Review of the published exposure data to pesticides for residents and bystanders, and for environmental risk assessment: Final report
2017; European Food Safety Authority; Volume: 14; Issue: 5 Linguagem: Inglês
10.2903/sp.efsa.2017.en-1204
ISSN2397-8325
AutoresKathleen Lewis, John Tzilivakis,
Tópico(s)Insect and Pesticide Research
ResumoEFSA Supporting PublicationsVolume 14, Issue 5 1204E External scientific reportOpen Access Review of the published exposure data to pesticides for residents and bystanders, and for environmental risk assessment: Final report Professor Kathy Lewis, Professor Kathy Lewis Agriculture and Environment Research Unit, University of HertfordshireSearch for more papers by this authorDr John Tzilivakis, Dr John Tzilivakis Agriculture and Environment Research Unit, University of HertfordshireSearch for more papers by this author Professor Kathy Lewis, Professor Kathy Lewis Agriculture and Environment Research Unit, University of HertfordshireSearch for more papers by this authorDr John Tzilivakis, Dr John Tzilivakis Agriculture and Environment Research Unit, University of HertfordshireSearch for more papers by this author First published: 04 May 2017 https://doi.org/10.2903/sp.efsa.2017.EN-1204Citations: 5 Question number: EFSA-Q-2015-00524 Disclaimer: The present document has been produced and adopted by the bodies identified above as authors. This task has been carried out exclusively by the authors in the context of a contract between the European Food Safety Authority and the authors, awarded following a tender procedure. The present document is published complying with the transparency principle to which the Authority is subject. It may not be considered as an output adopted by the Authority. The European Food Safety Authority reserves its rights, view and position as regards the issues addressed and the conclusions reached in the present document, without prejudice to the rights of the authors. Dash-board for selecting and screening data: https://dwh.efsa.europa.eu/bi/asp/Main.aspx?rwtrep=554 Background and raw data published in Zenodo: https://zenodo.org/record/344893#.WRBb1FV97cs AboutPDF ToolsExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL References Bedos, C., Rousseau-Djabri, M. F., Flura, D., Masson, S., Barriuso, E., & Cellier, P. (2002) Rate of pesticide volatilization from soil: an experimental approach with a wind tunnel system applied to trifluralin. Atmospheric Environment, 36(39), 5917– 5925 Bozdogan, A. M. and Yarpuz-Bozdogan, N. (2008) Determination of dermal bystander exposure of malathion for different application techniques. Fresenius Environ. Bull, 17(12a): 2103– 2108 Brouwer, D.H., De Vreede, J.A.F., Ravensberg, J.C., Engel, R. and Van Hemmen, J.J. (1992) Dissipation of aerosols from greenhouse air after application of pesticides using a Low-Volume technique. Implications for safe re-entry. Chemosphere, 24(9): 1157– 1169 Butler Ellis, M., Lane, A. G., O'Sullivan, C. M., Miller, P. C. H., & Glass, C. R. (2010) Bystander exposure to pesticide spray drift: New data for model development and validation. Biosystems engineering, 107(3), 162– 168. Carlsen, S.C.K., Spliid, N.H. and Svensmark, B. (2006) Drift of 10 herbicides after tractor spray application. 1. Secondary drift (evaporation). Chemosphere, 64(5): 787– 794. CropLife (2015) Benefits of pesticides and crop protection chemicals. CropLife America. Available at: https://croplife.org/crop-protection/benefits/ (Last accessed: 28/10/2015) Dabrowski, J.M. and Schulz, R. (2003) Predicted and measured levels of azinphos methyl in the Lourens River, South Africa: Comparison of runoff and spray drift. Environmental Toxicology and Chemistry 22(3): 494– 500 DEFRA (2005) The assessment of the risk of bystander contamination during the application of pesticides to field arable crops in typical UK conditions, Report PS2006 to Defra, UK from Silsoe Research Institute EFSA (2014a) Outcome of the Public Consultation on the draft EFSA Guidance Document on the Assessment of Exposure for Operators, Workers, Residents and Bystanders in Risk Assessment for Plant Protection Products. EFSA Supporting Publications 2014:EN-681 EFSA (2014b) Guidance on the assessment of exposure of operators, workers, residents and bystanders in risk assessment for plant protection products. EFSA Journal 2014; 12(10):3874 EFSA (2010) Scientific Opinion on Preparation of a Guidance Document on Pesticide Exposure Assessment for Workers, Operators, Bystanders and Residents, EFSA Panel on Plant Protection Products and their Residues (PPR). EFSA Journal, 8(2):1501 Evaristo, A. and de Baptista, G.C.D. (2002) Dislodgeable residues of methamidophos in staked tomatoes. Scientia Agricola, 59(3), 469– 473. DOI: 10.1590/S0103-90162002000300010 Garthwaite, D., Sinclair, C.J., Glass, R., Pote, A., Trevisan, M., Sacchettini, G., Spanoghe, P., Ngoc, K.D., Fevery, D., Machera, K., Charistou, A., Nikolopoulou, D., Aarapaki, N., Tskirakis, A., Gerritsen-Ebben, R., Spaan, S., González, F.E., Stobiecki, S., Śliwiński, W., Stobiecki, T. and Hakaite, P. (2015) Collection of Pesticide Application Data in View of Performing Environmental Risk Assessments for Pesticides. EFSA supporting publication 2015:EN-846, 246 pp Giles, D.K., Welsh, A., Steinke, W.E. and Saiz, S.G. (1995) Pesticide inhalation exposure, air concentration and droplet size spectra from greenhouse fogging. Transactions of the ASAE, 38(5): 1321– 1326. Glass, C.R., Mathers, J.J., Harrington, P., Miller, P.C.H., Butler-Ellis, C., Lane, A., O'Sullivan, C., Ferreira, M.C., Balsari, P., Carpenter, P.I. and Cooper, S.E. (2010) Generation of field data for bystander exposure and spray drift with arable sprayers. Aspects of Applied Biology, 99: 271– 276 Hamey, P.Y. (1999) Assessing risk to operators, bystanders, and workers from the use of plant protection products. In: Proceedings of the XI Symposium Pesticide Chemistry, 11–15 September 1999, Cremona, Italy, pp. 619–631 Hernandez, B.Z., Spencer, J., Schneider, F., Welsh, A. and Fredrickson, S. (2002) A summary of dislodgeable foliar pesticide residues at expiration of the restricted entry interval. CDPR Report No. HS-1784. Worker Health and Safety Branch, Department of Pesticide Regulation, California EPA. Sacramento, CA, USA Iwata, Y., Foster, R.J., Knaak, J.B. and Spear, R.C. (1977) Worker re-entry into pesticide-treated crops. I. procedure for the determination of dislodgeable pesticide residues on foliage. Bulletin of Environmental Contamination and Toxicology, 18(6): 649– 655 Klonne, D. (1999) Integrated Report on Evaluation of Potential Exposure to Homeowners and Professional Lawn Care Operators Mixing, Loading, and Applying Granular and Liquid Pesticides to Residential Lawns. Sponsor/Submitter: Outdoor Residential Exposure Task Force. Lloyd, G. A., & Bell, G. J. (1983). Hydraulic nozzles: comparative drift study. MAFF report SC 7704. Manninen, A., Kangas, J., Tuomainen, A. & Tahvonen, R. (1996) Exposure to insecticides in the use of cold fog generators in greenhouses. Toxicological & Environmental Chemistry, 57(1-4): 213– 224 Martin, S., Westphal, D., Erdtmann-Vourliotis, M., Dechet, F., Schulze-Rosario, C., Stauber, F., Wicke, H. and Chester, G. (2008) Guidance for exposure and risk evaluation for bystanders and residents exposed to plant protection products during and after application, Journal für Verbraucherschutz und Lebensmittelsicherheit, 3: 272– 281 Nishioka, M. G., Burkholder, H. M., Brinkman, M. C., Gordon, S. M. and Lewis, R. G. (1996). Measuring transport of lawn-applied herbicide acids from turf to home: correlation of dislodgeable 2, 4-D turf residues with carpet dust and carpet surface residues. Environmental science & technology, 30(11): 3313– 3320 Pochi, D., Biocca, M., Fanigliulo, R., Gallo, P., Fedrizzi, M., Pulcini, P., Perrino, C. and Marcovecchio, F. (2015) A device for pneumatic precision drills reducing the drift of the abrasion dust from dressed seed. Crop Protection, 74: 56– 64. RCEP (2005) Crop spraying and the health of residents and bystanders. Royal Commission on Environmental Pollution (RCEP), London. Available at: http://www.rcep.org.uk/reports/sr-2006-cropspraying/documents/RCEP-crop-spraying.pdf (Last accessed: 28/10/2015) USEPA (2012) Standard Operating Procedures for Residential pesticide Exposure Assessment, U.S. EPA Office of Pesticide Programmes, available at: https://www.epa.gov/sites/production/files/2015-08/documents/usepa-opp-hed_residential_sops_oct2012.pdf. Van Welie, R.T.H., Van Duyn, P. and Vermeulen, N.P.E. (1991) Environmental and biological monitoring of non-occupational exposure to 1, 3-dichloropropene. International archives of occupational and environmental health, 63(3): 169– 173 Citing Literature Volume14, Issue5May 20171204E ReferencesRelatedInformation
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