Abstract
Filamentous fungi associated with woody tissues of European Beech (Fagus sylvatica) and isolated from diseased trees and healthy trees were examined in relation to their impact on tree health. To this end, classical culture-based isolation methods, in planta inoculations and fungal identification using ITS-barcode and morphological characters were used. Stem endophytes of healthy beech saplings collected in German forests were isolated to determine endophyte communities in woody stem tissues. Pathogenicity tests were performed on living potted beech saplings using twelve selected fungal pathogens and wood inhabiting fungi (Hypocreales, Botryosphaeriales, and Xylariales) originating mainly from European beech with symptoms of the complex disease Vitality loss, or from bark necroses, or known to be common endophytes of beech. The impact of these ascomycetous fungi with respect to tree health was discussed. The potential influences of endophytic fungi of beech and of test conditions are discussed in relation to the success of inoculation. All tested fungal strains except for Neonectria ditissima were able to establish themselves post inoculation in the beech stems and caused necroses when there was sufficient water, but at different severities. Under the experimental conditions, Botryosphaeria corticola was shown to be the most virulent tested latent pathogen against F. sylvatica. In the context of climate change and global warming, the tested Botryosphaeriaceae are able to play a primary role in the disease progress of Vitality loss of Beech. The key role of Neonectria coccinea in causing bark necroses and the loss of vitality in beech was confirmed because the tested strain induced large lesions on the beech saplings.
Highlights
European beech (Fagus sylvatica L.) is one of the major tree species in Central Europe and has an important impact on the ecology and hydrogeology of forests (Danti et al, 2002)
The aims of this study were (1) to confirm the pathogenicity and virulence in planta of latent fungal pathogens originally associated with bark necrosis or Vitality Loss of European Beech (VLB), (2) to test virulence of the fungal species under field conditions in vital trees not exposed to drought stress, and (3) to determine whether there are interactions between beech stem endophytes and the inoculated pathogens
Latent plant pathogenic fungi of beech that exhibit endophytic behavior, such as Neo. coccinea, Bi. nummularia, Bo. corticola, Bo. dothidea, Bo. stevensii, and E. quaternata, are sensitive to changes in host physiology driven by stress conditions, as predicted by Desprez-Loustau et al (2006)
Summary
European beech (Fagus sylvatica L.) is one of the major tree species in Central Europe and has an important impact on the ecology and hydrogeology of forests (Danti et al, 2002). The German temperate, four-season climate is currently characterized by pronounced cold winters, generally overcast with limited precipitation, and warm summers. The latter are associated with a clear west–east cline in temperature. In comparison to the international reference period 1961–1990, the annual mean temperature in 2018 was +2.3◦C higher (Friedrich and Kaspar, 2019) These three years were characterized by pronounced spring drought (Imbery et al, 2021) which, together with the extraordinary weather conditions throughout most months, resulted in root zone soil moisture and soil water storage deficits (Eichhorn et al, 2020; Tijdeman and Menzel, 2021). Periods of soil moisture drought stress can last longer than the meteorological drought that causes them and can have negative effects on plants or tree growth and health (Eichhorn et al, 2020; Tijdeman and Menzel, 2021)
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