Epilythic cyanobacteria and algae in two geologically distinct caves in South Africa
View/ Open
Date
2019Author
Janse van Vuuren, Sanet
Du Preez, Gerhard
Levanets, Anatoliy
Maree, Louis
Metadata
Show full item recordAbstract
There is a lack of knowledge on cyanobacteria and algae living in caves in the southern hemisphere. As a result, a
pioneer study was undertaken to investigate cyanobacterial and algal community composition in two morphologically
and geologically distinct caves in South Africa. Skilpad Cave is characterized by a large sinkhole entrance in a dolomitic
landscape. Three zones (light zone, twilight zone and dark zone) were identified based on differences in light intensity.
Bushmen Cave, on the other hand, is a rockshelter overhang situated in a sandstone-dominated area and only presents
a light and twilight zone. Cyanobacteria and algae were sampled twice, during the summer and winter of 2018 while
abiotic factors of interest, i.e. light intensity, temperature and relative humidity, were also measured. A huge diversity of
cyanobacteria (14 genera) and algae (48 genera) were identified in the two caves. While some genera were only present in one of the caves, other cosmopolitan genera were found in both caves. The most common genera encountered
were Phormidium, Oscillatoria and Nostoc (cyanobacteria), Pinnularia and Luticola (diatoms), Chlorella and Chlorococcum (green algae). Cyanobacteria, green algae and diatoms were also the richest groups (taxa) in terms of the number
of genera. More genera were present in the warm, wet season compared to the dry, cold season. Genus richness was
positively correlated with light intensity in Skilpad Cave, but negatively in Bushmen Cave. Petalonema alatum, a cyanobacterium encountered in Bushmen Cave, represented a new record for Africa, and therefore, further research on
cyanobacteria and algal assemblages in caves in the southern hemisphere is strongly recommended
URI
http://hdl.handle.net/10394/34549https://caves.org/pub/journal/PDF/v81/81_4_Full-online.pdf
http://dx.doi.org/10.4311/2019MB0113