Liisa Vihervuori scite author profile

Fifteen transgenic birch lines carrying a chitinase IV gene from sugar beet and non-transgenic control plants were grown in a field trial, and traits connected to growth, quality and adaptation were monitored. Significant variation among the transgenic lines was observed in the growth parameters as well as parameters linked to stress status and leaf phenology of the trees. It was hypothesized that the differences among the lines could be explained by the differences in the level of transgene expression measured as sugar beet chitinase IV transcript accumulation. The level of the transgene expression was not detected to have influence on growth or leaf phenology, but instead it had influence on the parameters related to stress status of a tree. The increased levels of red colour and decreased general condition of the transgenic plants compared to the control plants may indicate physiological stress among the transgenic plants. The proportion of trees infested by Phytobia, larvae of which cause an easthetic defect to birch wood, was lower among many transgenic lines than in controls but the variation in Phytobia occurrence was explained by the differences in plant size only. Three lines out of fifteen were frequently different from the control plants in growth and leaf phenology, and these differences are suggested to be due to the position effect of the transgene. The observed changes in individual transgenic lines were not correlated with the sugar beet chitinase IV expression, and were more likely to impair than improve the traits that are usually considered important in adaptation and birch breeding.

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Density and Composition of an Insect Population in a Field Trial of Chitinase Transgenic and Wild-type Silver Birch (<I>Betula pendula</I>) Clones

Vihervuori

Pasonen

Lyytikäinen‐Saarenmaa

2008

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Fifteen silver birch (Betula pendula Roth) lines carrying a sugar beet chitinase IV gene and eight wild-type birch clones were grown in a field trial. The composition and density of the insect population and the leaf damage caused by insects were monitored and compared between transgenic and wild-type trees. The most abundant insect group in all trees was aphids, and the variation in total insect densities was mainly explained by the variation in aphid densities. Insect densities were generally higher in the transgenic than in the control trees, indicating that the expression of the sugar beet chitinase IV gene had an influence on the suitability of birch leaves to aphids. The level of leaf damage was higher among transgenic than among control trees. Chewing damage was the most common type of leaf damage in all trees. The number of different damage types was higher among the wild-type clones than among the transgenic lines or their controls. The results indicate that the chitinase transgenic trees are more susceptible to aphids and suffer higher levels of leaf damage than the control trees. In the composition of the damage types, the control trees were more similar to the transgenic than to other wild-type trees, indicating that the composition was mostly linked to the genotype of the tree and not to the expression of the transgene. This study provides important information on the ecological interactions of chitinase transgenic trees in the field trial. No clear harmful effects of transgenic chitinase on the biodiversity of insect population were detected.

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Effects on lepidopteran herbivores of feeding on leaves of transgenic birch (Betula pendula) expressing the sugar beet chitinase IV gene

Vihervuori¹,

Lyytikäinen‐Saarenmaa²,

Lu³

et al. 2013

Eur. J. Entomol.

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Palatability of transgenic birch and aspen to roe deer and mountain hare

Vihervuori

Lyytikäinen‐Saarenmaa

Tuomikoski

et al. 2012

Biocontrol Science and Technology

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Ecological interactions between herbivores and silver birch and aspen trees genetically modified for fungal disease resistance

Vihervuori¹

2015

Diss. For.

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