Direct and indirect effects of CO2, nitrogen, and community diversity on plant-enemy interactions

Resource abundance and plant diversity are two predominant factors hypothesized to influence the amount of damage plants receive from natural enemies. Many impacts of these environmental variables on plant damage are likely indirect and result because both resource availability and diversity can inf...

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Bibliographic Details
Published in:Ecology (Durham) 2008, Vol.89 (1), p.226-236
Main Authors: Lau, Jennifer A., Strengbom, Joachim, Stone, Laurie R., Reich, Peter B., Tiffin, Peter
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
atmospheric deposition
Atmospherics
Autoecology
Biodiversity
Biological and medical sciences
carbon dioxide
Carbon Dioxide - pharmacology
continuous cropping
disease
diversity
Ecosystem
elevated atmospheric gases
Feeding Behavior - drug effects
field experimentation
Fundamental and applied biological sciences. Psychology
General aspects
Herbivores
herbivory
Host-Parasite Interactions - drug effects
Host-Pathogen Interactions - drug effects
host-pathogen relationships
leaves
Lespedeza
Lespedeza - drug effects
Lespedeza - growth & development
Lespedeza - physiology
Lespedeza capitata
Natural enemies
nitrogen
Nitrogen - pharmacology
nitrogen deposition
nitrogen fertilizers
Pathogens
Phenotypic traits
plant communities
plant damage
plant density
Plant diseases
Plant interaction
Plant Leaves - drug effects
plant pathogens
Plants
Plants and fungi
plant–herbivore
plant–pathogen
Polyculture
Population Density
prairies
Resource availability
soil nutrient balance
species diversity
traits
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Summary:Resource abundance and plant diversity are two predominant factors hypothesized to influence the amount of damage plants receive from natural enemies. Many impacts of these environmental variables on plant damage are likely indirect and result because both resource availability and diversity can influence plant traits associated with attractiveness to herbivores or susceptibility to pathogens. We used a long-term, manipulative field experiment to investigate how carbon dioxide (CO₂) enrichment, nitrogen (N) fertilization, and plant community diversity affect plant traits and the amount of herbivore and pathogen damage experienced by the common prairie legume Lespedeza capitata. We detected little evidence that CO₂ or N affected plant traits; however, plants growing in high-diversity treatments (polycultures) were taller, were less pubescent, and produced thinner leaves (higher specific leaf area). Interestingly, we also detected little evidence that CO₂ or N affect damage. Plants growing in polycultures compared to monocultures, however, experienced a fivefold increase in damage from generalist herbivores, 64% less damage from specialist herbivores, and 91% less damage from pathogens. Moreover, within diversity treatments, damage by generalist herbivores was negatively correlated with pubescence and often was positively correlated with plant height, while damage by specialist herbivores typically was positively correlated with pubescence and negatively associated with height. These patterns are consistent with changes in plant traits driving differences in herbivory between diversity treatments. In contrast, changes in measured plant traits did not explain the difference in disease incidence between monocultures and polycultures. In summary, our data provide little evidence that CO₂ or N supply alter damage from natural enemies. By contrast, plants grown in monocultures experienced greater specialist herbivore and pathogen damage but less generalist herbivore damage than plants grown in diverse communities. Part of this diversity effect was mediated by changes in plant traits, many of which likely are plastic responses to diversity treatments, but some of which may be the result of evolutionary changes in response to these long-term experimental manipulations.
ISSN:0012-9658
1939-9170
DOI:10.1890/07-0423.1