Researcher
Wannes Dermauw
- Disciplines (Research Institute for Agriculture, Fisheries and Food):Invertebrate biology, Biology of adaptation, Agricultural plant protection
- Disciplines (Ghent University):Agriculture, land and farm management, Plant biology, Agricultural plant production, Agricultural animal production, Other agriculture, forestry, fisheries and allied sciences
- See also: Wannes Dermauw (Ghent University)
Affiliations
- Plant Sciences (Research unit)
Responsible
From1 Sep 2020 → Today - Department of Plants and Crops (Department)
Member
From1 Jan 2018 → Today - Department of Crop protection (Department)
Member
From1 Nov 2006 → 31 Dec 2017
Projects
1 - 9 of 9
- Ornamental cultivation moves to a higher levelFrom1 Sep 2022 → Today
- Towards a community based (semi)automatic Observation&Warning (O&W) system as a robust pillar for IPM in vegetable production in FlandersFrom1 Sep 2022 → Today
- Assessing the risk of whitefly transmitted viruses for Belgian cropsFrom1 Jun 2022 → Today
- Fast detection methods for quarantine TephritidaeFrom1 Jun 2022 → Today
- RISK ANALYSIS OF HARMFUL BARK AND AMBROSIA BEETLES IN THE BELGIAN CONTEXTFrom15 May 2022 → Today
- Developing effective methods for the surveillance of non-European Tephritids on Belgian territoryFrom1 Apr 2021 → 31 Mar 2023
- Developing a monitoring capacity for native and exotic Agrilus spp. in BelgiumFrom1 Apr 2021 → 31 Mar 2023
- Phytosanitary status of organisms harmfull to plants and plant productsFrom1 Mar 2021 → 31 May 2023
- Development of a rapid identification method for fruit flies at phytosanitary inspectionsFrom1 Nov 2019 → 31 Mar 2022
Publications
1 - 10 of 36
- A glutamate-gated chloride channel as the mite-specific target-site of dicofol and other diphenylcarbinol acaricides(2023)
Authors: Marilou Vandenhole, Catherine Mermans, , Wenxin Xue, Yilan Zhao, Yoshihisa Ozoe, Genyan Liu, Wannes Dermauw, Thomas Van Leeuwen
- A review of the molecular mechanisms of acaricide resistance in mites and ticks(2023)
Authors: Sander De Rouck, Emre Inak, Wannes Dermauw, Thomas Van Leeuwen
- Incomplete reproductive barriers and genomic differentiation impact the spread of resistance mutations between green- and red-colour morphs of a cosmopolitan mite pest(2023)
Authors: Wen-Xin Xue, Jing-Tao Sun, Marilou Vandenhole, Wannes Dermauw, Sabina A Bajda, Eba A Simma, Nicky Wybouw, Ernesto Villacis-Perez, Thomas Van Leeuwen
Pages: 4278-4297 - Recombinant expression and characterization of GSTd3 from a resistant population of Anopheles arabiensis and comparison of DDTase activity with GSTe2(2023)
Authors: Xueping Lu, Eba Alemayehu Simma, Pieter Spanoghe, Thomas Van Leeuwen, Wannes Dermauw
- Intraspecific diversity in the mechanisms underlying abamectin resistance in a cosmopolitan pest(2023)
Authors: Ernesto Villacis-Perez, Wenxin Xue, Marilou Vandenhole, , Wannes Dermauw, Thomas Van Leeuwen
Pages: 863-879 - Expertenopdracht bodembiodiversiteit – Inventaris van onderzoeksprojecten, kennis en meettechnieken.(2023)
Authors: Jane Debode, Lisa Joos, Lieven Waeyenberge, Wannes Dermauw, Koen Willekens, Johan Witters, B. De Vos, Sam Lambrechts, Sofie Thijs, Pallieter De Smedt, et al.
- High-Resolution Genetic Mapping Combined with Transcriptome Profiling Reveals That Both Target-Site Resistance and Increased Detoxification Confer Resistance to the Pyrethroid Bifenthrin in the Spider Mite Tetranychus urticae(2022)
Authors: , Marilou Vandenhole, Christine Njiru, Pieter Spanoghe, Wannes Dermauw, Thomas Van Leeuwen
- Long-term survey and characterization of cyflumetofen resistance in Tetranychus urticae populations from Turkey(2022)
Authors: Emre Inak, Yasin Nazim Alpkent, Corinna Saalwaechter, , , Wannes Dermauw, Sven Geibel, Thomas Van Leeuwen
- Intradiol ring cleavage dioxygenases from herbivorous spider mites as a new detoxification enzyme family in animals(2022)
Authors: Christine Njiru, Wenxin Xue, Sander De Rouck, Juan M Alba, Merijn R Kant, Maksymilian Chruszcz, Bartel Vanholme, Wannes Dermauw, Nicky Wybouw, Thomas Van Leeuwen
Pages: 131 - QTL mapping suggests that both cytochrome P450-mediated detoxification and target-site resistance are involved in fenbutatin oxide resistance in Tetranychus urticae(2022)
Authors: , Ernesto Villacis-Perez, Mousaalreza Khalighi, Corinna Saalwaechter, Marilou Vandenhole, Wim Jonckheere, Ibrahim Ismaeil, Sven Geibel, Thomas Van Leeuwen, Wannes Dermauw
Linked dataset
1 - 10 of 17
- Intraspecific diversity in the mechanisms underlying abamectin resistance in a cosmopolitan pest (Creator)
- Incomplete reproductive barriers and genomic differentiation impact the spread of resistance mutations between green- and red-colour morphs of a cosmopolitan mite pest (Creator)
- Additional file 15 of Intradiol ring cleavage dioxygenases from herbivorous spider mites as a new detoxification enzyme family in animals (Creator)
- Additional file 14 of Intradiol ring cleavage dioxygenases from herbivorous spider mites as a new detoxification enzyme family in animals (Creator)
- Intradiol ring cleavage dioxygenases from herbivorous spider mites as a new detoxification enzyme family in animals (Creator)
- Additional file 6 of Intradiol ring cleavage dioxygenases from herbivorous spider mites as a new detoxification enzyme family in animals (Creator)
- Additional file 3 of Intradiol ring cleavage dioxygenases from herbivorous spider mites as a new detoxification enzyme family in animals (Creator)
- Additional file 11 of Intradiol ring cleavage dioxygenases from herbivorous spider mites as a new detoxification enzyme family in animals (Creator)
- Additional file 2 of Intradiol ring cleavage dioxygenases from herbivorous spider mites as a new detoxification enzyme family in animals (Creator)
- Additional file 13 of Intradiol ring cleavage dioxygenases from herbivorous spider mites as a new detoxification enzyme family in animals (Creator)