Abstract
The purpose of this work was to evaluate the heterogeneity and diversity of algae according to an aquatic environment polluted by Remazol Red Brilliant dye. Methodology followed Winogradsky columns technique, which describes a microecosystem in a glass container. Two columns were prepared: one control and another with Remazol Red Brilliant dye simulating a contaminated environment. The experiment was under illumination to provide light energy to photosynthetic organisms and alteration in two columns were observed and quantified: algae development and color changes. Results demonstrated that pH remained constant in control column; however the initial pH changed in contaminated column. A higher pH observed at the bottom after 48 days showed microbial activity in dye biodegradation, which was corroborated by minor absorbance value at Remazol Red Brilliant peak (541.5 nm). Moreover, control column presented higher algae growth since the beginning owing to the dye absence and 12 different families were identified in two Winogradsky column. This analysis concluded that, despite the greater diversity found in B, algae biomass production was much smaller compared to column without the dye. Therefore, Remazol Red Brilliant presence would affect the food chain in aquatic environments and consequently causes an ecological imbalance by the textile effluent impact.
Highlights
Human activities including the discharge of effluents rich in nutrients promote aquatic ecosystems eutrophication (Tundisi and Matsumura-Tundisi, 1992; Biggs, 2006)
Control column presented higher algae growth since the beginning owing to the dye absence and 12 different families were identified in two Winogradsky column
The aim of this study was to evaluate the effect of a simulated textile effluent on phytoplankton by Winogradsky columns, which deal with a microecosystem in a glass container composed of soil, water and nutrients
Summary
Human activities including the discharge of effluents rich in nutrients promote aquatic ecosystems eutrophication (Tundisi and Matsumura-Tundisi, 1992; Biggs, 2006). Effluents from textile industry could make wastewater toxic (Robinson et al, 2001) In these cases water is unfit for human consumption and causes ecosystem imbalance within any living being a link in the food chain, even small such as the phytoplankton (Rocha, 1992). Algae are organisms of varied nature, as they may belong to Plantae, Metazoa or Bacteria kingdoms (Brusca and Brusca, 2003; Bicudo and Menezes, 2006). These organisms have wide distribution, being present in almost all rivers and lakes, and provide a large number of species which are important in the organic matter production in ecosystems (Klaine and Lewis, 1995). According to Bicudo and Menezes (2006), algae are organisms with characteristics, ecology and behavior so distinct within each other that make hard their identification
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