Abstract
In Europe, common ash (Fraxinus excelsior) is being decimated because of the invasive fungus Hymenoscyphus fraxineus. In its native range in Asia this ascomycete is considered a harmless leaf associate of F. mandshurica and F. chinensis subsp. rhynchophylla. Field observations from Europe suggest that there is species-specific variation in disease susceptibility among European and North American Fraxinus species, but a wider comparison at the genus level has been missing so far. We assessed disease symptoms and pathogen apothecium development in 17 Fraxinus species from Asia, Europe and North America exposed to high infection pressure in a Danish arboretum. We also tested their susceptibility to pathogen infection through controlled stem and leaf inoculations and subsequently assessed the level of pathogen DNA by a qPCR assay. The results suggested the presence of a phylogenetic signal in disease susceptibility where closely related Asian, European and North American species in section Fraxinus had relatively high levels of H. fraxineus DNA in the leaves and supported high production of apothecia. Leaves from some North American species also contained relatively high levels of H. fraxineus DNA, supported moderate production of apothecia and developed lesions—stating the need to avoid introduction of H. fraxineus to North America.
Highlights
Species continuously evolve in co-existence with sympatric species, with competition, parasitism, and symbiotic interrelations being strong drivers for evolution (Gilbert and Webb 2007; Sieber 2007; Thrall et al 2007)
The results suggested the presence of a phylogenetic signal in disease susceptibility where closely related Asian, European and North American species in section Fraxinus had relatively high levels of H. fraxineus DNA in the leaves and supported high production of apothecia
The following taxa were used in the study: F. excelsior, F. angustifolia, F. mandshurica, F. nigra, F. chinensis, F. lanuginosa, F. sieboldiana, F. ornus, F. paxiana, F. platypoda, F
Summary
Species continuously evolve in co-existence with sympatric species, with competition, parasitism, and symbiotic interrelations being strong drivers for evolution (Gilbert and Webb 2007; Sieber 2007; Thrall et al 2007). Comparison of genealogical trees of angiosperm and gymnosperm host species and their ascomycetous endophytes suggests a long history of co-evolution (Sieber 2007). Fungi with harmless endophytic or symbiotic relationships with their co-evolved hosts may behave as severe pathogens in contact with evolutionary naıve hosts in introduced areas (Boyd et al 2013; Brasier 2008; Lovett et al 2006; Roy et al 2014; Santini et al 2013; Stukenbrock and McDonald 2008). Examples of pandemics caused by introduced fungi on keystone forest tree species include Chestnut blight (Elliott and Swank 2008) and Dutch elm disease (Brasier 2000)
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