Enhancing rape pollen beetle parasitism within sown flower fields along a landscape complexity gradient
Version of Record online: 25 JAN 2011
© 2011 The Authors. Agricultural and Forest Entomology © 2011 The Royal Entomological Society
Agricultural and Forest Entomology
Volume 13, Issue 2, pages 173–179, May 2011
How to Cite
Scheid, B. E., Thies, C. and Tscharntke, T. (2011), Enhancing rape pollen beetle parasitism within sown flower fields along a landscape complexity gradient. Agricultural and Forest Entomology, 13: 173–179. doi: 10.1111/j.1461-9563.2010.00516.x
- Issue online: 11 APR 2011
- Version of Record online: 25 JAN 2011
- Accepted 7 August 2010, First published online 25 January 2011
- Agri-environment scheme;
- biological control;
- Meligethes aeneus;
- parasitism rate;
- Sinapis alba;
- Tersilochus heterocerus
- 1Sown flower habitats not only are employed in agri-environment schemes in the European Union to enhance pollinators and birds, such as partridges, but also are hypothesized to contribute to the biological control of pests such as the rape pollen beetle Meligethes aeneus Fabr. by improving habitat and resource availability for its specialized parasitoids.
- 2In the present study, we selected 20 sown flower fields that included one of the pollen beetles' host plants Sinapis alba L., each centred in a landscape of varying complexity, to test the influence of the surrounding landscape structure on parasitism rate and herbivory by M. aeneus. Additionally, plant cover of S. alba plants within the sown flower fields and numbers of S. alba flowers were also included in the analyses.
- 3Landscapes with high proportions of semi-natural habitats supported higher parasitism rates, and sown flower fields with dense S. alba plant cover hosted more parasitoids and suffered from less herbivory.
- 4We conclude that sown flower fields are not only important for pollinators and birds, but also are long-term undisturbed, unploughed, insecticide-free habitats with rich food (nectar/pollen) and host resources for parasitoids, contributing to the build-up and maintenance of large parasitoid populations, which are important biocontrol agents of rape pollen beetles.