Environmentally triggered variability in the genetic variance–covariance of herbivory resistance of an exotic plant Solidago altissima

The variability in the genetic variance–covariance (G‐matrix) in plant resistance and its role in the evolution of invasive plants have been long overlooked. We conducted an additional analysis of the data of a reciprocal transplant experiment with tall goldenrod, Solidago altissima, in multiple gar...

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Bibliographic Details
Published in:Ecology and evolution 2020-03, Vol.10 (6), p.3103-3111
Main Authors: Sakata, Yuzu, Utsumi, Shunsuke, Craig, Timothy P., Itami, Joanne K., Ikemoto, Mito, Ohgushi, Takayuki
Format: Article
Language:English
Subjects:
Abiotic factors
Adaptation
Animal behavior
biological invasion
Covariance
Environmental changes
Environmental factors
Evolution
Evolution & development
Gardens
Gardens & gardening
Gene expression
Genetic diversity
Genetic variance
G‐matrix
Herbivores
Herbivory
Insects
Introduced plants
Invasive plants
Lace
Original Research
Origins
Pest resistance
plant defense
Plant populations
Plant protection
Plant resistance
plant‐insect interaction
Quantitative genetics
reciprocal transplant experiment
Solidago altissima
Variability
Variance
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Summary:The variability in the genetic variance–covariance (G‐matrix) in plant resistance and its role in the evolution of invasive plants have been long overlooked. We conducted an additional analysis of the data of a reciprocal transplant experiment with tall goldenrod, Solidago altissima, in multiple garden sites within its native range (USA) and introduced range (Japan). We explored the differences in G‐matrix of resistance to two types of foliar herbivores: (a) a lace bug that is native to the USA and recently introduced to Japan, (b) and other herbivorous insects in response to plant origins and environments. A negative genetic covariance was found between plant resistances to lace bugs and other herbivorous insects, in all combinations of garden locations and plant origins except for US plants planted in US gardens. The G‐matrix of the resistance indices did not differ between US and Japanese plants either in US or Japanese gardens, while it differed between US and Japanese gardens in both US and Japanese plants. Our results suggested that the G‐matrix of the plant resistance may have changed in response to novel environmental differences including herbivore communities and/or other biotic and abiotic factors in the introduced range. This may have revealed a hidden trade‐off between resistances, masked by the environmental factors in the origin range. These results suggest that the stability of the genetic covariance during invasion, and the environmentally triggered variability in the G‐matrices of plant resistance may help to protect the plant against multiple herbivore species without changing its genetic architecture and that this may lead to a rapid adaptation of resistance in exotic plants. Local environments of the plant also have a critical effect on plant resistance and should be considered in order to understand trait evolution in exotic plants. This article demonstrated that the novel herbivore environment in the introduced range can alter the genetic variance–covariance of resistance traits in an invasive plant can, while it remained stable during invasion. This suggests that the stability and variability of the genetic basis of resistance as an underlying mechanism for the rapid adaptation of resistance in invasive plants.
ISSN:2045-7758
2045-7758
DOI:10.1002/ece3.6130