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Ecological Constraints Limit the Fitness of Fungal Hybrids in the Heterobasidion annosum Species Complex

Department of Environmental Science, Policy and Management, Ecosystem Sciences Division, University of California at Berkeley, 151 Hilgard Hall, Berkeley, California 94720,¹ Department of Exploitation and Protection of the Agricultural and Forestry Resources—Plant Pathology, University of Torino, Via L. da Vinci 44, I-10095 Grugliasco, Italy²

Received 21 May 2007/ Accepted 23 July 2007

The ability of two closely related species to maintain species boundaries in spite of retained interfertility between them is a documented driving force of speciation. Experimental evidence to support possible interspecific postzygotic isolation mechanisms for organisms belonging to the kingdom Fungi is still missing. Here we report on the outcome of a series of controlled comparative inoculation experiments of parental wild genotypes and F₁ hybrid genotypes between closely related and interfertile taxa within the Heterobasidion annosum fungal species complex. Results indicated that these fungal hybrids are not genetically unfit but can fare as well as parental genotypes when inoculated on substrates favorable to both parents. However, when placed in substrates favoring one of the parents, hybrids are less competitive than the parental genotypes specialized on that substrate. Furthermore, in some but not all fungus x plant combinations, a clear asymmetry in fitness was observed between hybrids carrying identical nuclear genomes but different cytoplasms. This work provides some of the first experimental evidence of ecologically driven postzygotic reinforcement of isolation between closely related fungal species characterized by marked host specificity. Host specialization is one of the most striking traits of a large number of symbiotic and parasitic fungi; thus, we suggest the ecological mechanism proven here to reinforce isolation among Heterobasidion spp. may be generally valid for host-specialized fungi. The validity of this generalization is supported by the low number of known fungal hybrids and by their distinctive feature of being found in substrates different from those colonized by parental species.

Published ahead of print on 27 July 2007.