FAR Focus 12 Integrated Pest Management

FAR Focus 12 Integrated Pest Management

FAR Foundation ForFOCUSFOCUS Arable Research Issue 12, September 2015 Integrated Pest ISSUE Management 12 • Biological control • Cultural control • Chemical control • Monitoring and decision making • Cereal case study ® ADDING VALUE TO THE BUSINESS OF ARABLE FARMING™ 2 FAR Focus 12 Integrated Pest Management Contents 1. Introduction ......................................................................... 2 2. Biological control. ............................................................... 4 3. Cultural control ................................................................. 12 4. Chemical control ............................................................... 14 5. Monitoring and decision making ..................................... 17 7. Cereal case study ............................................................. 21 Further reading ...................................................................... 28 References ............................................................................. 28 Acknowledgements .............................................................. 28 © Foundation for Arable Research (FAR) DISCLAIMER This publication is copyright to the Foundation for Arable Research and may not be reproduced or copied in any form whatsoever without written permission. This FAR Focus is intended to provide accurate and adequate information relating to the subject matters contained in it. It has been prepared and made available to all persons and entities strictly on the basis that FAR, its researchers and authors are fully excluded from any liability for damages arising out of any reliance in part or in full upon any of the information for any purpose. No endorsement of named products is intended nor is any criticism of other alternative, but unnamed product. DISCLAIMER Unless agreed otherwise, the New Zealand Institute for Plant & Food Research Limited does not give any prediction, warranty or assurance in relation to the accuracy of or fitness for any particular use or application of, any information or scientific or other result contained in this FAR Focus. Neither Plant & Food Research nor any of its employees shall be liable for any cost (including legal costs), claim, liability, loss, damage, injury or the like, which may be suffered or incurred as a direct or indirect result of the reliance by any person on any information contained in this FAR Focus. 1. Introduction The information enclosed in this FAR Focus summarises nine years of Integrated Pest Management (IPM) research in arable cropping over three consecutive projects. These projects were funded by the Ministry for Primary Industries Sustainable Farming Fund (MPI SFF) with co-funding coming from FAR, PGG Wrightson and Etec Crop Solutions. The research was carried out by Plant & Food Research with support from IPM Technologies Pty Ltd, Victoria, Australia. The first of these projects was entitled Integrated Management of Slugs in Cropping Systems (04/052) and its overall aim was to determine the potential for IPM strategies to control slugs under New Zealand’s arable growing conditions. Information on the slug species present and their lifecycles was collected from nine farms in Canterbury. The project established which slug predators were present and a laboratory experiment investigating secondary poisoning of carabid beetles was also completed. The second project was entitled Sustainable IPM Systems in Arable Crops (07/010). This project had a data collection focus using paired paddocks to evaluate the impacts of the IPM approach alongside the conventional approach. The project tested the applicability of an extension model to influence adoption of IPM practices. The third project was entitled Arable IPM Training and Transitional Support Programme (10/002). This was a participatory project where farmers were educated and supported in the transition from routine broad-spectrum pest control to an IPM approach. This project also supported agronomists and advisers interested in offering this service to their clients. This FAR Focus summarises the findings from these three projects under the following five sections: • Biological control • Cultural control • Chemical control • Monitoring and decision making • A cereal case study (wheat) Definitions IPM is not: Integrated pesticide management Routine use of broad-spectrum insecticides can Monitoring for pests and using insecticides according result in insecticides being applied unnecessarily, to pest levels is not IPM unless it also incorporates the enhanced development of insecticide resistance biological and/or cultural controls. and the loss of beneficial insects. This in turn can lead to pest outbreaks and increased dependence Insecticide resistance management on insecticides. Integrated pest management (IPM) Such strategies are included within an IPM approach offers an opportunity to move away from a routine as they can prolong insecticide efficacy, but they are broad-spectrum insecticide-based approach to pest not IPM strategies if they are stand alone. management. Over the past few years, the number of pest management options available to farmers has Stopping the use of insecticides increased due to the greater availability of selective Although the aim of any IPM strategy is to minimise insecticides. Farmers may also be more familiar with the use of insecticides, simply stopping the use of natural enemies of the pests in question and may be insecticides (conventional or organic) does not mean more inclined to only use these insecticides when that IPM is being practised. required. IPM is not a rigid one size fits all approach to pest control. Strategies implemented from farm to farm may IPM: vary, even though the IPM principles they are based Combines biological (natural predators and parasites), on do not. This is due to a number of factors including chemical (selective molluscicides and insecticides) and farmer perceptions, management history and/or cultural controls in a compatible way. Pest management localised pest pressure. Strategies develop depending decisions are based on pest:predator ratios which on circumstances and levels of experience, and these are monitored throughout the growing season. This evolve as a farmer’s perception and knowledge change approach to pest control aims to maximise the use over time. of beneficial insects whilst minimising unnecessary insecticide use. 3 2. Biological control Key points: • With IPM pests cannot be dealt with in isolation, as control measures for one pest may influence beneficial species that can contribute to the control of another pest. • Some pests, such as aphids, have many natural enemies. • Applying broad-spectrum insecticides while carabid beetles are active results in reduced numbers of these beneficial insects. • Beetles can be killed by secondary poisoning when they eat slugs that have ingested broad-spectrum molluscicides such as methiocarb baits (EDTA and metaldehyde can be used). • Predator populations will change to reflect pest populations with a slight delay. Biological control is when natural enemies or beneficial contribute to pest control, whereas transient beneficial species directly kill pest species by predation or insects may fly into a paddock and maintain a presence parasitism. Predators feed and directly consume prey if no broad-spectrum chemicals are being used (or if (of one or several species) whereas parasites lay their enough time has passed since it was applied). This eggs inside their pest hosts, and the emerging larva is demonstrated in Figure 1 where monitoring results consume their host over time. from three Waimate paired paddocks (IPM versus conventional pest management) have been pooled. A A wide variety of beneficial predators and parasites synthetic pyrethroid (lambda cyhalothrin) was applied contribute to pest control in arable cropping systems to the conventional side of the paired paddocks in (Figures 2-17). Some are resident predators such as June and appeared to reduce the numbers of predator carabid beetles (Figures 14 and 15) that live in the crop carabid beetles right through until harvest. The transient all year round and play an important role in helping predators (data not shown) appeared in the crops at the to control establishment pests (pests that inflict the end of October with no differences between the IPM and most damage while the crop is getting established), conventionally managed sites, suggesting that enough while others are transient and only arrive in a crop if time had passed between June (when the synthetic there is a pest present to eat (i.e. lacewings, Figure 4). pyrethroid inputs were applied) and spring (when the Some pests, such as aphids, may be killed by a range of aphid beneficials arrived). Synthetic pyrethroids applied both transient and resident beneficial species including in spring, however, would be expected to reduce the brown lacewings (Figure 4), hoverflies (Figure 7), transient species active at this time. ladybirds (Figure 10), carabid beetles (Figure 14 and 15), spiders (Figure 16), harvestmen (Figure 17) and With an IPM approach pests cannot be dealt with parasitic wasps (Figure 11). In the case of slugs, carabid in isolation, as control measures for one pest may beetles (Figures 14 and 15) are the main contributors to negatively impact on beneficial species that could biological pest control. otherwise contribute to the control of another pest. This is demonstrated in Figure 1 where a synthetic When broad-spectrum chemicals are withdrawn pyrethroid

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