Abstract
In the spring and summer of 2001, as part of a larger study investigating farm family pesticide exposure and home contamination in Iowa, urine and hand wipe samples were collected from 24 male farmers and 23 male nonfarmer controls. On two occasions approximately 1 month apart, one hand wipe sample and an evening and morning urine sample were collected from each participant. The samples were analyzed for the parent compound or metabolites of six commonly used agricultural pesticides: alachlor, atrazine, acetochlor, metolachlor, 2,4-dichlorophenoxyacetic acid (2,4-D) and chlorpyrifos. For atrazine, acetochlor, metolachlor and 2,4-D, farmers who reported applying the pesticide had significantly higher urinary metabolite levels than nonfarmers, farmers who did not apply the pesticide, and farmers who had the pesticide commercially applied (P-value <0.05). Generally, there were no differences in urinary pesticide metabolite levels between nonfarmers, farmers who did not apply the pesticide, and farmers who had the pesticide commercially applied. Among farmers who reported applying 2,4-D themselves, time since application, amount of pesticide applied, and the number of acres to which the pesticide was applied were marginally associated with 2,4-D urine levels. Among farmers who reported applying atrazine themselves, time since application and farm size were marginally associated with atrazine mercapturate urine levels. Farmers who reported using a closed cab to apply these pesticides had higher urinary pesticide metabolite levels, although the difference was not statistically significant. Farmers who reported using closed cabs tended to use more pesticides. The majority of the hand wipe samples were nondetectable. However, detection of atrazine in the hand wipes was significantly associated with urinary levels of atrazine above the median (P-value <0.01).
This is a preview of subscription content, access via your institution
Access options
Subscribe to this journal
Receive 6 print issues and online access
$259.00 per year
only $43.17 per issue
Buy this article
- Purchase on Springer Link
- Instant access to full article PDF
Prices may be subject to local taxes which are calculated during checkout
Similar content being viewed by others
References
Alavanja M.C., Hoppin J.A., and Kamel F. Health effects of chronic pesticide exposure: cancer and neurotoxicity. Annu Rev Public Health 2004: 25: 155–197.
Alavanja M.C., Sandler D.P., McMaster S.B., Hoar-Zahm S., McDonnell C.J., Lynch C.F., Pennybacker M., Rothman N., Dosemeci M., Bond A.E., and Blair A. The agricultural health study. Environ Health Perspect 1996: 104 (4): 362–369.
Aprea C., Sciarra G., Sartorelli P., Desideri E., Amati R., and Sartorelli E. Biological monitoring of exposure to organophosphorus insecticides by assay of urinary alkylphosphates: influence of protective measures during manual operations with treated plants. Int Arch Occup Environ Health 1994: 66 (5): 333–338.
Arbuckle T.E., Schrader S.M., Cole D., Hall J.C., Bancej C.M., Turner L.A., and Claman P. 2,4-Dichlorophenoxyacetic acid residues in semen of Ontario farmers. Reprod Toxicol 1999: 13: 421–429.
Calumpang S.M.F. Exposure of four Filipino farmers to parathion-methyl while spraying string beans. Pestic Sci 1996: 46: 93–102.
Coronado G.D., Thompson B., Strong L., Griffith W.C., and Islas I. Agricultural task and exposure to organophosphate pesticides among farmworkers. Environ Health Perspect 2004: 112 (2): 142–147.
Curwin B.D., Sanderson W.T., Reynolds S.J., Hein M.J., and Alavanja M.C. Pesticide use and practices in an Iowa farm family pesticide exposure study. J Agric Safety Health 2002: 8 (4): 423–433.
Curwin B.D., Hein M.J., Sanderson W.T., Nishioka M.G., Reynolds S.J., Ward E.M., and Alavanja M.C. Pesticide contamination inside farm and non-farm homes. J Occup Environ Hyg 2005 (in press).
Daniels J.L., Olshan A.F., and Savitz D.A. Pesticides and childhood cancers. Environ Health Persp 1997: 105 (10): 1068–1077.
de Cock J., Heederik D., Kromhout H., Boleij J.S.M., Hock F., Wegh H., and Ny E.T. Exposure to Captan in fruit growing. Am Ind Hyg Assoc J 1998: 59: 158–165.
Denovan L.A., Lu C., Hines C.J., and Fenske R.A. Saliva biomonitoring of atrazine exposure among herbicide applicators. Int Arch Occup Environ Health 2000: 73: 457–462.
Dich J., Zahm S.H., Hanberg A., and Adami H.O. Pesticides and cancer. Cancer Causes Control 1997: 8 (3): 420–443.
EPA. Exposure Factors Handbook, Vol. 1, General Factors, EPA/600/P-95/002Fa. Office of Research and Development, National Center for Environmental Assessment, US. Environmental Protection Agency, Washington, DC, 1997.
EPA. Pesticide industry sales and usage: 1998 and 1999 market estimates. Biological and Economic Analysis Division Office of Pesticide Programs. Office of Prevention, Pesticides and Toxic Substances, US. Environmental Protection Agency, Washington, DC, 2002.
Flower K.B., Hoppin J.A., Lynch C.F., Blair A., Knott C., Shore D.L., and Sandler D.P. Cancer risk and parental pesticide application in children of Agricultural Health Study participants. Environ Health Perspect 2004: 112 (5): 631–635.
Geno P.W., Camann D.E., Harding H.J., Villalobos K., and Lewis R.G. Handwipe sampling and analysis procedure for the measurement of dermal contact with pesticides. Arch Environ Contam Toxicol 1996: 30: 132–138.
Hines C.J., Deddens J.A., Striley C.A., Biagini R.E., Shoemaker D.A., Brown K.K., MacKenzie B.A., and Hull R.D. Biological monitoring for selected herbicide biomarkers in the urine of exposed custom applicators: application of mixed-effect models. Ann Occup Hyg 2003: 47 (6): 503–517.
Hines C.J., and Deddens J.A. Determinants of chlorpyrifos exposures and urinary 3,5,6-trichloro-2-pyridinol levels among termiticide applicators. Ann Occup Hyg 2001: 45 (4): 309–321.
Hussain M., Yoshida K., Atiemo M., and Johnston D. Occupational exposure of grain farmers to carbofuran. Arch Environ Contam Toxicol 1990: 19 (2): 197–204.
Kirkhorn S.R., and Schenker M.B. Current health effects of agricultural work: respiratory disease, cancer, reproductive effects, musculoskeletal injuries, and pesticide-related illnesses. J Agric Saf Health 2002: 8 (2): 199–214.
Krieger R.I., and Dinnoff T.M. Malathion deposition, metabolite clearance and cholinesterase status of date dusters and harvesters in California. Arch Environ Contam Toxicol 2000: 38: 546–553.
Mandel J.H., Carr W.P., Hilmer T., Leaonard P.R., Halberg J.U., Sanderson W.T., and Mandel J.S. Factors associated with safe use of agricultural pesticides in Minnesota. J Rural Health 1996: 12 (4): 301–310.
Maroni M., and Fait A. Health effects in man from long-term exposure to pesticides: a review of the 1975–1991 literature. Toxicology 1993: 78 (1–3): 1–180.
Olsson A.O., Baker S.E., Nguyen J.V., Romanoff L.C.S., Udunka S.O., Walker R.D., Flemmen K., and and Barr D.B. A liquid chromatography tandem mass spectrometry multiresidue method for quantification of specific metabolites of organophosphorus pesticides, synthetic pyrethroids, selected herbicides and DEET in human urine. Anal Chem 2004: 76 (9): 2453–2461.
Perry M.J., Christiani D.C., Mathew J., Degenhardt D., Tortorelli J., Strauss J., and and Sonzogni W.C. Urinalysis of atrazine exposure in farm pesticide applicators. Toxicol Ind Health 2000: 16: 285–290.
Reynolds S.J., Merchant J.A., Stromquist A.M., Burmeister L.F., Taylor C., Lewis M.Q., and Kelly K.M. (1998) Keokuk County Iowa rural health study: self reported use of pesticides and protective equipment. J Agric Saf Health 1998: 1: 67–77.
Richter E.D., and Chlamtac N. Ames, pesticides and cancer revisted. J Occup Environ Health 2002: 8 (1): 63–72.
Sanderson W.T., Biagigni R., Tolos W., Henningsen G., and MacKenzie B. Biological monitoring of commercial pesticide applicators for urine metabolites of the herbicide alachlor. Am Ind Hyg Assoc J 1995: 56: 883–889.
SAS Institute Inc. SAS/STAT® 9.1 User's Guide. SAS Institute Inc: Cary, NC., 2004.
Stewart P.A., Fears T., Nichloson H.F., Kross B., Oglivie L., Hoar-Zahm S., Ward M.H., and Blair A. Exposure received from application of animal insecticides. Am Ind Hyg Assoc J 1999a: 60: 208–212.
Stewart P.A., Fears T., Kross B., Oglivie L., and Blair A. Exposure of farmers to phosmet, a swine insecticide. Scand J Work Environ Health 1999b: 25 (1): 33–38.
Tuomainen A., Kangas J.A., Meuling W.J.A., and Glass R.C. Monitoring of pesticide applicators for potential dermal exposure to malathion and biomarkers in urine. Toxicol Lett 2002: 134: 125–132.
USDA. Agricultural Chemical Usage: 1999 Field Crops Summary, 2000.
Zahm S.H., and Ward M.H. Pesticides and childhood cancer. Environ Health Perspect 1998: 106 (Suppl 3): 893–908.
Zahm S.H., Ward M.H., and Blair A. Pesticides and cancer. Occup Med 1997: 12 (2): 269–289.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Curwin, B., Hein, M., Sanderson, W. et al. Urinary and hand wipe pesticide levels among farmers and nonfarmers in Iowa. J Expo Sci Environ Epidemiol 15, 500–508 (2005). https://doi.org/10.1038/sj.jea.7500428
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1038/sj.jea.7500428
Keywords
This article is cited by
-
Association between increasing agricultural use of 2,4-D and population biomarkers of exposure: findings from the National Health and Nutrition Examination Survey, 2001–2014
Environmental Health (2022)
-
Measurement of urinary pesticide biomarkers among Latina farmworkers in southwestern Idaho
Journal of Exposure Science & Environmental Epidemiology (2021)
-
Pesticide exposure among Bolivian farmers: associations between worker protection and exposure biomarkers
Journal of Exposure Science & Environmental Epidemiology (2020)
-
Acetylcholinesterase activity and time after a peak pesticide-use period among Ecuadorian children
International Archives of Occupational and Environmental Health (2018)
-
Adult and child urinary 2,4-D in cities with and without cosmetic pesticide bylaws: a population-based cross-sectional pilot study
Journal of Exposure Science & Environmental Epidemiology (2017)
