Phytoplankton growth and microzooplankton grazing in the Sea of Okhotsk during late summer of 2006

The Sea of Okhotsk is one of the most productive marine basins in the world ocean and plays an important role in transport of organic carbon and iron to the western subarctic Pacific. We report the first measurements of phytoplankton growth and microzooplankton grazing rates in the Sea of Okhotsk, i...

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Bibliographic Details
Published in:Deep Sea Research Part I: Oceanographic Research Papers
Main Authors: Liu, Hongbin, Suzuki, Koji, Nishioka, Jun, Sohrin, Rumi, Nakatsuka, Takeshi
Format: Article in Journal/Newspaper
Language:English
Published: 2009
Subjects:
Microzooplankton grazing
Phytoplankton growth
Sea of Okhotsk
Synechococcus
Dilution experiment
Okhotsk
Pacific
Sakhalin
Subarctic
Online Access:http://repository.ust.hk/ir/Record/1783.1-31636
https://doi.org/10.1016/j.dsr.2008.12.003
http://lbdiscover.ust.hk/uresolver?url_ver=Z39.88-2004&rft_val_fmt=info:ofi/fmt:kev:mtx:journal&rfr_id=info:sid/HKUST:SPI&rft.genre=article&rft.issn=0967-0637&rft.volume=56&rft.issue=4&rft.date=2009&rft.spage=561&rft.epage=570&rft.aulast=Liu&rft.aufirst=Hongbin&rft.atitle=Phytoplankton+growth+and+microzooplankton+grazing+in+the+Sea+of+Okhotsk+during+late+summer+of+2006
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Summary:The Sea of Okhotsk is one of the most productive marine basins in the world ocean and plays an important role in transport of organic carbon and iron to the western subarctic Pacific. We report the first measurements of phytoplankton growth and microzooplankton grazing rates in the Sea of Okhotsk, in late summer of 2006. The study area can be divided into two areas: nutrient-sufficient waters on the continental shelf along the east coast of Sakhalin Island and in the vicinity of Bussol Strait, and surface nutrient-depleted waters beyond the shelf break and in the vicinity of Sakhalin Bay. Phytoplankton growth rate in the studied area was strongly affected by nutrient availability, with high phytoplankton growth rate (0.55 +/- 0.14 d(-1)) in the nutrient-replete region and severely depressed growth (0.03 +/- 0.05 d(-1)) in the nutrient-depleted region. On the other hand, microzooplankton grazing rates in both the nutrient-replete and nutrient-depleted regions were approximately the same (0.26 +/- 0.20 d(-1) vs. 0.27 +/- 0.24 d(-1)). Consequently, microzooplankton grazing consumed <50\% of the phytoplankton growth in nutrient-rich waters but >3 times the phytoplankton growth in nutrient-depleted waters. Phytoplankton physiological condition as measured by the maximum photochemical quantum efficiency (F-v/F-m.) of algal photosystem II (PS II) showed a general trend in agreement with the in situ growth rate of phytoplankton. In contrast to the phytoplankton community, picophytoplankton, especially the cyanobacteria Synechococcus, showed no nutrient effect on their growth, and the growth and mortality rates were well balanced, suggesting that they have a low nutrient requirement and their biomass was controlled principally by microzooplankton grazing. (C) 2008 Elsevier Ltd. All rights reserved.

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