Abstract
Most mosses have xerochastic dispersal (i.e., they open their capsules when conditions are dry), which is thought to favor long-distance dispersal. However, there are several species that use a hygrochastic strategy: spores are dispersed when conditions are wet. The significance of this strategy in the Mediterranean region is unknown. In this study, we explored whether ultrastructural features related to differences in spore resistance may explain these different strategies of spore dispersal. To this end, we examined the ultrastructural features of the spores of seven closely related species in the moss genus Orthotrichum. These species all grow as epiphytes in sub-Mediterranean forests, and the group includes both xerochastic and hygrochastic members. First, we found that the spore wall layers exhibit several features previously undescribed in mosses. Second, we discovered that there are only subtle differences in spore ultrastructure with regards to spore wall thickness, the degree of plastid development, or the storage substances used. We suggest that the hygrochastic dispersal in mosses from Mediterranean environments might be related to a safe-site strategy, rather than to drought avoidance, and we underscore the necessity of conducting spore ultrastructural studies on a greater number of bryophyte species.
Highlights
In bryophytes, spores play a crucial role in dispersal and in the establishment of new populations
Spores may have to endure harsh conditions, and spore resistance appears to be a major factor affecting the dispersal range of many bryophyte species
Since bryophyte spore ornamentation is much simpler than spermatophyte pollen ornamentation, transmission electron microscope (TEM) studies of spores have attracted little attention
Summary
Spores play a crucial role in dispersal and in the establishment of new populations. Spores may have to endure harsh conditions (e.g., drought, ultraviolet light, extreme temperatures), and spore resistance appears to be a major factor affecting the dispersal range of many bryophyte species. This idea has been experimentally tested in the Southern Hemisphere, where widely distributed species of both liverworts [1] and mosses [2] produce spores that are more resistant than those of species with constrained distributions.
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