Health-economic valuation of lowering nitrate standards in drinking water related to colorectal cancer in Denmark

Department of Food and Resource Economics (IFRO)

Research output: Contribution to journal › Journal article › Research › peer-review

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Health-economic valuation of lowering nitrate standards in drinking water related to colorectal cancer in Denmark. / Jacobsen, Brian H.; Hansen, Birgitte; Schullehner, Jörg.

In: Science of the Total Environment, Vol. 906, 167368, 2024.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Jacobsen, BH, Hansen, B & Schullehner, J 2024, 'Health-economic valuation of lowering nitrate standards in drinking water related to colorectal cancer in Denmark', Science of the Total Environment, vol. 906, 167368. https://doi.org/10.1016/j.scitotenv.2023.167368

APA

Jacobsen, B. H., Hansen, B., & Schullehner, J. (2024). Health-economic valuation of lowering nitrate standards in drinking water related to colorectal cancer in Denmark. Science of the Total Environment, 906, [167368]. https://doi.org/10.1016/j.scitotenv.2023.167368

Vancouver

Jacobsen BH, Hansen B, Schullehner J. Health-economic valuation of lowering nitrate standards in drinking water related to colorectal cancer in Denmark. Science of the Total Environment. 2024;906. 167368. https://doi.org/10.1016/j.scitotenv.2023.167368

Author

Jacobsen, Brian H. ; Hansen, Birgitte ; Schullehner, Jörg. / Health-economic valuation of lowering nitrate standards in drinking water related to colorectal cancer in Denmark. In: Science of the Total Environment. 2024 ; Vol. 906.

Bibtex

@article{fdb0a033f6224327ae4a3bcac98b4886,

title = "Health-economic valuation of lowering nitrate standards in drinking water related to colorectal cancer in Denmark",

abstract = "Nitrate in drinking water is a contaminant which can affect human health and has been associated with an increased risk of, amongst other diseases, colorectal cancer. Based on epidemiologic data from Denmark on the association between drinking water nitrate and colorectal cancer, the health and economic consequences of lowering the standard of nitrate in drinking water from 50 mg/L to 9.25 mg/L and 3.87 mg/L, respectively are analyzed. The drinking water nitrate attributable number of cases was estimated using the risk in the exposed and unexposed population based on current nationwide exposure distributions. The analysis shows that a lower limit of 9.25 mg/L would decrease the annual number of colorectal cancer cases by 72 (95 % confidence interval: 34–114) and by an additional 55 (95 % CI: 10–100) for a stricter limit of 3.87 mg/L. The resulting avoided health-related costs are $179 million per year for the 9.25 mg/L nitrate limit and another $138 million per year for a further reduction to 3.87 mg/L nitrate. The new requirements would incur costs linked to either i) changes in land use management, ii) well reallocation or iii) use of treatment technologies. The additional costs are estimated to $0.03–1.84 per m3 abstracted water from public water companies, which together with costs for owners of private wells, will result in an average additional cost of $9 and $6 million per year for the two levels. The economic health benefits are higher than the costs for both limits with net gains of $170 million (9.25 mg/L) and additionally $132 million (3.87 mg/L) a year. Even in a worst-case scenario (lowest health-related benefits and highest mitigation costs), there is a likely economic gain for society from lowering the limit to 9.25 mg/L, but this might not be the case for the lower limit of 3.87 mg/L.",

keywords = "Colorectal cancer, Cost of purification, Cost-benefit, Drinking water, Groundwater, Nitrate",

author = "Jacobsen, {Brian H.} and Birgitte Hansen and J{\"o}rg Schullehner",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors",

year = "2024",

doi = "10.1016/j.scitotenv.2023.167368",

language = "English",

volume = "906",

journal = "Science of the Total Environment",

issn = "0048-9697",

publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Health-economic valuation of lowering nitrate standards in drinking water related to colorectal cancer in Denmark

AU - Jacobsen, Brian H.

AU - Hansen, Birgitte

AU - Schullehner, Jörg

PY - 2024

Y1 - 2024

N2 - Nitrate in drinking water is a contaminant which can affect human health and has been associated with an increased risk of, amongst other diseases, colorectal cancer. Based on epidemiologic data from Denmark on the association between drinking water nitrate and colorectal cancer, the health and economic consequences of lowering the standard of nitrate in drinking water from 50 mg/L to 9.25 mg/L and 3.87 mg/L, respectively are analyzed. The drinking water nitrate attributable number of cases was estimated using the risk in the exposed and unexposed population based on current nationwide exposure distributions. The analysis shows that a lower limit of 9.25 mg/L would decrease the annual number of colorectal cancer cases by 72 (95 % confidence interval: 34–114) and by an additional 55 (95 % CI: 10–100) for a stricter limit of 3.87 mg/L. The resulting avoided health-related costs are $179 million per year for the 9.25 mg/L nitrate limit and another $138 million per year for a further reduction to 3.87 mg/L nitrate. The new requirements would incur costs linked to either i) changes in land use management, ii) well reallocation or iii) use of treatment technologies. The additional costs are estimated to $0.03–1.84 per m3 abstracted water from public water companies, which together with costs for owners of private wells, will result in an average additional cost of $9 and $6 million per year for the two levels. The economic health benefits are higher than the costs for both limits with net gains of $170 million (9.25 mg/L) and additionally $132 million (3.87 mg/L) a year. Even in a worst-case scenario (lowest health-related benefits and highest mitigation costs), there is a likely economic gain for society from lowering the limit to 9.25 mg/L, but this might not be the case for the lower limit of 3.87 mg/L.

AB - Nitrate in drinking water is a contaminant which can affect human health and has been associated with an increased risk of, amongst other diseases, colorectal cancer. Based on epidemiologic data from Denmark on the association between drinking water nitrate and colorectal cancer, the health and economic consequences of lowering the standard of nitrate in drinking water from 50 mg/L to 9.25 mg/L and 3.87 mg/L, respectively are analyzed. The drinking water nitrate attributable number of cases was estimated using the risk in the exposed and unexposed population based on current nationwide exposure distributions. The analysis shows that a lower limit of 9.25 mg/L would decrease the annual number of colorectal cancer cases by 72 (95 % confidence interval: 34–114) and by an additional 55 (95 % CI: 10–100) for a stricter limit of 3.87 mg/L. The resulting avoided health-related costs are $179 million per year for the 9.25 mg/L nitrate limit and another $138 million per year for a further reduction to 3.87 mg/L nitrate. The new requirements would incur costs linked to either i) changes in land use management, ii) well reallocation or iii) use of treatment technologies. The additional costs are estimated to $0.03–1.84 per m3 abstracted water from public water companies, which together with costs for owners of private wells, will result in an average additional cost of $9 and $6 million per year for the two levels. The economic health benefits are higher than the costs for both limits with net gains of $170 million (9.25 mg/L) and additionally $132 million (3.87 mg/L) a year. Even in a worst-case scenario (lowest health-related benefits and highest mitigation costs), there is a likely economic gain for society from lowering the limit to 9.25 mg/L, but this might not be the case for the lower limit of 3.87 mg/L.

KW - Colorectal cancer

KW - Cost of purification

KW - Cost-benefit

KW - Drinking water

KW - Groundwater

KW - Nitrate

U2 - 10.1016/j.scitotenv.2023.167368

DO - 10.1016/j.scitotenv.2023.167368

M3 - Journal article

C2 - 37788765

AN - SCOPUS:85174439077

VL - 906

JO - Science of the Total Environment

JF - Science of the Total Environment

SN - 0048-9697

M1 - 167368

ER -

ID: 382758579