Georg von Wühlisch scite author profile

This paper provides a review of theoretical and practical aspects related to genetic management of forest trees. The implementation of international commitments on forest genetic diversity has been slow and partly neglected. Conservation of forest genetic diversity is still riddled with problems, and complexities of national legal and administrative structures. Europe is an example of a complex region where the distribution ranges of tree species extend across large geographical areas with profound environmental differences, and include many countries. Conservation of forest genetic diversity in Europe has been hampered by lack of common understanding on the management requirements for genetic conservation units of forest trees. The challenge resides in integrating scientific knowledge on conservation genetics into management of tree populations so that recommendations are feasible to implement across different countries. Here, we present pan-European minimum requirements for dynamic conservation units of forest genetic diversity. The units are natural or man-made tree populations which are managed for maintaining evolutionary processes and adaptive potential across generations. Each unit should have a designated status and a management plan, and one or more tree species recognized for as target species for genetic conservation. The minimum sizes of the units are set at 500, 50 or 15 reproducing individuals depending on tree species and conservation objectives. Furthermore, silvicultural interventions should be allowed to enhance genetic processes, as needed, and field inventories carried out to monitor regeneration and the population size. These minimum requirements are now used by 36 countries to improve management of forest genetic diversity.

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Robinia pseudoacacia L.: A Lesser Known Tree Species for Biomass Production

Grünewald

et al. 2009

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Experiments with fast-growing tree species for biomass production in Germany have been mainly focused on the growth performance of Populus and Salix spp. Among the lesser-known species for energy plantations is Robinia pseudoacacia L. Special features of this species are its drought tolerance and its ability to fix nitrogen. Given the large share of marginal arable land in NE-Germany and the predicted climate change, R. pseudoacacia is expected to grow in importance. In order to evaluate the growth performance of this species under extreme conditions, four experiments were established in the post-mining landscape of the Lusatian lignite-mining district (NE-Germany).Biomass production was estimated for 3-to 14-year-old shoots on 4-to 14-year-old roots. Results for the annual production of oven-dried biomass of R. pseudoacacia ranged between 3 and 10 t ha −1 , which was substantially greater than the biomass of poplar and willow clones established on the same site. Economic analysis results show that the rotation period, the duration of the plantation, and the harvesting costs are important parameters for the economic return and cash flow in short-rotation coppice cultivation. The results show that the cultivation of R. pseudoacacia is an economically competitive land-use strategy for the postmining landscapes considered in our study.

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Evolution-based approach needed for the conservation and silviculture of peripheral forest tree populations

Fady¹,

Aravanopoulos²,

Alizoti³

et al. 2016

Forest Ecology and Management

104

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Intraspecific Variation in Wood Anatomical, Hydraulic, and Foliar Traits in Ten European Beech Provenances Differing in Growth Yield

et al. 2016

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In angiosperms, many studies have described the inter-specific variability of hydraulic-related traits and little is known at the intra-specific level. This information is however mandatory to assess the adaptive capacities of tree populations in the context of increasing drought frequency and severity. Ten 20-year old European beech (Fagus sylvatica L.) provenances representing the entire distribution range throughout Europe and differing significantly in aboveground biomass increment (ABI) by a factor of up to four were investigated for branch wood anatomical, hydraulic, and foliar traits in a provenance trial located in Northern Europe. We quantified to which extend xylem hydraulic and leaf traits are under genetic control and tested whether the xylem hydraulic properties (hydraulic efficiency and safety) trades off with yield and wood anatomical and leaf traits. Our results showed that only three out of 22 investigated ecophysiological traits showed significant genetic differentiations between provenances, namely vessel density (VD), the xylem pressure causing 88% loss of hydraulic conductance and mean leaf size. Depending of the ecophysiological traits measured, genetic differentiation between populations explained 0–14% of total phenotypic variation, while intra-population variability was higher than inter-population variability. Most wood anatomical traits and some foliar traits were additionally related to the climate of provenance origin. The lumen to sapwood area ratio, vessel diameter, theoretical specific conductivity and theoretical leaf-specific conductivity as well as the C:N-ratio increased with climatic aridity at the place of origin while the carbon isotope signature (δ13C) decreased. Contrary to our assumption, none of the wood anatomical traits were related to embolism resistance but were strong determinants of hydraulic efficiency. Although ABI was associated with both VD and δ13C, both hydraulic efficiency and embolism resistance were unrelated, disproving the assumed trade-off between hydraulic efficiency and safety. European beech seems to compensate increasing water stress with growing size mainly by adjusting vessel number and not vessel diameter. In conclusion, European beech has a high potential capacity to cope with climate change due to the high degree of intra-population genetic variability.

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Chilling and forcing requirements for foliage bud burst of European beech ( Fagus sylvatica L.) differ between provenances and are phenotypically plastic

Krämer

Ducousso

Gömöry

et al. 2017

Agricultural and Forest Meteorology

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