C. Dupuy et al., Impact of the oyster Crassostrea gigas on a microbial community in Atlantic coastal ponds near La Rochelle, AQUAT MIC E, 22(3), 2000, pp. 227-242
To assess the in situ impact of oysters Crassostrea gigas on planktonic pro
tist and bacteria communities and the potential contribution of protozoa to
their food resource intake, the abundance and the diversity of protists an
d bacteria were followed in 2 Atlantic coastal ponds, with and without oyst
ers. The protist biomass in such ponds was high, with a maximum in spring o
f 982 mug C l(-1) and a minimum in winter of 179 pg C l(-1). Whatever the s
eason, the presence of oysters (20 m(-2) corresponding to an average of 23
mg dry weight m(-2)) induced a significant decrease in >5 pm protist abunda
nce. On the contrary, planktonic organisms <5 pm, such as Chlorophyta flage
llates and bacteria, developed similarly in both ponds. It can be assumed t
hat such depletion in micro-sized protists was especially related to the gr
azing activity of C. gigas, which efficiently retains >5 pm particles. In s
pring, oyster grazing triggered dramatic changes in the protist community b
y lowering the taxonomic diversity. In autumn and winter, the presence of o
ysters deeply influenced the taxonomic structure of the protist communities
: > Fun protists could only develop in the control pond, whereas they were
removed by filtration in the oyster pond; on the contrary, >5 Fun protists
that were not retained were favoured in the oyster pond. The results showed
that hetero/mixotrophic protists represent an important potential resource
in coastal ponds: flagellates >5 pm were the main protist resource for C.
gigas; ciliates represented the second resource, with a substantial contrib
ution in autumn; diatoms and dinoflagellates, though efficiently removed, r
epresented a weak carbon resource. Our study supports the hypothesis that o
ysters may access the strong bacterioplanktonic production through hetero/m
ixotrophic protists, which would thus allow the transfer of carbon from the
microbial loop towards C. gigas.