Spatial characteristics of ecological and health risks of toxic heavy metal pollution from road dust in the Black Sea coast of Turkey

The purpose of this study was to investigate the toxic heavy metal (Cd, Cr, Cu, Ni, Pb, Zn) concentrations of dust samples from the Black Sea coastal road in the north of Turkey. The Black Sea coastal road was represented by 50 sampling sites. The highest average concentrations were identified in Or...

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Published inGeoderma Regional Vol. 25; p. e00388
Main Authors Yesilkanat, Cafer Mert, Kobya, Yasar
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.06.2021
Subjects
Black Sea
Black Sea coastal road
carcinogenicity
coasts
dust
Ecological risk
Health risk
Heavy metals
Pollution assessment
pollution load
risk
Road dust
Black Sea
Cd
ADD
HI
TCR
CF
Ei
HQ
Igeo
Heavy metals
Health risk
Cr
NIPI
Ecological risk
Cu
Pb
Road dust
Zn
Black Sea coastal road
Ni
PER
Pollution assessment
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Abstract The purpose of this study was to investigate the toxic heavy metal (Cd, Cr, Cu, Ni, Pb, Zn) concentrations of dust samples from the Black Sea coastal road in the north of Turkey. The Black Sea coastal road was represented by 50 sampling sites. The highest average concentrations were identified in Ordu for Cd (0.4 mg kg−1), Cu (132 mg kg−1), and Zn (457 mg kg−1), Samsun for Cr (59 mg kg−1) and Ni (46 mg kg−1), and Artvin for Pb (59 mg kg−1). The analysis of the environmental pollution risk levels of heavy metals was evaluated with the geo-accumulation index (Igeo), pollution assessment indexes (CF and NIPI) and pollution load indexes (PLI and PLIzone). The mean values of Igeo were found in the following decreasing order: Zn (1.2) > Cu (0.5) > Cd (0.2) > Pb (−0.4) > Cr (−0.6) = Ni (−0.6). According to pollution assessment indexes (CF and NIPI), and pollution load indexes (PLI and PLIzone), there were relatively high levels of environmental pollution in Samsun, Ordu, and Artvin provinces, compared to other provinces in the study area. Furthermore, it was identified that the significant contribution of the monomial potential ecological risk (Ei) originated from Cu in Rize (57.6%), Artvin (46.6%), Giresun (40.2%), Pb in Trabzon (31.1%), and Cd in Ordu (71.8%) and Samsun (62.6%). The mean potential ecological risk (PER) values of Ordu and Samsun were categorized as considerable risk. The health risks of toxic heavy metals in road dust for adults and children were evaluated in two different categories, as non-carcinogenic (hazard index, HI), and carcinogenic health risks (total cancer risk, TCR), considering the three possible exposure pathways. In the study area, the mean of HI and TCR for children and adults were found in the negligible non-carcinogenic health risk (HI < 1) and the lower cancer risk range (10−6 <TCR ≤ 10−4), respectively. •Toxic heavy metal concentrations of road dust on the eastern Black Sea coast were measured.•Spatial distributions of toxic heavy metals were mapped.•Heavy metal pollution levels caused by road dust were identified.•Ecological and human health risks based on heavy metals in road dust were evaluated.
AbstractList The purpose of this study was to investigate the toxic heavy metal (Cd, Cr, Cu, Ni, Pb, Zn) concentrations of dust samples from the Black Sea coastal road in the north of Turkey. The Black Sea coastal road was represented by 50 sampling sites. The highest average concentrations were identified in Ordu for Cd (0.4 mg kg−1), Cu (132 mg kg−1), and Zn (457 mg kg−1), Samsun for Cr (59 mg kg−1) and Ni (46 mg kg−1), and Artvin for Pb (59 mg kg−1). The analysis of the environmental pollution risk levels of heavy metals was evaluated with the geo-accumulation index (Igeo), pollution assessment indexes (CF and NIPI) and pollution load indexes (PLI and PLIzone). The mean values of Igeo were found in the following decreasing order: Zn (1.2) > Cu (0.5) > Cd (0.2) > Pb (−0.4) > Cr (−0.6) = Ni (−0.6). According to pollution assessment indexes (CF and NIPI), and pollution load indexes (PLI and PLIzone), there were relatively high levels of environmental pollution in Samsun, Ordu, and Artvin provinces, compared to other provinces in the study area. Furthermore, it was identified that the significant contribution of the monomial potential ecological risk (Ei) originated from Cu in Rize (57.6%), Artvin (46.6%), Giresun (40.2%), Pb in Trabzon (31.1%), and Cd in Ordu (71.8%) and Samsun (62.6%). The mean potential ecological risk (PER) values of Ordu and Samsun were categorized as considerable risk. The health risks of toxic heavy metals in road dust for adults and children were evaluated in two different categories, as non-carcinogenic (hazard index, HI), and carcinogenic health risks (total cancer risk, TCR), considering the three possible exposure pathways. In the study area, the mean of HI and TCR for children and adults were found in the negligible non-carcinogenic health risk (HI < 1) and the lower cancer risk range (10−6 <TCR ≤ 10−4), respectively. •Toxic heavy metal concentrations of road dust on the eastern Black Sea coast were measured.•Spatial distributions of toxic heavy metals were mapped.•Heavy metal pollution levels caused by road dust were identified.•Ecological and human health risks based on heavy metals in road dust were evaluated.
The purpose of this study was to investigate the toxic heavy metal (Cd, Cr, Cu, Ni, Pb, Zn) concentrations of dust samples from the Black Sea coastal road in the north of Turkey. The Black Sea coastal road was represented by 50 sampling sites. The highest average concentrations were identified in Ordu for Cd (0.4 mg kg⁻¹), Cu (132 mg kg⁻¹), and Zn (457 mg kg⁻¹), Samsun for Cr (59 mg kg⁻¹) and Ni (46 mg kg⁻¹), and Artvin for Pb (59 mg kg⁻¹). The analysis of the environmental pollution risk levels of heavy metals was evaluated with the geo-accumulation index (Igₑₒ), pollution assessment indexes (CF and NIPI) and pollution load indexes (PLI and PLIzₒₙₑ). The mean values of Igₑₒ were found in the following decreasing order: Zn (1.2) > Cu (0.5) > Cd (0.2) > Pb (−0.4) > Cr (−0.6) = Ni (−0.6). According to pollution assessment indexes (CF and NIPI), and pollution load indexes (PLI and PLIzₒₙₑ), there were relatively high levels of environmental pollution in Samsun, Ordu, and Artvin provinces, compared to other provinces in the study area. Furthermore, it was identified that the significant contribution of the monomial potential ecological risk (Eᵢ) originated from Cu in Rize (57.6%), Artvin (46.6%), Giresun (40.2%), Pb in Trabzon (31.1%), and Cd in Ordu (71.8%) and Samsun (62.6%). The mean potential ecological risk (PER) values of Ordu and Samsun were categorized as considerable risk. The health risks of toxic heavy metals in road dust for adults and children were evaluated in two different categories, as non-carcinogenic (hazard index, HI), and carcinogenic health risks (total cancer risk, TCR), considering the three possible exposure pathways. In the study area, the mean of HI and TCR for children and adults were found in the negligible non-carcinogenic health risk (HI < 1) and the lower cancer risk range (10⁻⁶ <TCR ≤ 10⁻⁴), respectively.
ArticleNumber e00388
Author Yesilkanat, Cafer Mert
Kobya, Yasar
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  organization: Artvin Çoruh University, Science Teaching Department, 08100 Artvin, Turkey
– sequence: 2
  givenname: Yasar
  surname: Kobya
  fullname: Kobya, Yasar
  organization: Artvin Çoruh University, Faculty of Engineering, Energy Systems Engineering, 08100 Artvin, Turkey
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Keywords Cd
ADD
HI
TCR
CF
Ei
HQ
Igeo
Heavy metals
Health risk
Cr
NIPI
Ecological risk
Cu
Pb
Road dust
Zn
Black Sea coastal road
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Snippet The purpose of this study was to investigate the toxic heavy metal (Cd, Cr, Cu, Ni, Pb, Zn) concentrations of dust samples from the Black Sea coastal road in...
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SubjectTerms Black Sea
Black Sea coastal road
carcinogenicity
coasts
dust
Ecological risk
Health risk
Heavy metals
Pollution assessment
pollution load
risk
Road dust
Title Spatial characteristics of ecological and health risks of toxic heavy metal pollution from road dust in the Black Sea coast of Turkey
URI https://dx.doi.org/10.1016/j.geodrs.2021.e00388
https://www.proquest.com/docview/2524294220
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