Abstract
The invasive pathogen, ash dieback fungus Hymenoscyphus fraxineus, is spreading rapidly across Europe. It shows high levels of outcrossing and limited population structure, even at the epidemic front. The anamorphic (asexual) form produces prolific conidia, thought to function solely as spermatia (male gametes), facilitating gene flow between sympatric strains. Here, we show that conidia are capable of germination on ash leaves and in vitro, and can infect seedlings via leaves or soil. In leaves, germlings form structures resembling fruiting bodies. Additionally, H. fraxineus colonises ash debris and grows in soil in the absence of ash tissues. We propose an amended life-cycle in which wind-dispersed, insect-vectored or water-spread conidia infect ash and may sporulate in planta, as well as in forest debris. This amplifies inoculum levels of different strains in ash stands. In combination with their function as spermatia, conidia thus act to maximise gene flow between sympatric strains, including those originally present at low inoculum. Such mixing increases evolutionary potential, as well as enhancing the likelihood of gene introgression from closely-related strains or assimilation of further genetic diversity from parental Asian populations. This scenario increases the adaptability of H. fraxineus to new climates and, indeed, onto new host species.
Highlights
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These conidia have not been thought to have a role in the spread of the fungus, being described as “sticky”[3,15] and unlikely to become airborne. They are instead assumed to act as spermatia[13,16] during ascospore formation by the teleomorph. This hypothesis is supported by the discovery that ascospores derived from individual apothecia show levels of genetic polymorphism indicative of multiple mating partners[13,14] and by the observation that the anamorph sporulates at the edge of the pseudosclerotial plate from which the apothecia emerge[18]
While clear evidence of a founder effect can be seen when comparing the genotypes of the invasive pathogen populations in Europe with the much more variable genotypes displayed by native H. fraxineus populations in Asia, no such founder effect has been detected in the study of newly-discovered populations at the epidemic front[19]
Summary
COPYRIGHT AND REUSE Open Research Exeter makes this work available in accordance with publisher policies. The invasive pathogen, ash dieback fungus Hymenoscyphus fraxineus, is spreading rapidly across Europe It shows high levels of outcrossing and limited population structure, even at the epidemic front. In combination with their function as spermatia, conidia act to maximise gene flow between sympatric strains, including those originally present at low inoculum Such mixing increases evolutionary potential, as well as enhancing the likelihood of gene introgression from closely-related strains or assimilation of further genetic diversity from parental Asian populations. Hymenoscyphus fraxineus is pleiomorphic; the anamorph (previously Chalara fraxinea12) produces prolific asexual spores[13,14] These conidia have not been thought to have a role in the spread of the fungus, being described as “sticky”[3,15] and unlikely to become airborne. The closely-related species, Hymenoscyphus albidus, a non-pathogenic saprophyte on ash debris[25,26], is being displaced www.nature.com/scientificreports/
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