Abstract
Infections with Heterobasidion parviporum devalue the Norway spruce timber as the decayed wood does not meet the necessary quality requirements for sawing. To evaluate the incorporation of disease resistance in the Norway spruce breeding strategy, an inoculation experiment with H. parviporum on 2-year-old progenies of 466 open-pollinated families was conducted under greenhouse (nursery) conditions. Lesion length in the phloem (LL), fungal growth in sapwood (FG) and growth (D) were measured on an average of 10 seedlings for each family. The genetic variation and genetic correlations between both LL, FG and growth in the nursery trial and wood quality traits measured previously from 21-year old trees in two progeny trials, including solid-wood quality traits (wood density, and modulus of elasticity) and fiber properties traits (radial fiber width, tangential fiber width, fiber wall thickness, fiber coarseness, microfibril angle and fiber length). For both LL and FG, large coefficients of phenotypic variation (> 26%) and genetic variation (> 46%) were detected. Heritabilities of LL and FG were 0.33 and 0.42, respectively. We found no significant correlations between wood quality traits and growth in the field progeny trials with neither LL nor FG in the nursery trial. Our data suggest that the genetic gains may reach 41 and 52% from mass selection by LL and FG, respectively. Early selection for resistance to H. parviporum based on assessments of fungal spread in the sapwood in nursery material, FG, will not adversely affect growth and wood quality traits in late-age performance.
Highlights
Norway spruce [Picea abies (L.) Karst.] is one of the most economically important conifer species in Europe
The results presented in this work were based on an extensive resistance phenotyping work: on average ten twoyear-old progenies from each of 446 open-pollinated families were phenotyped for the resistance to H. parviporum by artificial inoculation
The scale of this study allowed us to use a larger phenotyped data set compared to most previous studies to estimate additive genetic variation for the resistance to H. parviporum in Norway spruce
Summary
Norway spruce [Picea abies (L.) Karst.] is one of the most economically important conifer species in Europe It is widely used for solid-wood products and production of pulp and paper. Infection is problematic for the pulp and paper industry as the wood is rotted (representing a biomass loss) and discolored This has made H. annosum s.l. the most severe wood-rotting fungus in economic terms (Bendz-Hellgren and Stenlid 1997). The disease incidence was projected to increase by 23% per decade in managed forests (Thor et al 2005) Such projections where the model is linked to the temperature are associated with the climate change scenario for northern Europe that prolongs the season of H. annosum s.l. spores spread, providing a case for implementation of H. annosum s.l. resistance in the breeding programmes. It is well established that Norway spruce susceptibility to H. parviporum has a genetic component (Arnerup et al 2010; Skrøppa et al 2015a, b; Steffenrem et al 2016), but it has been debated whether the genetic component is significant enough for resistance breeding
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