Abstract
Data are presented on the distribution of the dominant and sub-dominant epipelic diatoms found in South African rivers from different regions of the country. A multivariate analysis identified 36 diatom species that were associated with different levels ofTDS, PO 4 , NH 4 and SiO 2 . Three groups of rivers were identified. Group I consisted of sites with high PO 4 and SiO 2 which corresponded to Durban Metropolitan Area sites, Kruger National Park rivers, the rivers in the Johannesburg Metropolitan Area and the Orange River. In these rivers 12 diatom species were identified that might indicate those water quality characteristics. Group II included stations where the water quality had high TDS and NH 4 values which were associated with most stations in the Swartkops River in the Eastern Cape. The indicators in this group comprised 12 diatom species. Group III were from sampling stations where the water had low levels of minerals, i.e. the upper reaches of the Gamtoos River and the Swartkops River in the Eastern Cape, the Olifants River in the Northern Cape, rivers sampled in KwaZulu-Natal and the Northern Cape. At these sites, 13 diatom species were found as dominants in this better water quality. Water quality data collected during this study showed that over 50% of the river systems display some degree of eutrophication and thus efforts should be made to reduce inputs of nutrients and pollutants to those rivers.
Highlights
IntroductionAs freshwater stress is likely to increase, knowledge of the water quality will be important
This paper is an extension of previous research on the water quality of South African rivers (Bate et al, 2004a; b), which focused on the determination of the classes of water quality using environmental data and samples covering a wide range of phytogeographic regions in South Africa
The purpose of this paper is to identify epipelic diatom species as indicators of water chemistry conditions (i.e., total dissolved solids (TDS), NH4, SiO2, PO4), from a number of South African rivers located in different phytogeographic regions of the country
Summary
As freshwater stress is likely to increase, knowledge of the water quality will be important This means that both chemical and biological data will be very necessary to South African authorities to correctly manage and exploit the freshwater resources. If samples are taken over a wide geographical area that covers various environmental conditions, it will be possible to determine the optima and tolerances for different diatom species, from which water quality could be determined In this sense, Taylor et al (2005), De la Rey et al (2004) and Harding et al (2004) have developed some diatom indices to determine water quality. The data used by Bate et al (2004a, b) are re-visited and a multivariate analy-
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