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摂南大学農学部海洋生物学研究室
SUMB Lab - Setsunan University Marine Biology Lab
研究成果
2020年以降の研究業績リストです。
論文
2024年
・Iguchi, A.*, M. Hayashi, M. Yorifuji, M. Nishijima, K. Gibu, T. Kunishima, T. Bell, A. Suzuki, and T. Ono
(2024). Whole transcriptome analysis of demersal fish eggs reveals complex responses to ocean
deoxygenation and acidification. Science of The Total Environment, 2024:169484 (in press)
・國島大河 (2024). 小笠原諸島母島から得られたコブキカイウツボ. Ichthy - Natural History of Fishes of
Japan, 40: 29–34.
2023年
・Masuda, T., Y. Shimono, D. Kishi, and I. Koizumi (2023) Systematic headwater sampling of white‐spotted
charr reveals stream capture events across dynamic topography. Journal of Biogeography, 50: 453–466.
・國島大河・松野茂富・佐藤真央 (2023). 西表島で採集されたカガミテンジクダイYarica hyalosoma
(Bleeker, 1852). Fauna Ryukyuana, 67: 15–20.
・堺 響暉・國島大河 (2023). 和歌山県串本町から得られた本州初記録のクラカケエビス.
Ichthy - Natural History of Fishes of Japan, 35: 16–19.
・Kise, H., A. Iguchi*, T. Ikegami, Y. Onishi, K. Goto, Y. Tanaka, T. W. Washburn, M. Nishijima,
T. Kunishima, N. Okamoto, and A. Suzuki. (2023). Genetic population structures of common scavenging species near hydrothermal vents in the Okinawa Trough. Scientific Reports, 13: 2348.
2022年
・Kunishima, T., H. P. Palla, K. Tachihara, and K. Maeda. (2022). First Records of an Estuarine Goby
Acentrogobius ocyurus (Gobiiformes: Gobiidae) from Japan and the Sulu Sea in the Philippines.
Species Diversity, 27(1): 129–138.
・國島大河・平嶋健太郎 (2022). 長崎県福江島の先不知井坑におけるオハグロテッポウエビ
Metabetaeus minutus (Whitelegge, 1897)の初記録. 日本生物地理学会会報, 77: 59–62.
・Teramura, A., H. Kohno, H. Senou, K. Kikuchi, S. Hirase, and T. Kunishima. (2022). A preliminary deep-sea fish fauna list with new and northernmost records, in the continental shelf to the upper continental slope in the east Enshu-nada Sea, central Japan. Plankton and Benthos Research, 17(1): 95–99.
・脇本総志・國島大河 (2022). 和歌山県串本町から得られた標本に基づく本州初記録のクロマスク.
Ichthy - Natural History of Fishes of Japan, 24: 46–49.
2021年
・Masuda, T. (2021) Update on the source of phenoloxidase activity in the hemolymph of kuruma prawn Marsupenaeus japonicus. Fisheries Science, 87:861–869.
・Matoba, Y., K. Oda, Y. Muraki and T. Masuda (2021). The basicity of an active-site water molecule
discriminates between tyrosinase and catechol oxidase activity.
International Journal of Biological Macromolecules, 183:1861–1870.
・Tanigaki, S., A. Uchino, S. Okawa, C. Miura, K. Hamamura, M. Matsuo, N. Yoshino, N. Ueno, Y. Toyama,
N. Fukumi, E. Kijima, T. Masuda, Y. Shimono, T. Tominaga and S. Iwakami (2021). Gene expression shapes
the patterns of parallel evolution of herbicide resistance in the agricultural weed Monochoria vaginalis.
New Phytologist, 232 ( 2 ): 928–940.
・Kunishima, T. and K. Tachihara. (2021). Patterns in diversity and species composition in soft-sediment tidepool fishes across topographical types: implications for conservation with spatial nuances.
Marine Environmental Research, 170: 105442
・Kunishima, T., R. Tanaka, K. Hirashima and K. Maeda. (2021). Northernmost record of Stiphodon multisquamus (Gobiiformes: Oxudercidae) based on a specimen from Wakayama, Japan.
Species Diversity, 26: 37–41.
・Kunishima, T., H. Saimaru and K. Tachihara. (2021). Reproductive traits of the dwarf gobies Pandaka trimaculata and P. lidwilli in the western Pacific Ocean: histological evidence from one of the smallest fishes in the world. Journal of Fish Biology, 98: 733–742.
・Kunishima, T., S. Higuchi, Y. Kawabata, K. Furumitsu, I. Nakamura, A. Yamaguchi, K. Tachihara, M. Tokeshi and S. Arakaki. (2021). Age, growth, and reproductive biology of the blackfin seabass Lateolabrax latus, a major predator in rocky coastal ecosystems of southwestern Japan.
Regional Studies in Marine Science. 41: 101597
・Kunishima, T. , K. Maeda, R. Inui and Y. Hibino. (2021). First Japanese record of Muraenichthys gymnopterus (Anguilliformes, Ophichthidae) from Ishigaki-jima Island, Ryukyu Archipelago.
Species Diversity, 26: 343–349.
・國島大河 (2021). 和歌山県和歌浦干潟におけるマサゴハゼの繁殖期と寿命の推定.
ICHTHY - Natural History of Fishes of Japan, 15: 17–21.
・Maeda, K., C. Shinzato, R. Koyanagi, T. Kunishima, H. Kobayashi, N. Satoh, and H. P. Palla. (2021). Two new species of Rhinogobius (Gobiiformes: Oxudercidae) from Palawan, Philippines, with their phylogenetic placement. Zootaxa, 5068: 81–98.
・Maeda, K., H. Kobayashi, H. P. Palla, C. Shinzato, R. Koyanagi, J. Montenegro, A. J. Nagano, T. Saeki,
T. Kunishima, T. Mukai, K. Tachihara, V. Laudet, N. Satoh and K. Yamahira. (2021). Do colour-morphs of an amphidromous goby represent different species? Taxonomy of Lentipes (Gobiiformes) from Japan and Palawan, Philippines, with phylogenomic approaches. Systematics and Biodiversity, 19: 1080-1112.
・松尾 怜・國島大河 (2021). 和歌山県串本町から採集された北限記録のミナミフエダイLutjanus ehrenbergii. ICHTHY - Natural History of Fishes of Japan, 6: 38–40.
・脇本総志・國島大河 (2021). 和歌山県串本町から得られた標本に基づく本州初記録のキテンハタ
Epinephelus bleekeri. ICHTHY - Natural History of Fishes of Japan, 4: 22–25.
2020年
・Masuda, T., S. Baba, K. Matsuo, S. Ito and B. Mikami. (2020). The High-Resolution Crystal Structure of Lobster Hemocyanin Shows Its Enzymatic Capability as a Phenoloxidase.
Archives of Biochemistry and Biophysics, 688: 108370.
・Okuda, A., M. Matsusaki, T. Masuda, K. Morishima, N. Sato, R. Inoue, M. Sugiyama and R. Urade. (2020). A novel soybean protein disulphide isomerase family protein possesses dithiol oxidation activity: identification and characterization of GmPDIL6. Journal of Biochemistry,168 ( 4 ): 393–405.
・Kunishima, T. and K. Tachihara. (2020). What ecological role do soft-substrate tidepools play for fishes? Difference in community structures between estuarine and coastal tidal flats in subtropical Japan.
Marine and Freshwater Research, 71: 737–749.
・國島大河・高田賢人・松野茂富 (2020). 北山村で採集された標本に基づく和歌山県初記録のサワガニ青色
型. 日本生物地理学会会報, 75: 120–122.
・Yamana, Y., T. Kunishima, M. Obuchi and T. Fujii. (2020). A preliminary evaluation of the distribution pattern of sea cucumbers in the semi-closed waters of the Amami Islands.
Plankton and Benthos Research, 15(2): 168–177.
・Tanaka, R., K. Hirashima, T. Kunishima, H. Uno and T. Sato. (2020). Phenological diversity of freshwater migration can prolong assemblage-level migration period in amphidromous fishes in a temperate river system in Japan. Ecological Research, 35(3): 494–503 [special issue]
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