Thermotolerance in a spider mite: implications in disinfestation treatment

Ristyadi, Dwi; He, Xiong Zhao; Wang, Qiao

doi:10.11158/saa.27.3.6

saa

2022

DOI: 10.11158/saa.27.3.6

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Thermotolerance in a spider mite: implications in disinfestation treatment

Dwi Ristyadi

Xiong Zhao He

Qiao Wang

Abstract: Tetranychus ludeni Zacher is a European spider mite species and an important invasive pest in horticulture. We investigated the effects of hot air on its survival and reproduction, providing knowledge for development of disinfestation programs using heat. We tested how each life stage responded to heat treatments of five air temperatures (45 to 57°C) and five exposure durations (three to 15 hours). We showed that no eggs hatched after exposed to 45°C for ≥ 15 hours, 48°C for ≥ 12 hours, or 51°C for three hours… Show more

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2024

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Evaluation of the temperature adaptation of three rubber tree pest mites based on their two‐sex life table

Wang,

Wan,

Zheng

et al. 2024

Arch Insect Biochem Physiol

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To determine the optimal temperature range for the development and reproduction of three spider mites (Eotetranychus sexmaculatus, Eotetranychus orientalis, and Oligonychus biharensis), this study investigated their developmental period, survival rate, lifespan, and reproduction under five temperatures, 21, 24, 27, 30, and 33°C, to predict and control in the field. With the gathered data, a two‐sex life table was constructed for each of them. The results revealed that as the temperature increased, both O. biharensis and E. orientalis displayed a gradual reduction in their generation period. Furthermore, an inverse relationship was observed between lifespan and temperature for all three spider mite species. When examining the survival rates at varying temperatures, E. sexmaculatus exhibited the highest rate (98%) at 33°C, while E. orientalis and O. biharensis demonstrated their highest survival rates at 24°C, reaching 90% and 100% respectively. Regarding reproduction, O. biharensis displayed the highest oviposition rates at 30°C with an average of 17.45 eggs per individual. Conversely, E. sexmaculatus and E. orientalis exhibited the highest oviposition rates at 33°C, averaging at 15.22 and 21.38 eggs per individual respectively. Significantly higher intrinsic growth rates were observed for O. biharensis and E. orientalis at 33°C, with rates of 0.22 and 0.26 respectively. In contrast, E. sexmaculatus demonstrated the highest intrinsic growth rate at 27°C. The temperature of 27°C was more suitable for the growth of the E. sexmaculatus, while 33°C was the optimal temperature for the E. orientalis and O. biharensis. The current findings provide valuable guidance for the control and prevention of these three spider mites.

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Evaluation of the temperature adaptation of three rubber tree pest mites based on their two‐sex life table

Wang,

Wan,

Zheng

et al. 2024

Arch Insect Biochem Physiol

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show abstract

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Thermotolerance in a spider mite: implications in disinfestation treatment

Cited by 1 publication

References 25 publications

Evaluation of the temperature adaptation of three rubber tree pest mites based on their two‐sex life table

Evaluation of the temperature adaptation of three rubber tree pest mites based on their two‐sex life table

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