The BROWSE model for predicting exposures of residents and bystanders to agricultural use of plant protection products : an overview
- Author
- M Clare Butler Ellis, Jan C van de Zande, Frederik van den Berg, Marc C Kennedy, Christine M O'Sullivan, Cor M Jacobs, Georgios Fragkoulis, Pieter Spanoghe (UGent) , Rianda Gerritsen-Ebben, Lynn J Frewer and Agathi Charistou
- Organization
- Abstract
- New models have been developed, with the aim of improving the estimate of exposure of residents and bystanders to agricultural pesticides for regulatory purposes. These are part of a larger suite of models also covering operators and workers. The population that is modelled for residents and bystanders relates to people (both adults and children) who have no association with the application (i.e. not occupational exposure) but are adjacent to the treated area during and/or after the application process. The scenarios that the models aim to describe are based on consideration of both best practice and of real practice, as shown in surveys and from expert knowledge obtained in stakeholder consultations. The work has focused on three causes of exposure identified as having potential for improvement: boom sprayers, orchard sprayers and vapour emissions.
- Keywords
- Spray drift, Vapour drift, Boom sprayer, Orchard sprayer, FAN ORCHARD SPRAYER, SIZED APPLE-TREES, FLOW-RATE, VOLATILIZATION, LOSSES, DEPOSITS, CROP, SYSTEM, DRIFT
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Citation
Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-8510786
- MLA
- Butler Ellis, M. Clare, et al. “The BROWSE Model for Predicting Exposures of Residents and Bystanders to Agricultural Use of Plant Protection Products : An Overview.” BIOSYSTEMS ENGINEERING, vol. 154, 2017, pp. 92–104, doi:10.1016/j.biosystemseng.2016.08.017.
- APA
- Butler Ellis, M. C., van de Zande, J. C., van den Berg, F., Kennedy, M. C., O’Sullivan, C. M., Jacobs, C. M., … Charistou, A. (2017). The BROWSE model for predicting exposures of residents and bystanders to agricultural use of plant protection products : an overview. BIOSYSTEMS ENGINEERING, 154, 92–104. https://doi.org/10.1016/j.biosystemseng.2016.08.017
- Chicago author-date
- Butler Ellis, M Clare, Jan C van de Zande, Frederik van den Berg, Marc C Kennedy, Christine M O’Sullivan, Cor M Jacobs, Georgios Fragkoulis, et al. 2017. “The BROWSE Model for Predicting Exposures of Residents and Bystanders to Agricultural Use of Plant Protection Products : An Overview.” BIOSYSTEMS ENGINEERING 154: 92–104. https://doi.org/10.1016/j.biosystemseng.2016.08.017.
- Chicago author-date (all authors)
- Butler Ellis, M Clare, Jan C van de Zande, Frederik van den Berg, Marc C Kennedy, Christine M O’Sullivan, Cor M Jacobs, Georgios Fragkoulis, Pieter Spanoghe, Rianda Gerritsen-Ebben, Lynn J Frewer, and Agathi Charistou. 2017. “The BROWSE Model for Predicting Exposures of Residents and Bystanders to Agricultural Use of Plant Protection Products : An Overview.” BIOSYSTEMS ENGINEERING 154: 92–104. doi:10.1016/j.biosystemseng.2016.08.017.
- Vancouver
- 1.Butler Ellis MC, van de Zande JC, van den Berg F, Kennedy MC, O’Sullivan CM, Jacobs CM, et al. The BROWSE model for predicting exposures of residents and bystanders to agricultural use of plant protection products : an overview. BIOSYSTEMS ENGINEERING. 2017;154:92–104.
- IEEE
- [1]M. C. Butler Ellis et al., “The BROWSE model for predicting exposures of residents and bystanders to agricultural use of plant protection products : an overview,” BIOSYSTEMS ENGINEERING, vol. 154, pp. 92–104, 2017.
@article{8510786, abstract = {{New models have been developed, with the aim of improving the estimate of exposure of residents and bystanders to agricultural pesticides for regulatory purposes. These are part of a larger suite of models also covering operators and workers. The population that is modelled for residents and bystanders relates to people (both adults and children) who have no association with the application (i.e. not occupational exposure) but are adjacent to the treated area during and/or after the application process. The scenarios that the models aim to describe are based on consideration of both best practice and of real practice, as shown in surveys and from expert knowledge obtained in stakeholder consultations. The work has focused on three causes of exposure identified as having potential for improvement: boom sprayers, orchard sprayers and vapour emissions.}}, author = {{Butler Ellis, M Clare and van de Zande, Jan C and van den Berg, Frederik and Kennedy, Marc C and O'Sullivan, Christine M and Jacobs, Cor M and Fragkoulis, Georgios and Spanoghe, Pieter and Gerritsen-Ebben, Rianda and Frewer, Lynn J and Charistou, Agathi}}, issn = {{1537-5110}}, journal = {{BIOSYSTEMS ENGINEERING}}, keywords = {{Spray drift,Vapour drift,Boom sprayer,Orchard sprayer,FAN ORCHARD SPRAYER,SIZED APPLE-TREES,FLOW-RATE,VOLATILIZATION,LOSSES,DEPOSITS,CROP,SYSTEM,DRIFT}}, language = {{eng}}, pages = {{92--104}}, title = {{The BROWSE model for predicting exposures of residents and bystanders to agricultural use of plant protection products : an overview}}, url = {{http://doi.org/10.1016/j.biosystemseng.2016.08.017}}, volume = {{154}}, year = {{2017}}, }
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