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Towards a resilient drought management system

Joachim Vercruysse (UGent) , Greet Deruyter (UGent) , Luuk Boelens (UGent) and Renaat De Sutter (UGent)
(2023) Integrated planning in a world of turbulence, Book of proceedings. p.1488-1508
Author
Organization
Abstract
Drought is considered an insidious, complex and multidisciplinary phenomenon due to many interacting influences. This paper focusses on the specific situation in Flanders, Belgium. Although in Flanders, the annual precipitation remains stable, drought impacts are becoming more and more severe. This is partly due to increased water demand, changed water use patterns in combination with outdated legislation and reactive policies, not aimed at resilient water management. This paper identifies contributing elements, relations and interactions in the drought system of Flanders, through the actor relational approach and demonstrates how this approach might be implemented in the Flemish case. An actor relational approach would allow striving for a more resilient drought management system.
Keywords
resilience, drought, actor-relational approach

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MLA
Vercruysse, Joachim, et al. “Towards a Resilient Drought Management System.” Integrated Planning in a World of Turbulence, Book of Proceedings, edited by Beata Banachowicz, AESOP, 2023, pp. 1488–508.
APA
Vercruysse, J., Deruyter, G., Boelens, L., & De Sutter, R. (2023). Towards a resilient drought management system. In B. Banachowicz (Ed.), Integrated planning in a world of turbulence, Book of proceedings (pp. 1488–1508). Łódź, Poland: AESOP.
Chicago author-date
Vercruysse, Joachim, Greet Deruyter, Luuk Boelens, and Renaat De Sutter. 2023. “Towards a Resilient Drought Management System.” In Integrated Planning in a World of Turbulence, Book of Proceedings, edited by Beata Banachowicz, 1488–1508. Łódź, Poland: AESOP.
Chicago author-date (all authors)
Vercruysse, Joachim, Greet Deruyter, Luuk Boelens, and Renaat De Sutter. 2023. “Towards a Resilient Drought Management System.” In Integrated Planning in a World of Turbulence, Book of Proceedings, ed by. Beata Banachowicz, 1488–1508. Łódź, Poland: AESOP.
Vancouver
1.
Vercruysse J, Deruyter G, Boelens L, De Sutter R. Towards a resilient drought management system. In: Banachowicz B, editor. Integrated planning in a world of turbulence, Book of proceedings. Łódź, Poland: AESOP; 2023. p. 1488–508.
IEEE
[1]
J. Vercruysse, G. Deruyter, L. Boelens, and R. De Sutter, “Towards a resilient drought management system,” in Integrated planning in a world of turbulence, Book of proceedings, Łódź, Poland, 2023, pp. 1488–1508.
@inproceedings{01HPRRF6M5MM7HNRBE42Z09KKT,
  abstract     = {{Drought is considered an insidious, complex and multidisciplinary phenomenon due to many interacting influences. This paper focusses on the specific situation in Flanders, Belgium. Although in Flanders, the annual precipitation remains stable, drought impacts are becoming more and more severe. This is partly due to increased water demand, changed water use patterns in combination with outdated legislation and reactive policies, not aimed at resilient water management.
This paper identifies contributing elements, relations and interactions in the drought system of Flanders, through the actor relational approach and demonstrates how this approach might be implemented in the Flemish case. An actor relational approach would allow striving for a more resilient drought management system.}},
  author       = {{Vercruysse, Joachim and Deruyter, Greet and Boelens, Luuk and De Sutter, Renaat}},
  booktitle    = {{Integrated planning in a world of turbulence, Book of proceedings}},
  editor       = {{Banachowicz, Beata}},
  isbn         = {{9789082819199}},
  keywords     = {{resilience,drought,actor-relational approach}},
  language     = {{eng}},
  location     = {{Łódź, Poland}},
  pages        = {{1488--1508}},
  publisher    = {{AESOP}},
  title        = {{Towards a resilient drought management system}},
  url          = {{https://eprints.aesop-planning.eu/entities/publication/9d185dd9-2521-4ab8-bb65-a282bda2997c}},
  year         = {{2023}},
}