S. Ledergerber et al., FEEDING-BEHAVIOR OF JUVENILE SNAILS (HELIX-POMATIA) TO 4 PLANT-SPECIES GROWN AT ELEVATED ATMOSPHERIC CO2, Acta oecologica, 19(1), 1998, pp. 89-95
The feeding behaviour of juveniles of the land snail Helix pomatia was
examined in model plant communities consisting of Trifolium repens, H
ieracium pilosella, Bromus erectus and Prunella vulgaris that are comm
on species in extensively managed calcareous grasslands in the Swiss J
ura mountains. The plant communities were grown either at ambient (350
ppm) or elevated (600 ppm) CO2 concentrations. Leaves of T. repens an
d P. vulgaris grown in elevated atmospheric CO2 had a lower specific l
eaf area, and leaves of T. repens had lower percentage N on a dry weig
ht basis than leaves grown under ambient CO2 concentration. Snails fed
on all four plant species, but showed a overwhelming preference for T
. repens (percentages of total biomass consumed were 91.9 % at 350 ppm
and 97.6 % at 600 ppm). The species-specific feeding intensity of juv
enile H. pomatia did not differ between the two treatments. The total
dry weight of T. repens consumed by the snails was marginally greater
(P = 0.06) at elevated CO2, but there were no significant differences
in leaf N or leaf area eaten. These findings are similar to numerous o
ther studies showing that invertebrates increase their consumption of
plant material to balance reductions in plant N concentrations at elev
ated CO2 treatments. Helix pomatia that fed on plants grown at elevate
d CO2 atmosphere showed a larger increase in relative wet weight than
those that fed on plants from ambient CO2 conditions. However, the wei
ght gain of H. pomatia was poorly correlated with amount of plant tiss
ue consumed, so we suggest that the effect of CO2 on weight gain in H.
pomatia was due to a change in the quality of T. repens leaves. (C) E
lsevier, Paris.