, T., Sampei, Y., Tsujimoto, A., Watanabe, M., Ando, T., Nakamura, Y., Saito, Y., 2025. Holocene coastal evolution and paleogeography of the Izumo Plain and Lake Shinji, Western Japan: incised-valley fills in a wave-dominated estuary environment. Palaeogeography, Palaeoclimatology, Palaeoecology, 670,112941.(2025.07)
12) Yamagishi, S., Nakamura, Y., Seto, K., Ando, T., Katsuki, K., Takahara, T., 2025. Reconstruction of paleo-environments by two aquatic plants: eDNA analysis in lake sediment cores. Limnology, 26(3), in press. (2025.08)
13) Matsuzaki, Y., Kubota, M., Inoue, T., Mizuguchi, H., 2025. Ecological hydrodynamic modeling and factor analysis of hypoxia dissipation in the semi-enclosed Mikawa Bay, Japan, in August 2020. Marine Pollution Bulletin, 218, 118190. (2025.09)
14) Liu, J., Wang, H., Chen, L., Saito, Y., Chen, B., An, Y., Zhang, J., 2025. Abrupt sea-level rise prior to the 8.2 ka climatic event revealed from the post-glacial sedimentary succession off the northern coast of Shandong Peninsula, North Yellow Sea. Quaternary Science Reviews, 363, 109428. (2025.09)
15) Tiwari, S., Padate, V.P., Cubelio, S.S., Osawa, M.: Some porcelain crabs (Decapoda: Anomura) from the Andaman Sea, India, with an identification key to Indian porcellanids. Nauplius (accepted on 2024.10.10)
16) Kajita, H., Kondo, K., Sugiyama, S., Nakamura, Y., Kudoh, S., Umeda, K., 2025. DNA metabarcoding focusing on eukaryote communities on Langhovde Glacier, East Antarctica. Environmental Microbiology Reports (in press)
17) Ogiso-Tanaka, E., Shimada, D., Ogawa, A., Ishiyama, G., Okumura, K., Hosaka, K., Ishii, C., Nam, K.O., Hoshino, M., Nomura, S., Kakizoe, S., Nakamura, Y., Nishiumi, I., Ito, M.A., Kitayama, T., Tanaka, N., Hosoya, T., Jinbo, U., 2025. DNA Specimen Preservation using DESS and DNA Extraction in Museum Collections. Biology (accepted)
18) Zalasiewicz, J., Head, M.J., Waters, C.N., Summerhayes, C., Turner, S., Wagreich, M., Aquilina, L., Cearreta, A., Chakraborty, A., Gałuszka, A., Hajdas, I., do Sul, J.I., Leinfelder, R., Magny, M., McCarthy, F.M.G., McNeill, J.R., Park, B.S., Pöschl, U., Renn, J., Robin, L., Saito, Y., Sörlin, S., Thomas, J.A., Trischler, H., Williams, M., Wallenhorst, N., Will, F., 2025. Reply to Edgeworth et al. 2024: The Anthropocene is a time interval, and more besides. Earth’s Future, (accepted on 2025.03.12)
19) 福本侑・香月興太・中西利典・北川浩之:隠岐諸島島後,女池における過去約千年間の水環境変化.LAGUNA 32,37-49. (2025.04)
20) 濱田真実・入月俊明・辻本 彰・瀬戸浩二, 2025. 島根県東部島根半島に分布する下〜中部中新統成相寺層から産出した魚鱗化石と古環境.地球科学,79,67-80.(2025.04)
21) 中島広喜・太田悠造・大澤正幸: 本州沿岸岩礁域から発見されたフトユビシャコ上科2種の記録. タクサ (accepted on 2025.03.06)
著書・報告書など
1) 堀之内正博: 第3章3.8潜水観察.加納光樹ほか編「稚魚学のすすめ」、生物研究社(2025.04.15)
2) 大澤正幸: 2-95. トゲエビ亜綱 Hoplocarida. 節足動物の事典、朝倉書店(掲載準備中)
3) 川井田俊・辻井要介・大澤正幸:十脚目.仲村康秀ほか編「小型ベントス・プランクトン図鑑」、朝倉書店(投稿中)
4) 川井田俊: 消化を助ける酵素のはなし.仲村康秀ほか編「小型ベントス・プランクトン図鑑」、朝倉書店(投稿中)
5) 大澤正幸:口脚目.仲村康秀ほか編「小型ベントス・プランクトン図鑑」、朝倉書店(投稿中)
6) 香月興太, 2025. 宍道湖・中海(微化石).日本第四紀学会監修、図説 日本の自然史―第四紀の人と環境―、朝倉書店(投稿中)
7) 齋藤文紀, 2025. 宍道湖・中海(形成史).日本第四紀学会監修、図説 日本の自然史―第四紀の人と環境―、朝倉書店(投稿中)