Genetic and Environmental Factors Behind Foliar Chemistry of the Mature Mountain Birch

: Haviola S, Neuvonen S, Rantala MJ, Saikkonen K, Salminen JP, Saloniemi I, Yang SY, Ruuhola T

Publisher: SPRINGER

: 2012

: Journal of Chemical Ecology

: JOURNAL OF CHEMICAL ECOLOGY

: J CHEM ECOL

: 7

: 38

: 7

: 902

: 913

: 12

: 0098-0331

DOI: https://doi.org/10.1007/s10886-012-0148-0

Previous studies of mountain birch (Betula pubescens spp. czerepanovii) repeatedly have found differences between individual trees in herbivory-related traits, but rarely have yielded estimates of the additive genetic variation of these traits or of their relationship to habitat. We used thirty-year-old birch half-sibs in a northern common garden to estimate the effect of genetics and local microhabitat on resistance-related traits. Genetic estimates of foliar chemistry have been studied only rarely with trees as old as these. Moth performance (Epirrita autumnata), rust (Melampsoridium betulinum) incidence levels, and the general level of natural herbivory damage to individual trees were used as direct measures of birch resistance. Chemical resistance-related traits in plant chemistry included 15 individual phenolics, 16 amino acids, and phenoloxidase activities in the foliage. We also followed birch phenology and growth. Our results show that the genotype of the birch was the most important determinant of phenolic composition and phenoloxidase activity, but that amino acid levels were best explained by the microhabitat of the birch. We also found that the phenology of the birch had a high heritability, although its variation was low. Our results reveal rich genetic variation in birch chemistry.