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Formulation approaches to reduce post-application pesticide volatilisation from glass surfaces

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Keywords
Volatilisation modelling, Formulation, Adjuvants, Vapour pressure, SOLID-PHASE MICROEXTRACTION, PHYSICOCHEMICAL PROPERTIES, CROP PROTECTION, VAPOR-PRESSURE, POTATO CROP, SOIL, CHLORPYRIFOS, LINDANE, MODEL, CHLOROTHALONIL

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Citation

Please use this url to cite or link to this publication:

MLA
Houbraken, Michael et al. “Formulation Approaches to Reduce Post-application Pesticide Volatilisation from Glass Surfaces.” SCIENCE OF THE TOTAL ENVIRONMENT 633 (2018): 728–737. Print.
APA
Houbraken, Michael, Senaeve, D., López Dávila, E., Habimana, V., De Cauwer, B., & Spanoghe, P. (2018). Formulation approaches to reduce post-application pesticide volatilisation from glass surfaces. SCIENCE OF THE TOTAL ENVIRONMENT, 633, 728–737.
Chicago author-date
Houbraken, Michael, David Senaeve, Edelbis López Dávila, Valens Habimana, Benny De Cauwer, and Pieter Spanoghe. 2018. “Formulation Approaches to Reduce Post-application Pesticide Volatilisation from Glass Surfaces.” Science of the Total Environment 633: 728–737.
Chicago author-date (all authors)
Houbraken, Michael, David Senaeve, Edelbis López Dávila, Valens Habimana, Benny De Cauwer, and Pieter Spanoghe. 2018. “Formulation Approaches to Reduce Post-application Pesticide Volatilisation from Glass Surfaces.” Science of the Total Environment 633: 728–737.
Vancouver
1.
Houbraken M, Senaeve D, López Dávila E, Habimana V, De Cauwer B, Spanoghe P. Formulation approaches to reduce post-application pesticide volatilisation from glass surfaces. SCIENCE OF THE TOTAL ENVIRONMENT. 2018;633:728–37.
IEEE
[1]
M. Houbraken, D. Senaeve, E. López Dávila, V. Habimana, B. De Cauwer, and P. Spanoghe, “Formulation approaches to reduce post-application pesticide volatilisation from glass surfaces,” SCIENCE OF THE TOTAL ENVIRONMENT, vol. 633, pp. 728–737, 2018.
@article{8559724,
  author       = {Houbraken, Michael and Senaeve, David and López Dávila, Edelbis and Habimana, Valens and De Cauwer, Benny and Spanoghe, Pieter},
  issn         = {0048-9697},
  journal      = {SCIENCE OF THE TOTAL ENVIRONMENT},
  keywords     = {Volatilisation modelling,Formulation,Adjuvants,Vapour pressure,SOLID-PHASE MICROEXTRACTION,PHYSICOCHEMICAL PROPERTIES,CROP PROTECTION,VAPOR-PRESSURE,POTATO CROP,SOIL,CHLORPYRIFOS,LINDANE,MODEL,CHLOROTHALONIL},
  language     = {eng},
  pages        = {728--737},
  title        = {Formulation approaches to reduce post-application pesticide volatilisation from glass surfaces},
  url          = {http://dx.doi.org/10.1016/j.scitotenv.2018.03.186},
  volume       = {633},
  year         = {2018},
}

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