José Alfonso Gómez-Guzmán scite author profile

Currently, olive grove management in Spain responds to the three following clearly differentiated systems in order of decreasing area: Conventional Management (70%), Integrated Pest Management (IPM) (26%) and Ecological Management (4%) systems. These are characterized by a decreasing dependence on synthetic insecticides and by different soil tillage intensities. They are also subject to different subside regulations and application regimen by the government, so their adequate characterization represents a factor of increasing importance, which is the object of this work.During the years 2017 and 2018, olive groves corresponding to the three types of management were selected, in which two series of plots were established. In one series, Dimethoate 40® was applied, considering plots of the second series as control. After insecticide application, beneficial insects were monitored through the use of chromatic traps.The results allow elucidating two clearly different behavioral patterns in beneficial insects, depending on the use of insecticides: Conventional and IPM management, where repellency reaction is manifested, absent in the Ecological Management. Aspects about the induction of sublethal effects for the characterization of the different pest management systems are discussed.

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Monitoring and Inference of Behavioral Resistance in Beneficial Insects to Insecticides in Two Pest Control Systems: IPM and Organic

Gómez-Guzmán

Sainz-Pérez

Gonzalez-Ruiz

2022

Agronomy

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Pyrethrins are the most widely used insecticide class in olive groves with organic management. Although there are data sets about insect pests of stored products and human parasites developing resistance to pyrethrins, there is no information on the long-term effect on olive agroecosystems. A field method based on the experimental induction of sublethal effects by means of insecticide application, and the monitoring of the response of insects through post-treatment sampling, has recently been developed. This method has allowed for the detection of populations behaviorally resistant to organophosphates in integrated pest management (IPM) and conventional crops. With the application of a similar methodology, this study aimed to verify the possible reaction of natural enemies in organic crops, using pyrethrins as an inducing insecticide. The study was carried out in 2019 in two olive groves in southern Spain (Jaén, Andalusia), one of them being IPM and the other being an organic production system. The results did not allow for verification of the behavioral resistance in populations of natural enemies of both IPM and organic management against pyrethrins, while against dimethoate, behavioral resistance was verified in IPM management. The possible causes involved in obtaining these results are discussed.

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Application of Accumula ted Heat Units in The Control of The Olive Moth, Prays Oleae (BERN.) (LEP., PRAYDIDAE), in Olive Groves in Southern Spain

et al. 2022

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Olive moth, Prays oleae, is one of the most important phytophagous of olive cultivation in the Mediterranean basin. Its control is based on the application of chemical insecticides, sometimes combined with the release of natural enemies. The need for application is established according to population thresholds. How-ever, the wide range of environmental conditions requires the adoption of comple-mentary elements that allow the adequate time of applications to the phenological stages responsible for the damage. During the years 2013, 2014 and 2015, weekly observations of the insect phenology have been performed in 10 plots of olive trees at different altitudes (253 m to 1017 m) in the province of Jaén (southern Spain), recording daily temperature variations at 4-hour intervals. This has allowed deter-mining the thermal integrals for the three insect generations and to specify the in-fluence of the altitude on its development periods, more especially in those corre-sponding to the philophagous and carpophagous generations. This knowledge has allowed the development of a model-chronogram for the adjustment of treatment dates based on crop altitude.

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