Perfluorooctanoate and perfluorooctane sulfonate in South African river water

Mudumbi, John Baptist Nzukizi; Ntwampe, Seteno Karabo Obed; Muganza, F. M.; Okonkwo, Jonathan O.

doi:10.2166/wst.2013.566

Cited by 45 publications

(37 citation statements)

References 24 publications

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“…The proposed range of PFOS contamination in water (1-100 ng L À1 ) for this study are in line with those recently measured in surface and ground (tap) water in the North East part of Italy, under the impact of a PFAS production plant (Polesello and Valsecchi, 2013), and also in the range of European inventoried concentration in ground water (average 4 ng L À1 , max 135 ng L À1 ). Also levels in European river waters (average 39 ng L À1 ; max 1371 ng L À1 ) (Loos et al, 2009(Loos et al, , 2010 and those in a Swiss river (Huset et al, 2008) and majority of monitored rivers in South Africa (Mudumbi et al, 2013) are within the modeled range. In a few cases river waters such as one of the investigated rivers in South Africa (182 ng L À1 ) have levels above the here modeled concentrations (<100 ng).…”

Section: Watermentioning

confidence: 76%

“…Also if such highly polluted water has been used for irrigation of food or cattle producing areas particular concern also for food and animal products produced on these areas exist. This threat is also highlighted in the monitoring study of PFOS/PFOA levels in South African rivers (Mudumbi et al, 2013).…”

Section: Discussionmentioning

confidence: 98%

“…For other scenarios with e.g. higher levels of PFOS in drinking water (Oliaei et al, 2013) or ground water (Weber et al, 2011) or river water (Mudumbi et al, 2013) used as drinking water source, this exposure pathway can become a more relevant source of human intake. Also if such highly polluted water has been used for irrigation of food or cattle producing areas particular concern also for food and animal products produced on these areas exist.…”

Section: Discussionmentioning

confidence: 99%

See 2 more Smart Citations

Pathways and factors for food safety and food security at PFOS contaminated sites within a problem based learning approach

Brambilla

D’Hollander

Oliaei³

et al. 2015

Chemosphere

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Section: Watermentioning

confidence: 76%

Section: Discussionmentioning

confidence: 98%

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Pathways and factors for food safety and food security at PFOS contaminated sites within a problem based learning approach

Brambilla

D’Hollander

Oliaei³

et al. 2015

Chemosphere

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“…River water was randomly collected in PP containers of 25 L capacity, from a local Western Cape river (i.e., Salt River) previously known to be contaminated with PFASs [29], and the PFASs analyses were carried out based on the same source protocols, with negligible changes. Hence, from this water, a total of twenty samples ( n = 20) was randomly taken from the river water to irrigate the plants.…”

Section: Methodsmentioning

confidence: 99%

“…Furthermore, a study by Tian et al [27] determined that plant leaves are effective in taking up PFASs from the atmosphere, with previous studies by Blaine et al [28] reporting the bioaccumulation of various perfluoroalkyl acids (PFAAs) in edible crops, including lettuce ( Lactuca sativa) and strawberry ( Fragaria ananassa ), suggesting these crops are a potential route of exposure for humans. In most instances, it is contaminated river water and fertilizer, as well as aero-deposition, that results in the contamination of these plants [29,30]. Nevertheless, due to limited available evidence on the contamination of medicinal plants by PFASs [15], the possibility that these plants are a pathway through which humans are likely to be exposed to PFASs is still to be established.…”

Section: Introductionmentioning

confidence: 99%

Propensity of Tagetes erecta L., a Medicinal Plant Commonly Used in Diabetes Management, to Accumulate Perfluoroalkyl Substances

Mudumbi

Daso

Okonkwo

et al. 2019

Toxics

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It has been extensively demonstrated that plants accumulate organic substances emanating from various sources, including soil and water. This fact suggests the potentiality of contamination of certain vital bioresources, such as medicinal plants, by persistent contaminants, such as perfluorooctanoic acid (PFOA), perfluorooctane sulfonate (PFOS), and perfluorobutane sulfonate (PFBS). Hence, in this study, the propensity of Tagetes erecta L. (a commonly used medicinal plant) to accumulate PFOA, PFOS, and PFBS was determined using liquid chromatography/tandem mass spectrometry (LC–MS/MS-8030). From the results, PFOA, PFOS, and PFBS were detected in all the plant samples and concentration levels were found to be 94.83 ng/g, 5.03 ng/g, and 1.44 ng/g, respectively, with bioconcentration factor (BCF) ranges of 1.30 to 2.57, 13.67 to 72.33, and 0.16 to 0.31, respectively. Little evidence exists on the bioaccumulative susceptibility of medicinal plants to these persistent organic pollutants (POPs). These results suggest that these medicinal plants (in particular, Tagetes erecta L., used for the management of diabetes) are also potential conduits of PFOA, PFOS, and PFBS into humans.

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Risks posed by per‐ and polyfluoroalkyl substances (PFAS) on the African continent, emphasizing aquatic ecosystems

Groffen

Nkuba

Wepener

et al. 2021

Integr Envir Assess & Manag

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Per‐ and polyfluoroalkyl substances (PFAS) are organic pollutants that may have adverse effects on the ecosystem. Despite the global presence of PFAS, knowledge of PFAS on the African continent is limited because monitoring of PFAS is challenging and often not feasible owing to the lack of analytical capacity and high cost. However, it is necessary to understand the environmental risks posed by these chemicals in developing countries, because increasing urbanization will likely increase PFAS contamination in the environment. Although, as far as is known, PFAS concentrations in the African aquatic environment are generally lower than in more developed countries, exceedances of ecological quality standards (EQS) were reported in a few cases, providing evidence of potential ecological risks to these ecosystems. However, the number of ecosystems at risk will likely increase as urbanization and modernization increase in African countries. Therefore, environmental regulations should be updated and implemented to reduce further contamination of the aquatic environment with these chemicals. In addition, analytical laboratories in Africa should develop their capacity to detect PFAS and related compounds regularly and routinely. Local hot spots need to be identified, the influence of these hot spots on the PFAS burden in the environment should be investigated, and environmental regulations should be implemented for these hot spots to reduce their environmental impact. Therefore, we recommend a more routine monitoring of PFAS, including new PFAS that are currently used as perfluorooctanoic acid (PFOA) and perfluorooctane sulfonate (PFOS) alternatives, which are not regulated and environmentally concerning. Integr Environ Assess Manag 2021;17:726–732. © 2021 SETAC

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Perfluorooctanoate and perfluorooctane sulfonate in South African river water

Cited by 45 publications

References 24 publications

Pathways and factors for food safety and food security at PFOS contaminated sites within a problem based learning approach

Pathways and factors for food safety and food security at PFOS contaminated sites within a problem based learning approach

Propensity of Tagetes erecta L., a Medicinal Plant Commonly Used in Diabetes Management, to Accumulate Perfluoroalkyl Substances

Risks posed by per‐ and polyfluoroalkyl substances (PFAS) on the African continent, emphasizing aquatic ecosystems

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