Response of Eucalanus bungii to oceanographic conditions in the western subarctic Pacific Ocean: Retrospective analysis of the Odate Collections |
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Authors: | Toru Kobari Kazuaki Tadokoro Hiroya Sugisaki Hiroshi Itoh |
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Affiliation: | aAquatic Resource Science Division, Kagoshima University, Faculty of Fisheries, Shimoarata 4-50-20, Kagoshima 890-0056, Japan;bMixed Water Region Fishery Oceanography Division, Tohoku National Fisheries Research Institute, Japan;cMarine Productivity Division, National Research Institute of Fisheries Science, Japan;dSuidosha Co. Ltd., Japan |
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Abstract: | To evaluate their response to oceanographic conditions, interannual variations in seasonal abundance of Eucalanus bungii were investigated in zooplankton samples collected from the Oyashio Current system from 1960 to 2002. Large decadal changes were observed in seasonal timing and population age-structure. During the early 1970s and 1990s, E. bungii were abundant until mid-summer, but during the late 1970s and early 1980s, the season of maximum abundance was limited to spring and early summer. From the late 1970s to early 1980s, spring–summer abundance of newly recruited young copepodites (C1–C2) declined significantly, and an even more pronounced decline was observed for the abundance of the late copepodite stages (C3–C5). Monthly population structure showed that young of the year stopped development at C3 during the late 1970s to early 1980s, but molted into late copepodite stages in the other decades. Seasonal weakening of the Aleutian Low Pressure System estimated from North Pacific Index (NPI) was rapid during the late 1970s to early 1980s, and the NPI was positively correlated with phosphate concentrations at sea surface, spring–summer abundance of the young copepodites stages, and the extended duration of the season of high abundance. These results suggest that the decadal decline of copepod abundance originated at the early life stages, and was associated with a shift of atmospheric and oceanographic conditions. As possible biological mechanisms, we propose reduced egg production, lower survival for the portion of the annual cohort with late birth date, and overwintering of the survivors at younger stages. |
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Keywords: | Zooplankton Time-series analysis Climatic changes Food availability Survival Oyashio |
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