The role of midfield islets in pest control
Abstract: During last century rising populations and changed market preferences have led to large structuralchanges in agriculture in the developed world. Most conventional cultivation methods involve theproduction of few monoculture crops within a homogenous landscape, where pesticides and inorganicfertilizers are used to increase yields. The cereal aphid Rhopalosiphum padi (L.) is a pest in cerealsresulting in large economic losses for farmers throughout Europe, and are currently removed withchemical pest control. However, the pesticides also affect existing ecosystem services like potentiallypest-controlling insects as well as the surrounding environment negatively. According to previousstudies higher landscape diversity leads to a higher diversity of natural enemies to pest insects, but nostudy has investigated if the pest control is enhanced around non-crop remnants such as midfield islets(MI). This thesis investigates (i) if MI will reduce the number of aphids in crop field, (ii) if larger MIwill be more effective than smaller MI by having higher aphid predation rate, and (iii) if larger MI willprovide a more effective reduction of pest insects over a longer distance from edge. To assess thepotential for pest control, aphids were glued on papers and placed at ground level in crop fields andaround MI in nine fields. The collected data was processed statistically, and the result demonstratesthat MI play an important role by providing habitats for natural enemies to pests. The increased size ofMI have a positive effect of number of aphids consumed around MI, however the distance from edgewas not significance. This study highlights the value of MI in crop fields as an existing ecosystemservice in biological pest control. The naturally occurring predators are able to reduce R.padi andthereby minimize the need for insecticide applications.
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