Behavioral and morphological responses of an insect herbivore to low nutrient quality are inhibited by plant chemical defenses

Animals have several strategies to contend with nutritionally poor diets, including compensatory consumption and enhanced food utilization efficiencies. Plants produce a diversity of defense compounds that affect the ability of herbivores to utilize these strategies in response to variation in food...

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Bibliographic Details
Published in:Arthropod-plant interactions 2016-08, Vol.10 (4), p.341-349
Main Authors: Couture, J. J., Mason, C. J., Habeck, C. W., Lindroth, R. L.
Format: Article
Language:English
Subjects:
Allelochemicals
animals
Behavioral Sciences
Bioassays
Biomass
Biomedical and Life Sciences
Butterflies & moths
Chemical defense
chemical defenses
Diet
dry matter partitioning
Ecology
Entomology
Food
Food consumption
Food plants
Food quality
frass
Herbivores
Insects
Invertebrates
Larvae
Larval development
Life Sciences
Lymantria dispar
Midgut
Morphology
Nutrient deficiency
Nutritive value
Original Paper
phytophagous insects
Plant Pathology
Plant Sciences
Populus tremuloides
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Summary:Animals have several strategies to contend with nutritionally poor diets, including compensatory consumption and enhanced food utilization efficiencies. Plants produce a diversity of defense compounds that affect the ability of herbivores to utilize these strategies in response to variation in food nutritional quality. Little is known, however, about effects of allelochemicals on herbivores utilizing integrated behavioral and morphological responses to reduced food quality. Our objectives were to (1) examine how variation in diet nutritional quality influences compensatory responses of a generalist insect herbivore, and (2) determine how plant defenses affect these processes. Gypsy moth ( Lymantria dispar ) larvae were administered one of nine combinations of diet having low, moderate, or high nutritional quality and 0, 2, or 4 % purified aspen ( Populus tremuloides ) salicinoids. We quantified larval growth, consumption, frass production, and biomass allocation to midgut tissue over a 4-day bioassay. In the absence of salicinoids, larvae compensated for reduced nutritional quality and maintained similar growth across all diets through increased consumption, altered midgut biomass allocation, and improved processing efficiencies. Dietary salicinoids reduced larval consumption, midgut biomass allocation, digestive efficiencies, and growth at all nutritional levels, but the effect size was more pronounced when larvae were fed nutritionally suboptimal diets. Our findings demonstrate that integrated behavioral and morphological compensatory responses to reduced food quality are affected by plant defenses, ultimately limiting compensatory responses and reducing larval performance.
ISSN:1872-8855
1872-8847
DOI:10.1007/s11829-016-9439-7