Predatory hoverflies increase oviposition in response to colour stimuli offering no reward: implications for biological control
Predatory hoverflies increase oviposition in response to colour stimuli offering no reward: implications for biological control
There are increasing efforts worldwide to engineer agroecosystems to enhance ecosystem services such as carbon storage, minimisation of erosion, and biological control of pests. A key group of insect biological control agents is the hoverflies (Diptera: Syrphidae). While adult Syrphidae are pollen and nectar feeders, the larvae of many species are aphidophagous, thus demonstrating life-history omnivory and their potentially important role in the biological control of aphids and other pests. Several experiments have been conducted to assess whether the presence of flowers in or near crops has an effect on oviposition by syrphids, but the results have often been inconclusive. This paper describes a large-scale field experiment carried out over two years, in which standardised model flowers were placed in field margins and oviposition rates monitored near them. Statistically significantly more eggs were laid on broad bean (Vicia faba) infested with the pea aphid, Acyrthosipon pisum, near yellow model flowers with and without pollen and honey resources than at positions with no model flowers nearby. These results suggest strongly that the presence of model flowers increases hoverfly oviposition and that colour may be more important than food resources in enhancing this behaviour. This work indicates that biological control of pests by hoverflies can be enhanced by simple, non-floral agroecological interventions
1-26
Day, R.L.
a6379a78-68e8-4556-bc56-7d185892ed07
Hickman, J.M.
eeac0c25-d27f-45ed-b824-856914b3ac81
Sprague, R.I.
ee2aedab-83f4-4279-9f67-93a2e6135c5a
Wratten, S.D.
5c9e9b60-a947-473f-adde-bd950b93b218
Day, R.L.
a6379a78-68e8-4556-bc56-7d185892ed07
Hickman, J.M.
eeac0c25-d27f-45ed-b824-856914b3ac81
Sprague, R.I.
ee2aedab-83f4-4279-9f67-93a2e6135c5a
Wratten, S.D.
5c9e9b60-a947-473f-adde-bd950b93b218
Day, R.L., Hickman, J.M., Sprague, R.I. and Wratten, S.D.
(2015)
Predatory hoverflies increase oviposition in response to colour stimuli offering no reward: implications for biological control.
Basic and Applied Ecology, .
(doi:10.1016/j.baae.2015.05.004).
Abstract
There are increasing efforts worldwide to engineer agroecosystems to enhance ecosystem services such as carbon storage, minimisation of erosion, and biological control of pests. A key group of insect biological control agents is the hoverflies (Diptera: Syrphidae). While adult Syrphidae are pollen and nectar feeders, the larvae of many species are aphidophagous, thus demonstrating life-history omnivory and their potentially important role in the biological control of aphids and other pests. Several experiments have been conducted to assess whether the presence of flowers in or near crops has an effect on oviposition by syrphids, but the results have often been inconclusive. This paper describes a large-scale field experiment carried out over two years, in which standardised model flowers were placed in field margins and oviposition rates monitored near them. Statistically significantly more eggs were laid on broad bean (Vicia faba) infested with the pea aphid, Acyrthosipon pisum, near yellow model flowers with and without pollen and honey resources than at positions with no model flowers nearby. These results suggest strongly that the presence of model flowers increases hoverfly oviposition and that colour may be more important than food resources in enhancing this behaviour. This work indicates that biological control of pests by hoverflies can be enhanced by simple, non-floral agroecological interventions
Text
Day_Predatory.pdf
- Accepted Manuscript
More information
Accepted/In Press date: 18 May 2015
e-pub ahead of print date: 23 May 2015
Organisations:
Centre for Biological Sciences
Identifiers
Local EPrints ID: 377655
URI: http://eprints.soton.ac.uk/id/eprint/377655
ISSN: 1439-1791
PURE UUID: a95fc0d9-e23f-4032-8b81-0ec27affbbcc
Catalogue record
Date deposited: 18 Jun 2015 10:14
Last modified: 14 Mar 2024 20:07
Export record
Altmetrics
Contributors
Author:
R.L. Day
Author:
J.M. Hickman
Author:
R.I. Sprague
Author:
S.D. Wratten
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics