Symbiotic versatility in action: Trebouxia diversity expands the niche of the lichen Xanthoria parietina
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Aim
We explored the phylogenetic diversity of the mycobiont Xanthoria parietina and its associated Trebouxia phycobionts across the Mediterranean region and examined how photobiont climatic preferences may shape the ecological amplitude and spatial distribution of the lichen.
Location
Specimens were collected in different localities in the central and western Mediterranean Basin (Iberian and Italian peninsulas), with additional Atlantic and boreal localities used for comparison.
Methods
Genetic diversity and phylogenies of both lichen symbionts were inferred from nrITS data. Mycobiont–phycobiont interaction networks were constructed, and ecological niches of associated Trebouxia species were modelled using 19 bioclimatic variables from WorldClim v. 2.1.
Results
Phylogenetic analyses revealed high diversity within Xanthoria parietina and clarified the placement of poorly studied species within the genus Xanthoria (e.g., X. monofoliosa and X. aureola s. lat.), and revealed a novel lineage ( Xanthoria sp. ‘hydra’). All the photobionts belonged to Trebouxia clade A; nine Trebouxia species-level lineages were detected, including a previously unrecognized lineage ( Trebouxia sp. A56). Trebouxia decolorans (A33) was the most frequent photobiont and exhibited the broadest climatic niche, whereas T. solaris (A35) and T. tabarcae ad int. (A48) showed a more specialized climatic niche. Ensemble species-distribution models indicated widespread suitability for T. decolorans across Europe, and more coastal-Mediterranean suitability for T. tabarcae ad int .
Main Conclusion
Xanthoria parietina displays remarkable symbiont flexibility in associating with various Trebouxia lineages within clade A, which contribute to its ecological success in heterogeneous Mediterranean environments. Climatic niche modelling suggests that the association with different phycobionts may expand the ecological niche of the lichen, potentially enhancing its capacity to inhabit a wider range of environmental conditions.
