Original Research - Special Collection: Changing Global Context

Algae colonisation of brick pavement at the University of Venda: A potential slippery hazard

Thabelo R. Munyai, Thantaswa Sonqishe, Jabulani R. Gumbo
Jàmbá: Journal of Disaster Risk Studies | Vol 11, No 2 | a689 | DOI: https://doi.org/10.4102/jamba.v11i2.689 | © 2019 Thabelo R. Munyai, Thantaswa Sonqishe & Jabulani R. Gumbo | This work is licensed under CC Attribution 4.0
Submitted: 13 June 2018 | Published: 04 July 2019

About the author(s)

Thabelo R. Munyai, Department of Ecology and Resource Management, University of Venda, Thohoyandou, South Africa
Thantaswa Sonqishe, Department of Ecology and Resource Management, University of Venda, Thohoyandou, South Africa
Jabulani R. Gumbo, Department of Hydrology and Water Resource Management, University of Venda, Thohoyandou, South Africa

Abstract

A brick pavement, tramped by humans, is exposed to atmospheric elements, thus allowing cyanobacteria and algae to colonise. In this article, we report on the factors that contribute to the slipperiness of a brick pavement at the University of Venda in the Limpopo province of the South Africa. Samples were collected from brick surfaces either colonised by green algae (treated) or not (control). The samples were acid-digested and analysed for metals by Inductively Coupled Plasma Mass Spectrometry (ICP MS) in parts per billion (ppb). The treated bricks, with green algae, had average high metal contents (ppb): Al 9456.02, Ti 731.23, V 46.44, Cr 78.85, Mn 862.93, Fe 16295.18, Co 23.57, Ni 59.36, Cu 66.31, Zn 160.57, As 7.92, Se 10.45, Mo 6.74, Cd 5.19, Sn 4.65, Sb 2.31 and Pb 19.51. In contrast, control bricks had a low average of metal content (ppb) as follows: Al 2.99, Ti 0.28, V 4.04, Cr 1.42, Mn 4.29, Fe 20.89, Co 0.36, Ni 2.74, Cu 5.64, Zn 4.21, As 0.56, Se <3.00, Mo 0.88, Cd 0.01, Sn 1.05, Sb 0.04 and Pb 0.04. Other factors that promote algae colonisation include high solar radiation, neutral pH, nutrients, low electrical conductivity and total dissolved solids. The algae colonisation of brick pavement results in an unaesthetic sighting and a slippery surface that is hazardous to humans.


Keywords

Green Algae; Biodeterioration of Bricks; Heavy Metals; Nutrients; Mucilage; Solar Radiation

Metrics

Total abstract views: 2113
Total article views: 3430

 

Crossref Citations

1. Iningainema tapete sp. nov. (Scytonemataceae, Cyanobacteria) from greenhouses in central Florida (USA) produces two types of nodularin with biosynthetic potential for microcystin-LR and anabaenopeptin production
David E. Berthold, Forrest W. Lefler, I-Shuo Huang, Hussain Abdulla, Paul V. Zimba, H. Dail Laughinghouse
Harmful Algae  vol: 101  first page: 101969  year: 2021  
doi: 10.1016/j.hal.2020.101969