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Results: 36
Number of items: 36
  • Sabelis, M. W., Janssen, A., Lesna, I., Aratchige, N. S., Nomikou, M., & van Rijn, P. C. J. (2008). Developments in the use of predatory mites for biological pest control. IOBC/WPRS Bulletin, 32, 187-199.
  • Sabelis, M. W., Takabayashi, J., Janssen, A., Kant, M. R., van Wijk, M., Sznajder, B., Aratchige, N. S., Lesna, I., Belliure, B., & Schuurink, R. C. (2007). Ecology meets plant physiology: herbivore-induced plant responses and their indirect effects on arthropod communities. In T. Ohgushi, T. P. Craig, & P. W. Price (Eds.), Ecological Communities: Plant Mediation in Indirect Interaction Webs (pp. 188-217). Cambridge University Press. https://doi.org/10.1017/CBO9780511542701.010
  • Sabelis, M. W., Lesna, I. K. A., & Aratchige, N. S. (2007). A tritrophic perspective to the biological control of eriophyoid mites. IOBC/WPRS Bulletin, 30(5), 91-93.
  • Open Access
    Aratchige, N. S., Sabelis, M. W., & Lesna, I. K. A. (2007). Plant structural changes due to herbivory: Do changes in Aceria-infested coconut fruits allow predatory mites to move under the perianth? Experimental and Applied Acarology, 43, 97-107. https://doi.org/10.1007/s10493-007-9107-9
  • Open Access
    Aratchige, N. S. (2007). Predators and the accessibility of herbivore refuges in plants. [Thesis, fully internal, Universiteit van Amsterdam].
  • Aratchige, N. S., Lesna, I., & Sabelis, M. W. (2004). Below-ground plant parts emit herbivore-induced volatiles: olfactory responses of a predatory mite to tulip bulbs infested by rust mites. Experimental and Applied Acarology, 33(1-2), 21-30. https://doi.org/10.1023/B:APPA.0000030011.66371.3f
  • Lesna, I. K. A., Sabelis, M. W., & Conijn, C. G. M. (2004). From Biological Control to Biological Insight: Rust-mite induced change in bulb morphology, a new mode of indirect plant defence? Phytophaga, 14, 285-291.
  • Lesna, I., & Sabelis, M. W. (2002). Genetic polymorphism in prey preference at a small spatial scale: a case study of soil predatory mites (Hypoasis aculeifer) and two species of astigmatic mites as prey. In F. Bernini, R. Nannelli, G. Nuzacci, & E. de Lillo (Eds.), Acarid Phylogeny and Evolution. Adaptations in mites and ticks: proceedings of the IV Symposium of the European Association of Acarologists (pp. 214-240). Kluwer Academic Publishers.
  • Lesna, I. K. A., Conijn, C. G. M., van Straalen, N. M., & Sabelis, M. W. (2000). Biological control of the bulb mite, Rhizoglyphus robini, by the predatory mite, Hypoaspis aculeifer, on lilies: predator-prey dynamics in the soil under greenhouse and fiedl conditions. Biocontrol Science and Technology, 10, 179-193. https://doi.org/10.1080/09583150029314
  • Sabelis, M. W., van Baalen, M., Bakker, F. M., Bruin, J., Drukker, B., Egas, C. J. M., Janssen, A., Lesna, I. K. A., Pels, S. H., van Rijn, P. C. J., & Scutareanu, P. (1999). The evolution of direct and indirect plant defence against herbivorous arthropods. In V. A. Brown, H. Olff, & R. H. Drent (Eds.), Plants, Herbivores and Predators (pp. 109-166). Blackwell Science Ltd.
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