2. Prokaryotic organisms in desert

2. Prokaryotic organisms in desert environments
2.1. Hypolithic
Hypolithic bacterial communities have been studied less extensively than the photosynthetic cyanobacterial ones, which dominate this ecosystem. The abiotic factors that determine the composition and activity of hypolithic bacterial communities are available liquid water derived from rainfall and fog as well as salinity (Azua-Bustos et al., 2011; Pointing et al., 2009; WarrenRhodes et al., 2006). Studies performed in the Atacama desert, Chile, show that both soil and hypolithic heterotrophs are positively correlated to soil moisture from rainfall and thus more abundant in wetter sites along a 11,500 m2 precipitation gradient (Navarro-González et al., 2003; Warren-Rhodes et al., 2006). Based on 16S rRNA-sequence diversity analysis, hypolithic communities unlike soil communities, were comprised primarily of Acidobacteria, alpha, beta and gamma sub-classes of the Proteobacteria and were co-extracted with cyanobacterial colonizers. Stomeo et al. (2013) working with samples collected in the
Namib desert, spanning the Atlantic coasts of Angola, Namibia and South Africa, showed that rainfall-moisture has a different effect on both soil and hypolithic communities than fog-moisture. A higher number of Operational Taxonomic Units (OTU) derived from terminal restriction length polymorphisms (T-RFLP) of the 16S rRNA gene were observed in hypolithic communities of rainfalldominated sites than those from fog-dominated sites. In contrast, soil communities were not influenced by the climate as they had a similar number of OTUs in both regimes. Also, the genetic fingerprints derived from soil communities revealed greater overall variation than those derived from the hypolithic communities. Makhalanyane et al. (2013) concluded that the noted variations suggest soil and hypolithic communities do not develop in isolation from one another but have cross recruitment.