Fluoride occurrence and human health risk from groundwater use at the west coast of Urmia Lake, Iran

Amiri, Vahab; Berndtsson, Ronny

Fluoride occurrence and human health risk from groundwater use at the west coast of Urmia Lake, Iran

Mark

Amiri, Vahab and Berndtsson, Ronny ^LU

(2020) In Arabian Journal of Geosciences 13(18).

Abstract: We investigated fluoride (F⁻) concentration and physicochemical features of groundwater in the Urmia coastal aquifer (northwest, Iran). Groundwater samples were collected during both dry (58 wells) and wet seasons (84 wells). Approximately 15 and 23% of the groundwater samples in the dry and wet seasons, respectively, exceeded the recommended F⁻ value by WHO for drinking water (1.5 mg/L). High F⁻ concentration in groundwater is mainly found in shallow wells. The cause of high F⁻ concentration appears to be mainly caused by human activities. Agricultural fertilizers and industrial waste can result in rapid release of F⁻ into the groundwater. Release of F⁻ into the... (More); We investigated fluoride (F⁻) concentration and physicochemical features of groundwater in the Urmia coastal aquifer (northwest, Iran). Groundwater samples were collected during both dry (58 wells) and wet seasons (84 wells). Approximately 15 and 23% of the groundwater samples in the dry and wet seasons, respectively, exceeded the recommended F⁻ value by WHO for drinking water (1.5 mg/L). High F⁻ concentration in groundwater is mainly found in shallow wells. The cause of high F⁻ concentration appears to be mainly caused by human activities. Agricultural fertilizers and industrial waste can result in rapid release of F⁻ into the groundwater. Release of F⁻ into the groundwater can, however, also be triggered by the interaction between rock and water. In the experimental area, high F⁻ concentrations were found close to volcanic rocks. Health risks from exposure to F⁻ in groundwater were analyzed for adults and children. Utilizing sensitivity analysis and Monte Carlo simulation, the uncertainties in the risk estimates were calculated. Sensitivity analyses showed that the most pertinent variables are F⁻ concentration in drinking water, averaging time, exposure time, and ingestion rate of water. Children are more susceptible to the noncarcinogenic risk of F⁻ in groundwater.
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Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/fabd35b4-7bdf-4842-bdc4-bf0f73b6b577

author

Amiri, Vahab and Berndtsson, Ronny ^LU

organization

publishing date

2020

type

Contribution to journal

publication status

published

subject

Geotechnical Engineering

keywords

Deterministic and probabilistic approaches, Fluoride, Human health risk, Hydrogeochemistry, Monte Carlo simulation, Urmia aquifer

in

Arabian Journal of Geosciences

volume

13

issue

18

article number

921

publisher

Springer

external identifiers

scopus:85090337791

ISSN

1866-7511

DOI

10.1007/s12517-020-05905-7

language

English

LU publication?

yes

id

fabd35b4-7bdf-4842-bdc4-bf0f73b6b577

date added to LUP

2020-09-30 13:48:24

date last changed

2023-10-08 11:32:06

@article{fabd35b4-7bdf-4842-bdc4-bf0f73b6b577,
  abstract     = {{<p>We investigated fluoride (F<sup>−</sup>) concentration and physicochemical features of groundwater in the Urmia coastal aquifer (northwest, Iran). Groundwater samples were collected during both dry (58 wells) and wet seasons (84 wells). Approximately 15 and 23% of the groundwater samples in the dry and wet seasons, respectively, exceeded the recommended F<sup>−</sup> value by WHO for drinking water (1.5 mg/L). High F<sup>−</sup> concentration in groundwater is mainly found in shallow wells. The cause of high F<sup>−</sup> concentration appears to be mainly caused by human activities. Agricultural fertilizers and industrial waste can result in rapid release of F<sup>−</sup> into the groundwater. Release of F<sup>−</sup> into the groundwater can, however, also be triggered by the interaction between rock and water. In the experimental area, high F<sup>−</sup> concentrations were found close to volcanic rocks. Health risks from exposure to F<sup>−</sup> in groundwater were analyzed for adults and children. Utilizing sensitivity analysis and Monte Carlo simulation, the uncertainties in the risk estimates were calculated. Sensitivity analyses showed that the most pertinent variables are F<sup>−</sup> concentration in drinking water, averaging time, exposure time, and ingestion rate of water. Children are more susceptible to the noncarcinogenic risk of F<sup>−</sup> in groundwater.</p>}},
  author       = {{Amiri, Vahab and Berndtsson, Ronny}},
  issn         = {{1866-7511}},
  keywords     = {{Deterministic and probabilistic approaches; Fluoride; Human health risk; Hydrogeochemistry; Monte Carlo simulation; Urmia aquifer}},
  language     = {{eng}},
  number       = {{18}},
  publisher    = {{Springer}},
  series       = {{Arabian Journal of Geosciences}},
  title        = {{Fluoride occurrence and human health risk from groundwater use at the west coast of Urmia Lake, Iran}},
  url          = {{http://dx.doi.org/10.1007/s12517-020-05905-7}},
  doi          = {{10.1007/s12517-020-05905-7}},
  volume       = {{13}},
  year         = {{2020}},
}

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Fluoride occurrence and human health risk from groundwater use at the west coast of Urmia Lake, Iran