1. Interactions between trees and tree-feeding insects are likely to s
hift under conditions of enriched atmospheric CO2 owing to changes in
foliar chemical composition. This study addressed the effects of CO2-m
ediated changes in leaf chemistry on performance of three silkmoth (Sa
turniidae) species: cecropia (Hyalophora cecropia), luna (Actias luna)
and polyphemus (Antheraea polyphemus polyphemus). 2. Growth under ele
vated CO2 atmospheres decreased nitrogen concentrations (23%) but trip
led starch and doubled condensed tannin concentrations, resulting in a
marked increase in foliar carbon:nitrogen ratio. 3. Survival of first
stadium larvae was marginally reduced when reared on high CO2 leaves.
4. Development rates were prolonged, growth rates tended to decline,
consumption increased and food processing efficiencies decreased for f
ourth stadium larvae reared on high CO2 leaves. The magnitude of respo
nses varied among species. 5. Overall performance of these saturniid s
pecies, at least when feeding on birch, is predicted to decline under
atmospheric CO2 conditions anticipated for the next century.