Towards understanding the link between the deterioration of building materials and the nature of aerophytic green algae.

The gradual degradation of technical materials by bacteria, cyanobacteria and fungi, is of great economic and social significance. In temperate climates, microbial colonization is associated with phototrophic eukaryotes, predominantly aerial green algae. However, these phototrophs are able to colonize most substrates in all terrestrial environments, regardless he geographical area. As little is known of the life processes of green algae, it is widely believed that their impact on materials is purely aesthetic. Most studies on the deterioration of building materials examine both algae and cyanobacteria and propose various methods, mainly conservation practices, to halt the causes and effects of algal colonization. However, to fully comprehend the phenomenon of biodeterioration by green algae, it is essential to understand both the causes and effects of their activities, as their life processes have considerable influence on changes of technical state of building materials. Aerophytic green algae possess various cellular adaptations and life mechanisms to survive and successfully develop in the harsh terrestrial environment. In response to desiccation, UV radiation and high/low temperature fluctuation they form endo- and epilithic biofilms, produce various protective biomolecules and extracellular matrices, and change the volume of cells. Due to their adaptation mechanisms and wide ecological tolerance, green algae undoubtedly have a high potential to accelerate the degradation of building materials. This article reviews the current state of knowledge regarding the mechanisms of biodeterioration, examines the role played by green algae as a result of their adaptation to a terrestrial environment, presents methods that can be used to prevent the development of green algal biofilms and indicate future prospects in the assessment of algal deterioration studies.