Abstract
While insect monitoring is a prerequisite for precise decision-making regarding integrated pest management (IPM), it is time- and cost-intensive. Low-cost, time-saving and easy-to-operate tools for automated monitoring will therefore play a key role in increased acceptance and application of IPM in practice. In this study, we tested the differentiation of two whitefly species and their natural enemies trapped on yellow sticky traps (YSTs) via image processing approaches under practical conditions. Using the bag of visual words (BoVW) algorithm, accurate differentiation between both natural enemies and the Trialeurodes vaporariorum and Bemisia tabaci species was possible, whereas the procedure for B. tabaci could not be used to differentiate this species from T. vaporariorum. The decay of species was considered using fresh and aged catches of all the species on the YSTs, and different pooling scenarios were applied to enhance model performance. The best performance was reached when fresh and aged individuals were used together and the whitefly species were pooled into one category for model training. With an independent dataset consisting of photos from the YSTs that were placed in greenhouses and consequently with a naturally occurring species mixture as the background, a differentiation rate of more than 85% was reached for natural enemies and whiteflies.
Highlights
While insect monitoring is a prerequisite for precise decision-making regarding integrated pest management (IPM), it is time- and cost-intensive
A lowcost solution for fast monitoring is the use of yellow sticky traps (YSTs), which are well established in protected tomato cultivation and are evaluated in the present study
The same working group showed a high discriminability of five flying insects using local invariant features, with a bag of visual words (BoVW) classifier and a scale-invariant feature transform (SIFT) as the local image descriptor[16]
Summary
While insect monitoring is a prerequisite for precise decision-making regarding integrated pest management (IPM), it is time- and cost-intensive. Low-cost, time-saving and easy-to-operate tools for automated monitoring will play a key role in increased acceptance and application of IPM in practice. In contrast to many other pathogens, for arthropods, the presence and the population density is relevant in decision-making, which creates two major tasks for automated monitoring: precise localization and accurate determination of pest organisms in different cropping systems. For this purpose, the introduction of low-cost, time-saving, and easy-to-operate tools will play a key role in the acceptance and application of IPM in practice. The influence of decay on the detection rate when individuals remain on the boards for a longer period of time, reflecting the practical situation, has not yet been investigated
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