Journal of Plankton Research

JPR Advance Access published online on June 28, 2009
Journal of Plankton Research, doi:10.1093/plankt/fbp050

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Photosynthetic features and primary productivity of phytoplankton in the Oyashio and Kuroshio–Oyashio transition regions of the northwest Pacific

Tomonori Isada^1,*, Akira Kuwata², Hiroaki Saito², Tsuneo Ono³, Masao Ishii⁴, Hisayuki Yoshikawa-Inoue^1,5 and Koji Suzuki^1,5

¹ Graduate School of Environmental Science, Hokkaido University, Sapporo, Hokkaido 060-0810, Japan ² Tohoku National Fisheries Research Institute, Shiogama, Miyagi 985-0001, Japan ³ Hokkaido National Fisheries Research Institute, Hokkaido 085-0802, Japan ⁴ Geochemical Research Department, Meteorological Research Institute, Tsukuba, Ibaraki 305-0052, Japan ⁵ Faculty of Environmental Earth Science, Hokkaido University, Sapporo, Hokkaido 060-0810, Japan

^* CORRESPONDING AUTHOR: t-isada{at}ees.hokudai.ac.jp

Received on February 18, 2009; accepted on June 3, 2009

	Abstract

Diel and seasonal changes in the photosynthetic physiology of phytoplankton and primary productivity were investigated during 2005, together with community composition in the Oyashio (OY) and Kuroshio–Oyashio transition (TR) regions of the northwest Pacific. In both regions, diel changes in the maximum photosynthetic rate (P*_max) and the light saturation index (E_k) in the photosynthesis–irradiance (P–E) curve were observed, due to diel differences in photo-physiology. In the OY region, the highest values of chlorophyll a concentration, depth-integrated primary production and the maximum quantum yield of carbon fixation in photosynthesis (_{c max}) were observed in May when diatom blooms occurred. Furthermore, a higher water-column light utilization efficiency () of photosynthesis for phytoplankton was found in the OY region in both May and September. In contrast, in the TR and warm-core ring regions, _{c max} was nearly constant, while depth-integrated primary production in May was significantly lower than in the OY region. These results show that the spring phytoplankton assemblages in OY waters had a higher light utilization ability during photosynthesis. Such a high photosynthetic property would contribute to the highest seasonal biological drawdown of surface pCO₂ among the world's oceans (Takahashi, T., Sutherland, S. C., Sweeney, C. et al. (2002) Global sea–air CO₂ flux based on climatological surface ocean pCO₂, and seasonal biological and temperature effects. Deep-Sea Res. II, 49, 1601–1622).

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Corresponding editor: William Li

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