Research result
Ecosystem
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Climate-driven shifts in marine habitat explain recent declines of Japanese Chum salmon
Alabia, I.D.; Saitoh, S.-I.; García Molinos, J.; Hirata, T.; Miyakoshi, Y.; Takahashi, F.; Ueno, H.; Kaeriyama, M. 2025. Climate-driven shifts in marine habitat explain recent declines of Japanese Chum salmon. Scientific Reports 15, 41747. https://doi.org/10.1038/s41598-025-26397-z
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Aquaculture coupled with trade is sustaining growth and improving stability in global aquatic food supply
Zhao, K.; Gaines, S.D.; García Molinos, J.; Du, J.; Wang, H; Zhang, M.; Xu, J. 2025. Aquaculture coupled with trade is sustaining growth and improving stability in global aquatic food supply. Aquaculture, 613 (2), 743460. https://doi.org/10.1016/j.aquaculture.2025.743460
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Integrating expert range maps and opportunistic occurrence records of marine fish species in range estimates
Zhang, Z.; Bede-Fazekas, Á.; García Molinos, J.; Mammola, S.; Kass, J. M.; Qu, J.; Oeser, J.; Yuan, S.; Zhang, C.; Gu, J.; Ding, L.; Lin, Q. 2025. Integrating expert range maps and opportunistic occurrence records of marine fish species in range estimates. Conservation Biology, e70154. https://doi.org/10.1111/cobi.70154
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Towards an integrated assessment of the Arctic marine ecosystems in response to abrupt environmental changes: Contribution from the Arctic Challenge for Sustainability II (ArCS II) project
Hirata, T.; Alabia, I.D.; Fujiwara, A.; Fukai, Y.; García Molinos, J.; Kasai, A.; Kawakami, T.; Matsuno, K.; Onodera, J.; Shiozaki, T.; Ueno, H.; Watanabe, E. (2025). Towards an integrated assessment of the Arctic marine ecosystems in response to abrupt environmental changes: Contribution from the Arctic Challenge for Sustainability II (ArCS II) project, Polar Science, 101260, https://doi.org/10.1016/j.polar.2025.101260
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海色衛星リモートセンシングの展望
平田貴文, 2025. 海色衛星リモートセンシングの展望. Journal of Advanced Marine Science and Technology Society, 29, pp.49-56.
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Differences in predictions of marine species distribution models based on expert maps and opportunistic occurrences
Zhang, Z.; Kass, J. M.; Bede-Fazekas, Á.; Mammola, S.; Qu, J.; García Molinos, J.; Gu, J.; Huang, H.; Qu, M.; and Yue, Y. 2025. Differences in predictions of marine species distribution models based on expert maps and opportunistic occurrences. Conservation Biology, e70015. https://doi.org/10.1111/cobi.70015
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Seasonal habitat use of ringed seals in the Thule area, northwestern Greenland
Sakuragi, Y., Rosing-Asvid, A., Sugiyama, S. and Mitani, Y. 2024. Seasonal habitat use of ringed seals in the Thule area, northwestern Greenland. Polar Science, 101145, https://doi.org/10.1016/j.polar.2024.101145
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Strategic planning could reduce farm-scale mariculture impacts on marine biodiversity while expanding seafood production
Ma, D.; Halpern, B. S.; Abrahms, B.; Allgeier, J.; García Molinos, J.; Free, C. M.; Frazier, M.; Kaschner, K.; Weeks, B. C.; and Carter, N. H. 2025. Strategic planning could reduce farm-scale mariculture impacts on marine biodiversity while expanding seafood production. Nature Ecology & Evolution, 9, 565–575. https://doi.org/1038/s41559-025-02650-6
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Synchronization of bowhead whales
Podolskiy, E.A., J. Teilmann, M.P. Heide-Jørgensen. 2024. Synchronization of bowhead whales, Physical Review Res., 6, 033174, 13 p., https://doi.org/10.1103/PhysRevResearch.6.033174
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Future redistribution of fishery resources suggests biological and economic trade-offs according to the severity of the emission scenario
Alabia, I. D.; García Molinos, J.; Hirata, T.; Narita, D.; and Hirawake, T. 2024. Future redistribution of fishery resources suggests biological and economic trade-offs according to the severity of the emission scenario. PlOS One, 19 (6): e0304718. https://doi.org/10.1371/journal.pone.0304718
