Assessment of Anthropogenic Impact of Surface Water Quality, South Africa

Aquatic Science and Technology Pub Date : 2018-06-19 DOI:10.5296/AST.V6I2.12837

Dipitseng Manamela, O. Awofolu

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Abstract

This article investigates the impact of anthropogenic activities on an important surface water from physico-chemical, chemical and microbial perspectives. The surface water, referred to as Blesbokspruit is in the West Rand District of South Africa. Potential impactors include wastewater treatment plant, mines, farmlands and informal settlements. Water samples were collected from nine purposively selected sampling points and analysed in 2014. The mean values of analysed variables across sampling sites and periods ranged from pH: 7.4-8.4; EC: 93.0 - 146.6 mS/m; TSS: 11.3 – 39.0 mg/L; TDS: 590.3 - 1020.3 mg/L; COD: 15.6- 34.8 mg/L. Those for anions varied from NO3-: 0.2- 2.1 (mg/L) N; PO43- : 0.4-0.9 mg/L and SO42-: 118.6 - 379.5 mg/L. The metallic variables ranged from As: 0.01-0.06 mg/L; Cd: 0.02-0.06 mg/L; Fe: 0.04-0.73 mg/L; Cu: 0.02 – 0.05 mg/L and Zn: 0.05 – 0.15 mg/L. The Faecal coliform varied from 15.9-16878.5 cfu/100 ml; Total coliform: 92.9-430294 cfu/100 ml and HPC from 4322.5-39776 cfu/1ml. Detection of toxic metals and pathogenic organisms above target safety limits indicate unsuitability of the water for domestic use with impact on the health of aquatic ecosystem. The study generally revealed the impact of anthropogenic activities on the surface water quality.

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地表水质量的人为影响评估，南非

本文从理化、化学和微生物等方面探讨了人类活动对地表水的影响。被称为Blesbokspruit的地表水位于南非的西兰德地区。潜在的影响包括污水处理厂、矿山、农田和非正式住区。2014年，我们从9个有目的地选择的采样点采集水样并进行分析。各采样点和周期的分析变量平均值范围为pH: 7.4-8.4;EC: 93.0 - 146.6 mS/m;TSS: 11.3 ~ 39.0 mg/L;TDS: 590.3 ~ 1020.3 mg/L;COD: 15.6 ~ 34.8 mg/L。阴离子为NO3- 0.2 ~ 2.1 (mg/L) N;PO43-: 0.4-0.9 mg/L, SO42-: 118.6 - 379.5 mg/L。金属变量范围为0.01 ~ 0.06 mg/L;Cd: 0.02-0.06 mg/L;铁:0.04-0.73 mg/L;Cu: 0.02 ~ 0.05 mg/L, Zn: 0.05 ~ 0.15 mg/L。粪便大肠菌群为15.9 ~ 16878.5 cfu/100 ml;总大肠菌群:92.9-430294 cfu/100 ml, HPC为4322.5-39776 cfu/1ml。检测到有毒金属和致病生物超过目标安全限度，表明该水不适合家庭使用，对水生生态系统的健康产生影响。研究总体上揭示了人类活动对地表水水质的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Aquatic Science and Technology

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