Abstract
Lichenized fungi usually develop complex, stratified morphologies through an intricately balanced living together with their algal partners, but several species are known to form only more or less loose associations with algae. These borderline lichens are still little explored although they could inform us about early stages of lichen evolution. We studied the association of the extremely halotolerant fungus Hortaea werneckii with the alga Dunaliella atacamensis, discovered in a cave in the Atacama Desert (Chile), and with D. salina, common inhabitant of saltern brines. D. atacamensis forms small colonies, in which cells of H. werneckii can be frequently observed, while such interaction has not been observed with D. salina. As symbiotic interactions between Dunaliella and Hortaea have not been reported, we performed a series of co-cultivation experiments to inspect whether these species could interact and develop more distinct lichen-like symbiotic structures. We set up co-cultures between axenic strains of Hortaea werneckii (isolated both from Mediterranean salterns and from the Atacama cave) and isolates of D. atacamensis (from the Atacama cave) and D. salina (isolated from Mediterranean salterns). Although we used different growth media and cultivation approaches, bright field and SEM microscopy analyses did not indicate any mutual effects in these experiments. We discuss the implications for fungal algal interactions along the transition from algal exploiters to lichen symbioses.
Highlights
Self-supporting symbiotic associations allow organisms to proliferate in habitats where they face limitations to survive by themselves
Given our experience co-culturing different species of black fungi and algae, and the observed association between H. werneckii and D. atacamensis, we were interested to assess whether the coculture of Hortaea werneckii with species of Dunaliella could lead to morphological changes in either species, indicative for mutualistic responses of borderline lichens
Different culture media were prepared with various NaCl concentrations in order to reproduce the saline conditions of its natural environment, or by using various media for algal growth, including a Dunaliella specific medium and protein rich media, i.e. MY and MEA, to take into account the protein-rich spider webs (Vollrath 2000; Römer and Scheibel 2008) where D. atacamensis and H. werneckii were found
Summary
Self-supporting symbiotic associations allow organisms to proliferate in habitats where they face limitations to survive by themselves. The association of H. werneckii and D. atacamensis is similar to that of fungal species of Saxomyces and Lichenothelia with other green algal lineages (or cyanobacteria), with the latter commonly found on exposed rocks (Muggia et al 2013; Ametrano et al 2017, 2019).
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