Plant genetic diversity yields increased plant productivity and herbivore performance

1. Plant genotypic diversity has important consequences for a variety of ecosystem processes, yet empirical evidence for its effects on productivity, one of the most fundamental of these processes, is lacking. In addition, the performance of insect herbivores in response to high genotypic diversity...

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Bibliographic Details
Published in:The Journal of ecology 2010, Vol.98 (1), p.237-245
Main Authors: Kotowska, Agnieszka M, Cahill Jr, James F, Keddie, B. Andrew
Format: Article
Language:English
Subjects:
Arabidopsis thaliana
Biodiversity
Biomass
Ecosystems
Fertilization
Flowers & plants
Genetic diversity
genetic variation
Genotype & phenotype
Genotypes
Herbivores
herbivory
Insect ecology
Insect genetics
Insects
Phytophagous insects
Plant-Herbivore Interactions
Plants
population
populations
productivity
Trichoplusia ni
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Summary:1. Plant genotypic diversity has important consequences for a variety of ecosystem processes, yet empirical evidence for its effects on productivity, one of the most fundamental of these processes, is lacking. In addition, the performance of insect herbivores in response to high genotypic diversity is unknown, despite previous work demonstrating differential herbivore performance among plant genotypes. 2. We manipulated genotypic diversity of the annual plant Arabidopsis thaliana in both the presence and absence of the generalist herbivore Trichoplusia ni under semi-natural growth conditions. We used nine genotypes (eight ecotypes and one mutant) of A. thaliana known to differ widely in functional traits. Productivity and insect biomass were measured in monocultures and mixtures of all nine genotypes grown at multiple fertilization levels and planting densities. 3. In both the absence and presence of herbivores, genotypic diversity increased plant productivity and survival. This effect was, for the most part, independent of fertility or density. Sampling or selection effects did not appear to be wholly responsible for these results as all genotypes were maintained in equal proportion and no single genotype became dominant for the duration of the experiment. 4. High diversity increased T. ni biomass and survival in all treatments. Insect biomass was positively, but not tightly, correlated to plant biomass, indicating that the higher herbivore performance observed in genotypic mixtures was only partially due to higher productivity. 5.Synthesis. Our data support the idea that even within a single plant species, genotypic diversity can exert strong influences on both the producer and herbivore communities. The exact mechanisms responsible for these effects and the relative importance of genotypic diversity in natural communities warrant further investigation.
ISSN:0022-0477
1365-2745
DOI:10.1111/j.1365-2745.2009.01606.x