Profiles and Risk Assessment of Heavy Metals in Great Rift Lakes, Kenya

Yang, Yuyi; Wei, Liangfu; Cui, Lili; Zhang, Miaomiao; Wang, Jun

doi:10.1002/clen.201600825

Cited by 27 publications

(14 citation statements)

References 48 publications

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“…15 These results are similar to those obtained in the Yangtze river in China, the Bangshi river in Dhaka, Bangladesh and the Great Rift Valley in Kenya. 47 , 55 , 56 The value obtained for As across all rivers raises carcinogenic concerns for the residents around these rivers. 57 Inorganic As is a known human carcinogen.…”

Section: Discussionmentioning

confidence: 99%

Concentrations and Human Health Risk of Heavy Metals in Rivers in Southwest Nigeria

Adesiyan

Bisi-Johnson

Aladesanmi

et al. 2018

Journal of Health and Pollution

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Background.Rivers are the most vital freshwater resources in the world. In Southwest Nigeria, anthropogenic activity stresses the quantity and quality of water resources.Methods.The present study examined the concentrations and human health risk of five heavy metals (manganese (Mn), arsenic (As), chromium (Cr), cadmium (Cd), and lead (Pb)) in selected rivers in Southwest Nigeria. The determination of heavy metals was carried out by atomic absorption spectrophotometry after digestion with a di-acid mixture 9:4 (v/v) (nitric acid: perchloric acid).Results.All rivers had higher concentrations of the five heavy metals in the dry season except for As in Dandaru (0.012 mg/L) and Asejire (0.016 mg/L). Manganese was observed to have the highest mean concentration among all the five metals in both the rainy and dry seasons across the sampled rivers. Generally, the annual mean concentration of metals followed the order: Mn>Cr>Cd>Pb>As in all the selected rivers.Discussion.The human health risk assessment showed that the hazard index and hazard quotient for ingestion of water for Cd and As in all the sampled rivers were higher than the acceptable limit of 1.0, indicating carcinogenic risk (CR) via direct ingestion of water. The CR via ingestion for As in all of the sampled rivers was above the remedial goal target of 1×10−6. The recorded values for chronic daily intake (CDI) were higher for Cr and Mn in all four sampled rivers.Conclusions.The results of the present study showed that As is a driver for carcinogenic risk through ingestion in all of the sampled rivers compared to other metals.Competing Interests.The authors declare no competing financial interests

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Section: Discussionmentioning

confidence: 99%

Concentrations and Human Health Risk of Heavy Metals in Rivers in Southwest Nigeria

Adesiyan

Bisi-Johnson

Aladesanmi

et al. 2018

Journal of Health and Pollution

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“…The standard solutions were purchased from the CRM/RM information center of China and diluted using deionized water; mixed diluted solutions were used to obtain the standardization curves. More details for ICP-MS were reported previously [22]. The detection limits of heavy metals ranged between 1.1 × 10 −9 g/L and 12 × 10 −9 g/L for all heavy metals except Hg.…”

Section: Sample Analysismentioning

confidence: 96%

Occurrences and Ecotoxicological Risk Assessment of Heavy Metals in Surface Sediments from Awash River Basin, Ethiopia

Dirbaba

Xue

et al. 2018

Water

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Like many areas in developing nations, rapid population growth, a high urbanization rate, and poor waste management practices have been observed in the Awash River Basin. Moreover, no comprehensive study has been conducted in this basin to evaluate sediment contamination with heavy metals. About 46 sampling locations were considered to study heavy metal concentrations, distributions, pollution levels, and potential ecological risks associated with these contaminants. The results indicate that average concentrations of all metals have exceeded their respective background values except Pb and Hg. A comparison with similar studies also revealed that sediments from the Awash River Basin had a high average value for Cd. The mean enrichment values of heavy metals increased in the order of Hg < As < Pb < Ni < Cu < Cr < Zn < Cd. Multivariate analysis revealed that Ni and Cu had common sources. The average potential ecological risk index (ERI = 355.54) indicates high potential toxicity response in the study area. In general, surficial sediment contamination with heavy metals is causing high ecological hazards in Awash River Basin. This study sheds lights on the current level of contamination of heavy metals which are widely distributed across the sediments of rivers and streams of Awash River Basin.

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“…Heavy metals in water are a global concern due to their bioaccumulation, environmental hazards, and persistence (Goretti et al 2016;Chowdhury et al 2016). Heavy metals are released into lakes and other water bodies as a consequence of rapid population growth and anthropogenic activities, such as poorly treated industrial and domestic sewage and intensified agricultural runoff (Bhuiyan et al 2011;Islam et al 2015;Yang et al 2017). Industrial activities, for example electroplating, metal smelting, burning of fossil fuels, and chemical industry wastewater can release heavy metals such as As, Cu, and Pb (Bissen and Frimmel 2003;Zhang et al 2016;Noli and Tsamos 2016).…”

Section: Introductionmentioning

confidence: 99%

“…Previous studies related to heavy metals have focused on industries, such as mining, agriculture such as irrigation of agricultural lands with sewage, and aquaculture (e.g., Rattan et al 2005;Noli and Tsamos 2016;Xia et al 2018). There are some studies that reported heavy metal pollution in some typical urban lakes (e.g., Li et al 2013;Yang et al 2017). However, little information is available on potential heavy metal pollution in lakes that are under rapid watershed urbanization, especially considering a large spatial gradient with a long linear distance and great variations in topographic relief.…”

Section: Introductionmentioning

confidence: 99%

Heavy metal gradients from rural to urban lakes in central China

et al. 2020

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Background Limited information is available on heavy metal patterns in lakes under rapid watershed urbanization, especially considering a large spatial gradient with a long linear distance and great variations in topographic relief. To fill this gap, we studied concentrations of a series of heavy metals in both water and sediments from 20 lakes along a rural to urban gradient in central China, and we aimed to understand the effects of urban processes on heavy metal dynamics in lake ecosystems. Studied lakes were divided into five groups: A (rural reservoir group), B (rural commercial fishing group), C (urban park group), D (urban recreational fishing group), and E (urban commercial fishing group). An inductively coupled plasma optical emission spectrometer (ICP-OES) and an inductively coupled plasma-mass spectrometer (ICP-MS) were used to analyze the heavy metals in water and sediments. Results An increasing trend of most heavy metals in water from rural to urban lakes was observed. Concentrations of cadmium (Cd), cobalt (Co), lead (Pb), chromium (Cr), arsenic (As), nickel (Ni), magnesium (Mn), iron (Fe), and aluminum (Al) in water were significantly lower in rural group A than those in other groups. Arsenic in sediments of rural group A was lower than those in other groups. No other heavy metal element in sediments was significantly different among groups. The enrichment factor analysis of selected heavy metals showed there were different degrees of enrichments of heavy metals in sediments. The potential ecological risk index showed a low level for heavy metals in sediments of all studied lakes. Conclusions Results indicated that urban processes could have an impact on heavy metals in lake water. The sources of heavy metals in sediments were more likely from anthropogenic activities. These results could enhance our understanding of metal dynamics in lake ecosystems under urbanization and could help prevent heavy metal pollutions and promote sustainable management of urban ecosystems.

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Profiles and Risk Assessment of Heavy Metals in Great Rift Lakes, Kenya

Cited by 27 publications

References 48 publications

Concentrations and Human Health Risk of Heavy Metals in Rivers in Southwest Nigeria

Concentrations and Human Health Risk of Heavy Metals in Rivers in Southwest Nigeria

Occurrences and Ecotoxicological Risk Assessment of Heavy Metals in Surface Sediments from Awash River Basin, Ethiopia

Heavy metal gradients from rural to urban lakes in central China

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