Zooplankton grazing on Phaeocystis: a quantitative review and future challenges View Full Text


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Article Info

DATE

2007-03

AUTHORS

Jens C. Nejstgaard, Kam W. Tang, Michael Steinke, Jörg Dutz, Marja Koski, Elvire Antajan, Jeremy D. Long

ABSTRACT

The worldwide colony-forming haptophyte phytoplankton Phaeocystis spp. are key organisms in trophic and biogeochemical processes in the ocean. Many organisms from protists to fish ingest cells and/or colonies of Phaeocystis. Reports on specific mortality of Phaeocystis in natural plankton or mixed prey due to grazing by zooplankton, especially protozooplankton, are still limited. Reported feeding rates vary widely for both crustaceans and protists feeding on even the same Phaeocystis types and sizes. Quantitative analysis of available data showed that: (1) laboratory-derived crustacean grazing rates on monocultures of Phaeocystis may have been overestimated compared to feeding in natural plankton communities, and should be treated with caution; (2) formation of colonies by P. globosa appeared to reduce predation by small copepods (e.g., Acartia, Pseudocalanus, Temora and Centropages), whereas large copepods (e.g., Calanus spp.) were able to feed on colonies of Phaeocystis pouchetii; (3) physiological differences between different growth states, species, strains, cell types, and laboratory culture versus natural assemblages may explain most of the variations in reported feeding rates; (4) chemical signaling between predator and prey may be a major factor controlling grazing on Phaeocystis; (5) it is unclear to what extent different zooplankton, especially protozooplankton, feed on the different life forms of Phaeocystis in situ. To better understand the mechanisms controlling zooplankton grazing in situ, future studies should aim at quantifying specific feeding rates on different Phaeocystis species, strains, cell types, prey sizes and growth states, and account for chemical signaling between the predator and prey. Recently developed molecular tools are promising approaches to achieve this goal in the future. More... »

PAGES

147-172

References to SciGraph publications

  • 1990-02. Lipids, and their constituent fatty acids, ofPhaeocystis sp. from the Arabian Gulf in MARINE BIOLOGY
  • 1990-07. Growth and grazing loss rates in single-celledPhaeocystis sp. (Prymnesiophyceae) in MARINE BIOLOGY
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  • 1997-06. Grazing-activated chemical defence in a unicellular marine alga in NATURE
  • 1999-11. No feeding on Phaeocystis sp. as solitary cells (post-bloom period) by the copepod Temora longicornis in the coastal waters of the English Channel in HYDROBIOLOGIA
  • 1999-10. Investigations on uptake and utilization ofPhaeocystis globosa colonies by the blue musselMytilus edulis in MARINE BIODIVERSITY
  • 2007-03. Environmental constraints on the production and removal of the climatically active gas dimethylsulphide (DMS) and implications for ecosystem modelling in BIOGEOCHEMISTRY
  • 2003-01. Development and grazing of Temora longicornis (Copepoda, Calanoida) nauplii during nutrient limited Phaeocystis globosa blooms in mesocosms in HYDROBIOLOGIA
  • 2004-09-24. Chemical Defense Strategies of Marine Organisms in THE CHEMISTRY OF PHEROMONES AND OTHER SEMIOCHEMICALS I
  • 2007-03. The carbohydrates of Phaeocystis and their degradation in the microbial food web in BIOGEOCHEMISTRY
  • 1999-05. Flow cytometry in molecular aquatic ecology in HYDROBIOLOGIA
  • 1994-01. Planktonic copepods of Boston Harbor, Massachusetts Bay and Cape Cod Bay, 1992 in HYDROBIOLOGIA
  • 1990-08. Are blue-green algae a suitable food for zooplankton? An overview in HYDROBIOLOGIA
  • 1982-05. Estimating the grazing impact of marine micro-zooplankton in MARINE BIOLOGY
  • 2005-03-18. Assessing feeding of a carnivorous copepod using species-specific PCR in MARINE BIOLOGY
  • 1985-02. Carbon assimilation and lipid production in phytoplankton in northern Norwegian fjords in MARINE BIOLOGY
  • 1999. Flow cytometry in molecular aquatic ecology in MOLECULAR ECOLOGY OF AQUATIC COMMUNITIES
  • 2007-03. Phaeocystis and its interaction with viruses in BIOGEOCHEMISTRY
  • 1995-03. Trophic interactions between zooplankton andPhaeocystis cf.globosa in HELGOLAND MARINE RESEARCH
  • 1989-01. Nutritional value of Phaeocystis pouchetii (Prymnesiophyceae) and other phytoplankton for Acartia spp. (Copepoda): ingestion, egg production, and growth of nauplii in MARINE BIOLOGY
  • 1990-06. Calculating carbon biomass ofPhaeocystis sp. from microscopic observations in MARINE BIOLOGY
  • 1995-08. Dimethyl sulphide as a foraging cue for Antarctic Procellariiform seabirds in NATURE
  • 1955-06. Beobachtungen anPhaeocystis-Kulturen in HELGOLAND MARINE RESEARCH
  • 2007-03-10. Haemolytic activity of live Phaeocystis pouchetii during mesocosm blooms in BIOGEOCHEMISTRY
  • Identifiers

    URI

    http://scigraph.springernature.com/pub.10.1007/s10533-007-9098-y

    DOI

    http://dx.doi.org/10.1007/s10533-007-9098-y

    DIMENSIONS

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