Oscillatoria spp. are generally very abundant in many shallow, eutrophic la
kes in the Netherlands. However, this is less true for Daphnia galeata. The
main aim of this study was to investigate whether the edibility of live Os
cillatoria limnetica by Daphnia galeata, and of the detritus derived from t
his filamentous cyanobacterium, was, among others, an important limiting fa
ctor for the daphnids. We measured the consumption and assimilation rates o
f Daphnia using dual-labelling radio-tracer techniques (C-14 and P-32) to l
abel separately the live Oscillatoria filaments and detritus prepared from
these filaments. The two food types were mixed in different proportions, an
d both the food ingestion and food incorporation rates by daphnids were mea
sured. The main findings of this study were that specific clearance rates o
f Daphnia on shorter Oscillatoria filaments were significantly higher than
on the longer filaments, in other words the weight-specific ingestion rates
were higher on the shorter Oscillatoria filaments than on the longer filam
ents from the batch cultures, The longer Oscillatoria filaments are more li
ke v to clump and, therefore, are more liable to be rejected by Daphnia dur
ing the food collection and ingestion processes. The shorter filaments, in
comparison, are apparently less prone to clumping and, therefore, are clear
ed by the daphnids at higher rates than the longer filaments. Feeding the d
aphnids on double-labelled (C-14 and P-32) shorter filaments revealed that
the assimilation efficiency of shorter Oscillatoria filaments was generally
higher for P than for C, probably because of a high CIP ratio of Oscillato
ria. Daphnia (0.75-1.85 mm in size)fed significantly better on dead (detrit
us) Oscillatoria filaments than on live Oscillatoria filaments, even if the
relative proportion of detritus in the food was only about one-quarter tha
t of the live filaments. This preference for detritus over live Oscillatori
a, as indicated by Chesson's selectivity coefficient a, was apparently a pa
ssive process, rather than a case of active food selection. This 'selective
' feeding on detritus was apparently facilitated by the relatively greater
rejection of the live filaments than the detrital filaments. At very high f
ood concentrations (15-25 mg Cl-1), with the share of the live Oscillatoria
filaments 2 to 2.5 times greater than that of the detritus, the ingestion
rates increased proportionally less with increase in daphnid size than was
expected on the basis of the allometric relationship between the length and
weight of these animals. This implies that the larger animals had greater
interfering effects of the Oscillatoria filaments on the food collection an
d ingestion processes.