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MATSUMOTO Yukio
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Research Areas 【 display / non-display 】
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Life Science / Ecology and environment
Papers 【 display / non-display 】
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Transgenerational acclimation to acidified seawater and gene expression patterns in a sea urchin
Akira Iguchi Kodai Gibu Makiko Yorifuji Miyuki Nishijima Atsushi Suzuki Tsuneo Ono Yukio Matsumoto Mayuri Inoue Masahiko Fujii Daisuke Muraoka Yamato Fujita Hideki Takami , 2024.04
Science of The Total Environment
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Grazing pressure of sea urchin Mesocentrotus nudus estimated from seawater temperature and wave height, and its effects on the early growth of annual kelp Saccharina japonica in northeastern Japan
Kousuke Yatsuya, Yukio Matsumoto , 2023.12
Journal of Experimental Marine Biology and Ecology
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Early filial cannibalism in fish revisited: endocrinological constraint, costs of parental care, and mating possibility
Takeshi Takegaki, Yosuke Nakatake, Yukio Matsumoto, Koushiro Suga, Noriko Amiya , 2023.01
The American Naturalist
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Deterioration of an annual kelp Saccharina japonica forest and its effects on dominant herbivores, sea urchin Mesocentrotus nudus and abalone Haliotis discus hannai, in northeast Japan
Kousuke Yatsuya, Yukio Matsumoto , 2023.01
Regional Studies in Marine Science
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The effect of brown kelp phenology on abalone locomotion and spatial distribution: acoustic telemetry and spatially explicit individual-based model approach
Yukio Matsumoto, Hideki Takami , 2022.10
Fisheries Science
Books 【 display / non-display 】
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魚類学の百科事典
松本 有記雄 , 2018.10
丸善出版株式会社 , 行動:求愛行動 , 0-0
Grant-in-Aid for Scientific Research 【 display / non-display 】
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Development of Population Size Estimation Considering Abalone Movement and Fisher's Behavior
Project Period (FY): 2024/04 - 2026/03 Investigator(s): 松本有記雄
Grant-in-Aid for Transformative Research Areas(A) (Publicly Research) Principal Investigator 24H01431
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Effect of substrate viscosity on invertebrate larval settlement
Project Period (FY): 2022/04 - 2025/03 Investigator(s): 松本 有記雄
Grant-in-Aid for Scientific Research(C) Principal Investigator 22K05791
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Where and when do abalone spawn?: effect of the hydrgen peroxide in the atmosphereon spanwing
Project Period (FY): 2019/04 - 2022/03 Investigator(s): Matsumoto Yukio
Grant-in-Aid for Scientific Research(C) Principal Investigator 19K06217
Previous studies observed spawning of Ezo abalone mainly occur during stormy weather, however, the stimulus of spawning had not been revealed. This study propose the possibility that water layers in the ocean are mixed and the surface layer containing H2O2 and Fe2+ interacts with the ocean bottom; this leads to conditions suitable for the occurrence of the Fenton reaction, which generate Hydroxylradicals (・OH) . We observed that Ezo abalone released eggs after salinity decreased as a result of rainfall during stormy conditions. Our tank experiment demonstrated that ・OH generated by the Fenton reaction induced synchronous spawning behavior between the sexes.
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The effect of stormy weather could be stronger in shallower area than deeper area. Our simulation model indicated abalone move to shallower area from deeper area in response to phenology of brown kelp that is abalone food. The food-searching behavior may induce abalone to move to shallower area wherespawning stimulus reach them.