S. Allouche et P. Gaudin, Effects of avian predation threat, water flow and cover on growth and habitat use by chub, Leuciscus cephalus, in an experimental stream, OIKOS, 94(3), 2001, pp. 481-492
Trophic interactions, including "top-down" predator-prey interactions, are
particularly important in influencing the structure of fish. communities. W
hile the varied impacts of piscivorous fish have been well investigated, th
e effects of fish-eating birds on riverine fish behaviour and population dy
namics still remain controversial, mainly because they are undervalued. Sum
mer experiments were conducted in an experimental outdoor stream to evaluat
e the effects of avian predation threat, stream flow, and overhead cover on
growth and behavioural tactics of wild juvenile chub (Leuciscus cephalus).
Groups of fifteen chub maintained in riffle-pool sequences were submitted
to combinations of different conditions, namely absence or presence of a si
mulated fish-eating bird, low or high flow, and absence or presence of medi
um or high cover. In the absence of predation threat, chub foraged in the r
iffles and maximized feeding opportunities. Under predation threat, they sh
eltered, foraged less and grew slowly and as expected, they increased their
use of the riffles at high flow as water turbulence is an efficient shelte
r from birds but only in the absence of cover. In the presence of cover, fi
sh sheltered exclusively under pool covers and were more prone to take risk
s at low flow because of higher costs in terms of lost feeding opportunitie
s associated with these conditions. This result indicates that flow velocit
y altered cover use tactics through its impact on food supply, suggesting t
hat it may affect the outcome of predator-prey relationships. So, chub use
cover in a flexible manner according to both the benefits in terms of preda
tor avoidance and the costs in terms of lost feeding opportunities. A strik
ing finding of the experiments is the drastic reduction in the range of gro
wth variances amongst fish when they are maintained under predation threat,
suggesting a homogenization of fitness between individuals. From all our r
esults, we argue that in lowland streams, under summer field situations, fi
sh-eating birds may affect local prey population dynamics more through sub-
lethal effects on growth rates than directly through death rates.