• Barbosa P, Caldas A & Robinson G (2003) Host plant association among species in two macrolepidopteran assemblages. Journal of Entomological Science 38: 4147.
  • Barbosa P, Segarra A & Gross P (2000) Structure of two macrolepidoptera assemblages on Salix nigra (Marsh) and Acer negundo L.: abundance, diversity, richness, and persistence of scarce species. Ecological Entomology 25: 374379.
  • Barbosa P, Segarra AE, Gross P, Caldas A, Ahlstrom K, Carlson RW, Ferguson DC, Grissell EE, Hodges RW, Marsh PM, Poole RW, Schauff ME, Shaw SR, Whitfield JB & Woodley NE (2001) Differential parasitism of macrolepidopteran herbivores on two deciduous tree species. Ecology 82: 698704.
  • Barbosa P, Waldvogel M, Martinat P & Douglass LW (1983) Developmental and reproductive performance of the gypsy moth, Lymantria dispar (L.) (Lepidoptera: Lymantriidae), on selected hosts common to mid-Atlantic and southern forests. Environmental Entomology 12: 18581862.
  • Benrey B & Denno RF (1997) The slow-growth-high-mortality hypothesis: a test using the cabbage butterfly. Ecology 78: 987999.
  • Bouton CE (1984) Plant defensive traits: translation of their effects on herbivorous insects not reduced plant damage. PhD Thesis. University of Illinois at Urbana-Champaign, Urbana, IL.
  • Clancy KM & Price PW (1987) Rapid herbivore growth enhances enemy attack: sublethal plant defenses remain a paradox. Ecology 68: 736738.
  • Craig TP, Itami JK & Price PW (1990) The window of vulnerability of a shoot galling sawfly to attack by a parasitoid. Ecology 71: 14711482.
  • Damman H (1987) Leaf quality and enemy avoidance by larvae of a pyralid moth. Ecology 86: 8797.
  • Denno RF, Larsson S & Olmstead KL (1990) Role of enemy free-space and plant quality in host-plant selection by willow beetles. Ecology 71: 124137.
  • Feeny PP (1976) Plant apparency and chemical defense. Recent Advances in Phytochemistry 10: 140.
  • Häggström H & Larsson S (1995) Slow larval growth on a suboptimal willow results in high predation mortality in the leaf beetle Galerucella lineola. Oecologia 104: 308315.
  • Johnson TM & Gould F (1992) Interaction of genetically engineered host plant resistance and natural enemies of Heliothis virescens (Lepidoptera: Noctuidae) in tobacco. Environmental Entomology 21: 586597.
  • Johnson WT & Lyon HH (1976) Insects That Feed on Trees and Shrubs. Cornell University Press, New York, USA.
  • Kaspi R, Mossinson S, Drezner T, Kamensky B & Yuval B (2002) Effects of larval diet on development rates and reproductive maturation of male and female Mediterranean fruit flies. Physiological Entomology 27: 2938.
  • Lill JT & Marquis RJ (2001) The effects of leaf quality on herbivore performance and attack from natural enemies. Oecologia 126: 418428.
  • Loader C & Damman H (1991) Nitrogen content of food plants and vulnerability of Pieris rapae to natural enemies. Ecology 72: 15861590.
  • Luck RF (1990) Evaluation of natural enemies for biological control: a behavioral approach. Trends in Ecology and Evolution 5: 196199.
  • Medina RF & Barbosa P (2003) Predation of small and large Orgyia leucostigma (JE Smith) (Lepidoptera: Lymantriidae) larvae by vertebrate and invertebrate predators. Environmental Entomology 31: 10971102.
  • Parry D, Spence JR & Volney WJA (1998) Budbreack phenology and natural enemies mediate survival of first-instar forest tent caterpillar (Lepidoptera: Lasiocampidae). Environmental Entomology 27: 13681374.
  • Price PW, Bouton CE, Gross P, McPheron BA, Thompson JN & Weis AE (1980) Interactions among three trophic levels: influence of plant on interactions between insect herbivores and natural enemies. Annual Review of Ecology and Systematics 11: 4165.
  • SAS Institute (1998) SAS/STAT User's Guide, Version 7. SAS Institute, Cary, NC.
  • Slansky F & Feeny P (1977) Stabilization of the rate of nitrogen accumulation by larvae of the cabbage butterfly on wild and cultivated food plants. Ecological Monographs 47: 209228.
  • Tammaru T, Esperk T & Castellanos I (2002) No evidence for costs of being large in females of Orgyia spp. (Lepidoptera, Lymantriidae): larger is always better. Oecologia 133: 430438.
  • Weseloh RM (1984) Effect of the feeding inhibitor Plictran and low Bacillus thuringiensis Berliner doses on Lymantria dispar (L.) (Lepidoptera: Lymantriidae): implications for Cotesia melanoscelus (Ratzeburg) (Hymenoptera: Braconidae). Environmental Entomology 13: 13711376.
  • Williams IS (1999) Slow-growth, high-mortality a general hypothesis, or is it? Ecological Entomology 24: 490495.