Sd. Archer et al., Impact of microzooplankton on the progression and fate of the spring bloomin fjords of northern Norway, AQUAT MIC E, 22(1), 2000, pp. 27-41
The objective of the study was to determine the role of microzooplankton in
the fate of primary production and progression of the spring phytoplankton
bloom in high latitude fjords. The 3 fjords, Balsfjord, Malangen and Ullsf
jord (Norway), varied in oceanic influence and in the rate of development o
f the spring bloom. The abundance of Phaeocystis pouchetii was relatively l
ow in the spring of 1997 compared to previous years, and diatoms dominated
the biomass of the phytoplankton assemblage in all 3 fjords. The mean bioma
ss of microzooplankton in the top 20 m averaged 72, 66 and 80 mg C m(-3) an
d values integrated to 170 m averaged 4560, 4450 and 6820 mg C m(-2) in Bal
sfjord, Malangen and Ullsfjord, respectively. The composition of the microz
ooplankton was consistent among the fjords and over time, with the proporti
on of biomass split evenly between nanoflagellates, dinoflagellates and cil
iates. Grazing rates of the microzooplankton community were measured with t
he dilution technique. The impact of microzooplankton grazing was similar a
mong the fjords, accounting for on average 68, 63 and 55% of the production
of the <200 pm phytoplankton in Balsfjord, Malangen and Ullsfjord, respect
ively. When integrated to 20 m, based on a microzooplankton biomass-specifi
c ingestion rate, microzooplankton grazing accounted for an estimated 12 to
26% of the gross primary production. However, this does not account for th
e carbon requirements of a substantial proportion of the microzooplankton t
hat occurred below 20 m. Clearance rates by ciliates of nanophytoplankton c
ells of a similar size to the single cells of P. pouchetii were determined
from the uptake rates of fluorescently labelled algae (FLA). Generally, the
taxa of ciliates that were found to ingest FLA accounted for greater than
or equal to 50% of the abundance of the ciliate population in each fjord. T
axon-specific ciliate clearance rates of FLA in surface waters varied with
ciliate size from 5.6 to 1.3 mu l cell(-1) h(-1). The FLA-consuming ciliate
population cleared a total of 27 x 10(3) to 141 x 10(3) mu l l(-1) d(-1) i
n surface waters. The ingestion rates of the FLA-consuming ciliates were eq
uivalent to between 11 and 29% of the total microzooplankton consumption. I
t is possible that the grazing pressure exerted by the microzooplankton on
single cells and small colonies was high enough to decrease the overall com
petitiveness of the P. pouchetii populations and contribute to their low ab
undance.