Low microzooplankton grazing rates in the Arctic Ocean during a Phaeocystis pouchetii bloom (Summer 2007): fact or artifact of the dilution technique?

We studied the structure and dynamics of the microbial community of Arctic waters during July 2007 using a microzooplankton grazing dilution approach. The sampling covered a latitudinal transect along the East Greenland Sea, and a series of stations in the high Arctic (up to 80°50′N), west and north...

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Bibliographic Details
Published in:Journal of Plankton Research
Main Authors: Calbet, Albert, Saiz, Enric, Almeda, Rodrigo, Movilla, Juan Ignacio, Alcaraz, Miquel
Format: Text
Language:English
Published: Oxford University Press 2010
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Online Access:http://plankt.oxfordjournals.org/cgi/content/short/fbq142v1
https://doi.org/10.1093/plankt/fbq142
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Summary:We studied the structure and dynamics of the microbial community of Arctic waters during July 2007 using a microzooplankton grazing dilution approach. The sampling covered a latitudinal transect along the East Greenland Sea, and a series of stations in the high Arctic (up to 80°50′N), west and north of the Svalbard Islands. A main feature of the area was the presence of Phaeocystis pouchetii , which formed dense blooms. Despite the considerable biomass of microzooplankton (mostly large ciliates and dinoflagellates), their grazing impact on phytoplankton, assessed as total chlorophyll a, was significant in only 6 out of 16 experiments, which resulted in 8% of the standing stock being consumed on average. Overall, phytoplankton instantaneous growth rates were very low and even negative at times (range: −0.24 to 0.14; average: −0.04 for total chlorophyll), which could not be attributed to nutrient limitation nor the estimated microzooplankton grazing. We present three non-exclusive explanations for this fact: (i) we were facing a senescent community in which many organisms were dying either as a result of virus infections or for other natural causes, as corroborated by parallel estimates of natural cell mortality using membrane permeability probes; (ii) the widespread and abundant P. pouchetii was probably deterring grazing and adversely affecting the entire planktonic community at the time of the study; and (iii) the dilution technique failed to give a real estimate of grazing (i.e. either non- significant or positive slopes), likely as a consequence of trophic cascades (decline of major grazers in the more concentrated treatments) combined with saturated-feeding responses. This last point calls for special attention when intending to use the dilution technique in productive environments, where grazing may be saturated.