Accumulation of heavy metals and trace elements in fluvial sediments received effluents from traditional and semiconductor industries

Hsu, Liang-Ching; Huang, Ching Yi; Chuang, Yen Hsun; Chen, Ho Wen; Chan, Yu‐Wei; Teah, Heng Yi; Chen, Tsan‐Yao; Chang, Chiung-Fen; Liu, Yu Ting; Tzou, Yu-Min

doi:10.1038/srep34250

Cited by 80 publications

(30 citation statements)

References 49 publications

(61 reference statements)

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“…Grain size is one of main physical characteristics determining the accumulation of micropollutants in sediments [3,37,79,80,81]. As well, TOC plays a fundamental role in the retention of contaminants in sediments [3,16,51,82,83,84]. Therefore, the inverse relation between some micropollutant concentrations (e.g.…”

Section: Relations Between Sediment Quality and Physical-chemical Drimentioning

confidence: 99%

Climate Change Impacts on Sediment Quality of Subalpine Reservoirs: Implications on Management

Marziali¹,

Tartari²,

Salerno³

et al. 2017

Preprint

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Abstract:Reservoirs are characterized by accumulation of sediments where micropollutants may concentrate, with potential toxic effects on downstream river ecosystems. However, sediment management such as flushing is needed to maintain storage capacity. Climate change is expected to increase sediment loads, but potential effects on their quality are scarcely known. In this context, sediment contamination by trace elements (As, Cd, Cr, Cu, Hg, Ni, Pb, Zn) and organics (PAHs, PCBs, C>12) was analyzed in 20 reservoirs located in Italian Central Alps. A strong As and a moderate Cd, Hg and Pb enrichment was emphasized by Igeo, with potential ecotoxicological risk according to PEC quotients. Sedimentation rate, granulometry, total organic carbon (TOC) and altitude resulted as the main drivers governing pollutant concentrations in sediments. According to climate change models, expected increase of rainfall erosivity will enhance soil erosion and consequently the sediment flow to reservoirs, potentially increasing coarse grain fractions and thus potentially diluting pollutants. Conversely, increased weathering may enhance metal fluxes to reservoirs. Increased vegetation cover will potentially result in higher TOC concentrations, which may contrast contaminant bioavailability and thus toxicity. Our results may provide elements for a proper management of contaminated sediments in a climate change scenario aiming at preserving water quality and ecosystem functioning.

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Section: Relations Between Sediment Quality and Physical-chemical Drimentioning

confidence: 99%

Climate Change Impacts on Sediment Quality of Subalpine Reservoirs: Implications on Management

Marziali¹,

Tartari²,

Salerno³

et al. 2017

Preprint

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“…Owing to their toxicity and increased concentration in aquatic ecosystems, metals represent a growing problem on the global level, since once they enter an ecosystem they constitute a potential danger to living organisms for a number of years (Geffard et al, 2003;Fernandes et al, 2007;Snodgrass et al, 2008;Besser et al, 2009;Abdel-Baki et al, 2011), in as much as they are deposited both in the sediment (Fernandes et al, 2007;Abdel-Baki et al, 2011) and in tissues of aquatic organisms, where in elevated concentrations they have various toxic effects (Shahbaz et al, 2013: Ezejiofor et al, 2013. It is known that river sediments can receive high concentrations of heavy metals, which remain as difficultly degradable matter in the rivers (Fernandes et al, 2007;Abdel-Baki et al, 2011), and if the sediment contains a large amount of organic material it can bind metals in even greater measure (Zhang et al, 2014;Hsu et al, 2016;Strom et al, 2011). Increase in the amount of organic matter in a riverś sediment can occur under influence of the outlet water from a trout farm, which introduces remains of uneaten food and trout faeces into the recipient stream (Liao, 1970;Weston et al, 1996), with the result that metals accumulate in the sediment directly below the trout farm, enabling aquatic organisms to accumulate them in some measure (Burridge et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

“…The first part of this investigation, dealing with the effects on the larvae antioxidative defense, has already being published (Božanić et al, 2018). In as much as river sediment burdened with organic pollution binds greater amounts of heavy metals than an unburdened recipient stream (Hsu et al, 2016;Burridge et al, 2010), the purpose of the present work was to establish whether an increase in the concentration of certain heavy metals occurs in water and sediment of the Skrapež River, a stream under influence of the outlet water from a trout farm, and ascertain the extent of metal bioaccumulation in the body of Ephemera danica larvae so as to determine their potential usefulness as a bioindicator of the pollution of river systems by heavy metals.…”

Section: Introductionmentioning

confidence: 99%

Bioaccumulation of heavy metals inEphemera danicalarvae under influence of a trout farm outlet waters

Božanić

Dojčinović

Živić

et al. 2019

Knowl. Manag. Aquat. Ecosyst.

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Trout farms are one of the major sources of pollution of highland streams and rivers. Since river sediment burdened with organic pollution binds greater amounts of heavy metals we investigated the influence of the trout farm on the accumulation of metals in the sediment, water and Ephemera danica larvae. Research was conducted seasonally (April, July, and October of 2015 and January of 2016) at one control locality (SK1) and three localities downstream from the farm (SK2–SK4). In agreement with the hypothesis the fish farm discharge induced localized and statistically significant increase of concentrations of Fe, Cu, Cr, Ni, Pb and Cd in sediment and E. danica larvae, but not in water at locality SK2 just below the fish farm indicating that sediment is the main source of heavy metals for this organism. However, according to the values of Biota sediment accumulation factor (BSAF) only metals with low sediment concentrations (As, Cd and Cu) accumulated in the larvae. Moreover, BASF values for toxic metals (As, Cd and Cr) showed negative correlation with their concentrations in sediment indicating existence of defense mechanisms in E. danica against assimilation of these metals in high concentrations lethal for it. On the other hand, BSAF values for essential microelements (Cu and Fe) were positively correlated with their sediment concentrations. In conclusion the trout farm induced accumulation of heavy metals in river sediment and E. danica larvae proved to be a good bioindicators of the pollution of river systems by As, Cd and Cu.

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“…Grain size is one of main physical characteristics determining the accumulation of micropollutants in sediments [3,37,[79][80][81]. In addition, TOC plays a fundamental role in the retention of contaminants in sediments [3,16,51,[82][83][84]. Therefore, the inverse relation between some micropollutant concentrations (e.g., Cd, Pb and Hg) and sedimentation highlighted in the PCA analyses can be explained considering the dilution factor determined by increasing coarse sediments at lower altitudes.…”

Section: Relations Between Sediment Quality and Physical-chemical Drimentioning

confidence: 99%

Climate Change Impacts on Sediment Quality of Subalpine Reservoirs: Implications on Management

Marziali

Tartari

Salerno

et al. 2017

Water

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Abstract:Reservoirs are characterized by accumulation of sediments where micropollutants may concentrate, with potential toxic effects on downstream river ecosystems. However, sediment management such as flushing is needed to maintain storage capacity. Climate change is expected to increase sediment loads, but potential effects on their quality are scarcely known. In this context, sediment contamination by trace elements (As, Cd, Cr, Cu, Hg, Ni, Pb, and Zn) and organics (Polycyclic Aromatic Hydrocarbons PAHs, Polychlorinated Biphenyls PCBs and C > 12 hydrocarbons) was analyzed in 20 reservoirs located in Italian Central Alps. A strong As and a moderate Cd, Hg and Pb enrichment was emphasized by I geo , with potential ecotoxicological risk according to Probable Effect Concentration quotients. Sedimentation rate, granulometry, total organic carbon (TOC) and altitude resulted as the main drivers governing pollutant concentrations in sediments. According to climate change models, expected increase of rainfall erosivity will enhance soil erosion and consequently the sediment flow to reservoirs, potentially increasing coarse grain fractions and thus potentially diluting pollutants. Conversely, increased weathering may enhance metal fluxes to reservoirs. Increased vegetation cover will potentially result in higher TOC concentrations, which may contrast contaminant bioavailability and thus toxicity. Our results may provide elements for a proper management of contaminated sediments in a climate change scenario aiming at preserving water quality and ecosystem functioning.

show abstract

Accumulation of heavy metals and trace elements in fluvial sediments received effluents from traditional and semiconductor industries

Cited by 80 publications

References 49 publications

Climate Change Impacts on Sediment Quality of Subalpine Reservoirs: Implications on Management

Climate Change Impacts on Sediment Quality of Subalpine Reservoirs: Implications on Management

Bioaccumulation of heavy metals inEphemera danicalarvae under influence of a trout farm outlet waters

Climate Change Impacts on Sediment Quality of Subalpine Reservoirs: Implications on Management

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