Contamination by As, Hg, and Sb in a region with geogenic As anomaly and subsequent human health risk characterization

Mert Guney; Tuna Karatas; Cafer Ozkul; Nihat Hakan Akyol; Recep Ugur Acar

doi:10.1007/s10661-019-8024-9

Contamination by As, Hg, and Sb in a region with geogenic As anomaly and subsequent human health risk characterization

Mert Guney, Tuna Karatas, Cafer Ozkul, Nihat Hakan Akyol, Recep Ugur Acar

Research output: Contribution to journal › Article

Abstract

Arsenic (As) is among the most harmful toxic elements to human health with severe carcinogenic and non-carcinogenic effects. The present study aims to (1) characterize a site with geogenic As anomaly (Emet basin) in Kutahya, Turkey via soil (urban, agriculture, forest; n = 53 total), water (n = 11), and agricultural product (n = 19) samples; and, (2) characterize human health risks for different receptors under specific exposure scenarios. Soil As levels were very high (range, 22.4–765 mg kg⁻¹). Previous literature suggested some evidence of Sb and Hg combined with As in mineral forms in the region; the present study found elevated Sb (up to 76.0 mg kg⁻¹) in two regions with very high As levels, but Hg concentrations were low in the region. Soils from urban/agricultural zones (representing anthropogenic impact) did not have statistically different As levels compared with forest soils (representing low/no human impact). As water concentrations were also very high (range, 14.0–729 μg L⁻¹), however, uptake by agricultural products was low, mostly limited to wheat (up to 0.7 mg kg⁻¹). Exposure assessment/risk characterization showed that non-carcinogenic risk following exposure to soils was very high for children (hazard index up to 37 under reasonable maximum exposure) as well as carcinogenic risk (probability up to 1.19E−3). The risk was even higher considering intake of water, and in this case, both for children and adults (HI, 4.0–66.6; cancer risk, 1.29E−4–1.84E−2). The potential adverse outcomes of the As anomaly in the region may be grave, thus further geochemical investigation of As speciation and mobile fractions as well as gastrointestinal As bioaccessibility supplementing probabilistic human health risk characterization are recommended.

Original language	English
Article number	50
Journal	Environmental Monitoring and Assessment
Volume	192
Issue number	1
DOIs	https://doi.org/10.1007/s10661-019-8024-9
Publication status	Published - Jan 1 2020

Fingerprint

Health risks

Arsenic

health risk

arsenic

Contamination

anomaly

Soils

Agricultural products

soil

contamination

human health

urban agriculture

Water

anthropogenic effect

Risk assessment

water

Agriculture

forest soil

Hazards

risk assessment

Keywords

Arsenic
Exposure assessment
Risk characterization
Site characterization
Soil contamination
Water contamination

ASJC Scopus subject areas

Environmental Science(all)
Pollution
Management, Monitoring, Policy and Law

Cite this

Guney, M., Karatas, T., Ozkul, C., Akyol, N. H., & Acar, R. U. (2020). Contamination by As, Hg, and Sb in a region with geogenic As anomaly and subsequent human health risk characterization. Environmental Monitoring and Assessment, 192(1), [50]. https://doi.org/10.1007/s10661-019-8024-9

Contamination by As, Hg, and Sb in a region with geogenic As anomaly and subsequent human health risk characterization. / Guney, Mert; Karatas, Tuna; Ozkul, Cafer; Akyol, Nihat Hakan; Acar, Recep Ugur.

In: Environmental Monitoring and Assessment, Vol. 192, No. 1, 50, 01.01.2020.

Research output: Contribution to journal › Article

Guney, M, Karatas, T, Ozkul, C, Akyol, NH & Acar, RU 2020, 'Contamination by As, Hg, and Sb in a region with geogenic As anomaly and subsequent human health risk characterization', Environmental Monitoring and Assessment, vol. 192, no. 1, 50. https://doi.org/10.1007/s10661-019-8024-9

Guney M, Karatas T, Ozkul C, Akyol NH, Acar RU. Contamination by As, Hg, and Sb in a region with geogenic As anomaly and subsequent human health risk characterization. Environmental Monitoring and Assessment. 2020 Jan 1;192(1). 50. https://doi.org/10.1007/s10661-019-8024-9

Guney, Mert ; Karatas, Tuna ; Ozkul, Cafer ; Akyol, Nihat Hakan ; Acar, Recep Ugur. / Contamination by As, Hg, and Sb in a region with geogenic As anomaly and subsequent human health risk characterization. In: Environmental Monitoring and Assessment. 2020 ; Vol. 192, No. 1.

@article{fc6a055576634b48b2fbdfd8040dd730,

title = "Contamination by As, Hg, and Sb in a region with geogenic As anomaly and subsequent human health risk characterization",

abstract = "Arsenic (As) is among the most harmful toxic elements to human health with severe carcinogenic and non-carcinogenic effects. The present study aims to (1) characterize a site with geogenic As anomaly (Emet basin) in Kutahya, Turkey via soil (urban, agriculture, forest; n = 53 total), water (n = 11), and agricultural product (n = 19) samples; and, (2) characterize human health risks for different receptors under specific exposure scenarios. Soil As levels were very high (range, 22.4–765 mg kg−1). Previous literature suggested some evidence of Sb and Hg combined with As in mineral forms in the region; the present study found elevated Sb (up to 76.0 mg kg−1) in two regions with very high As levels, but Hg concentrations were low in the region. Soils from urban/agricultural zones (representing anthropogenic impact) did not have statistically different As levels compared with forest soils (representing low/no human impact). As water concentrations were also very high (range, 14.0–729 μg L−1), however, uptake by agricultural products was low, mostly limited to wheat (up to 0.7 mg kg−1). Exposure assessment/risk characterization showed that non-carcinogenic risk following exposure to soils was very high for children (hazard index up to 37 under reasonable maximum exposure) as well as carcinogenic risk (probability up to 1.19E−3). The risk was even higher considering intake of water, and in this case, both for children and adults (HI, 4.0–66.6; cancer risk, 1.29E−4–1.84E−2). The potential adverse outcomes of the As anomaly in the region may be grave, thus further geochemical investigation of As speciation and mobile fractions as well as gastrointestinal As bioaccessibility supplementing probabilistic human health risk characterization are recommended.",

keywords = "Arsenic, Exposure assessment, Risk characterization, Site characterization, Soil contamination, Water contamination",

author = "Mert Guney and Tuna Karatas and Cafer Ozkul and Akyol, {Nihat Hakan} and Acar, {Recep Ugur}",

year = "2020",

month = "1",

day = "1",

doi = "10.1007/s10661-019-8024-9",

language = "English",

volume = "192",

journal = "Environmental Monitoring and Assessment",

issn = "0167-6369",

publisher = "Springer Netherlands",

number = "1",

}

TY - JOUR

T1 - Contamination by As, Hg, and Sb in a region with geogenic As anomaly and subsequent human health risk characterization

AU - Guney, Mert

AU - Karatas, Tuna

AU - Ozkul, Cafer

AU - Akyol, Nihat Hakan

AU - Acar, Recep Ugur

PY - 2020/1/1

Y1 - 2020/1/1

N2 - Arsenic (As) is among the most harmful toxic elements to human health with severe carcinogenic and non-carcinogenic effects. The present study aims to (1) characterize a site with geogenic As anomaly (Emet basin) in Kutahya, Turkey via soil (urban, agriculture, forest; n = 53 total), water (n = 11), and agricultural product (n = 19) samples; and, (2) characterize human health risks for different receptors under specific exposure scenarios. Soil As levels were very high (range, 22.4–765 mg kg−1). Previous literature suggested some evidence of Sb and Hg combined with As in mineral forms in the region; the present study found elevated Sb (up to 76.0 mg kg−1) in two regions with very high As levels, but Hg concentrations were low in the region. Soils from urban/agricultural zones (representing anthropogenic impact) did not have statistically different As levels compared with forest soils (representing low/no human impact). As water concentrations were also very high (range, 14.0–729 μg L−1), however, uptake by agricultural products was low, mostly limited to wheat (up to 0.7 mg kg−1). Exposure assessment/risk characterization showed that non-carcinogenic risk following exposure to soils was very high for children (hazard index up to 37 under reasonable maximum exposure) as well as carcinogenic risk (probability up to 1.19E−3). The risk was even higher considering intake of water, and in this case, both for children and adults (HI, 4.0–66.6; cancer risk, 1.29E−4–1.84E−2). The potential adverse outcomes of the As anomaly in the region may be grave, thus further geochemical investigation of As speciation and mobile fractions as well as gastrointestinal As bioaccessibility supplementing probabilistic human health risk characterization are recommended.

AB - Arsenic (As) is among the most harmful toxic elements to human health with severe carcinogenic and non-carcinogenic effects. The present study aims to (1) characterize a site with geogenic As anomaly (Emet basin) in Kutahya, Turkey via soil (urban, agriculture, forest; n = 53 total), water (n = 11), and agricultural product (n = 19) samples; and, (2) characterize human health risks for different receptors under specific exposure scenarios. Soil As levels were very high (range, 22.4–765 mg kg−1). Previous literature suggested some evidence of Sb and Hg combined with As in mineral forms in the region; the present study found elevated Sb (up to 76.0 mg kg−1) in two regions with very high As levels, but Hg concentrations were low in the region. Soils from urban/agricultural zones (representing anthropogenic impact) did not have statistically different As levels compared with forest soils (representing low/no human impact). As water concentrations were also very high (range, 14.0–729 μg L−1), however, uptake by agricultural products was low, mostly limited to wheat (up to 0.7 mg kg−1). Exposure assessment/risk characterization showed that non-carcinogenic risk following exposure to soils was very high for children (hazard index up to 37 under reasonable maximum exposure) as well as carcinogenic risk (probability up to 1.19E−3). The risk was even higher considering intake of water, and in this case, both for children and adults (HI, 4.0–66.6; cancer risk, 1.29E−4–1.84E−2). The potential adverse outcomes of the As anomaly in the region may be grave, thus further geochemical investigation of As speciation and mobile fractions as well as gastrointestinal As bioaccessibility supplementing probabilistic human health risk characterization are recommended.

KW - Arsenic

KW - Exposure assessment

KW - Risk characterization

KW - Site characterization

KW - Soil contamination

KW - Water contamination

UR - http://www.scopus.com/inward/record.url?scp=85076511473&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85076511473&partnerID=8YFLogxK

U2 - 10.1007/s10661-019-8024-9

DO - 10.1007/s10661-019-8024-9

M3 - Article

C2 - 31848713

AN - SCOPUS:85076511473

VL - 192

JO - Environmental Monitoring and Assessment

JF - Environmental Monitoring and Assessment

SN - 0167-6369

IS - 1

M1 - 50

ER -

Access to Document

10.1007/s10661-019-8024-9