Functional and numerical responses of Cyrtorhinus lividipennis to eggs of Nilaparvata lugens are not affected by genetically modified herbicide-tolerant rice

XianBin, Jiang; Huang, Qian; Ling, Yan; Chen, Yuchong; Guo-ying, Xiao; Huang, Sheng‐Zhuo; Biqiu, Wu; Huang, Fang; Cai, Jin; Liang, Liping

doi:10.1016/s2095-3119(14)60953-9

Cited by 4 publications

(3 citation statements)

References 18 publications

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“…The examples of two sets of parameters are selected as examples to illustrate the theoretical results in which some parametric values are obtained from the literature [15]. Numerical simulations are as shown in Figs.…”

Section: Resultsmentioning

confidence: 99%

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Dynamical modeling of the control of brown planthoppers by Beauveria bassiana and Cyrtorhinus lividipennis

Rattanakul

2019

Adv Differ Equ

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In this work, the control of brown planthopper, a major pest of rice, when a biological control agent (Cyrtorhinus lividipennis) and a pathogen (Beauveria bassiana) are utilized is investigated mathematically. An impulsive mathematical model accounted for the population densities of susceptible brown planthoppers (brown planthoppers that are susceptible to Beauveria bassiana), infected brown planthoppers (brown planthoppers that are infected by Beauveria bassiana), and Cyrtorhinus lividipennis (a natural enemy of brown planthopper) is developed. We analyze the model in terms of its stability and permanence so that we obtain the conditions that differentiate dynamic behaviors exhibited by the model. To illustrate our theoretical results, computer simulations are also presented.

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Section: Resultsmentioning

confidence: 99%

“…Here, two sets of parametric values of the model are chosen as examples to illustrate the theoretical results in which the parameters a 3 and k 2 are obtained from the literature [15]. Fig.…”

Section: Numerical Simulationsmentioning

confidence: 99%

Dynamical modeling of the control of brown planthoppers by Beauveria bassiana and Cyrtorhinus lividipennis

Rattanakul

2019

Adv Differ Equ

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“…6-12. The parametric values of c 2 , C 3 , h 1 and h 2 are obtained from the literature [13,14,21] while other parametric values are chosen to satisfy Theorems 1-5. Figure 6 shows a simulation result of the system of Eqs.…”

Section: Computer Simulationsmentioning

confidence: 99%

Modelling the population dynamics of brown planthopper, Cyrtorhinus lividipennis and Lycosa pseudoannulata

Manorod

Rattanakul

2019

Adv Differ Equ

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In this work, a mathematical model is proposed to investigate the population dynamics of brown planthopper, which is a major insect pest of rice, and its natural enemies namely Cyrtorhinus Lividipennis and Lycosa Pseudoannulata. To analyse the model theoretically, the geometric singular perturbation method is employed. Conditions that differentiate dynamic behaviors exhibited by the model are derived. To illustrate our theoretical predictions, computer simulations are also presented showing that the dynamic behavior exhibited by the model correspond to the reported field observations.

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Role of different habitats for the functional response ofCrytorrhinus lividipennis(Hemiptera: Miridae) onNilaparvata lugens(Hemiptera: Delphacidae)

Tangkawanit

Hinmo

Khlibsuwan

2018

Biocontrol Science and Technology

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Functional and numerical responses of Cyrtorhinus lividipennis to eggs of Nilaparvata lugens are not affected by genetically modified herbicide-tolerant rice

Cited by 4 publications

References 18 publications

Dynamical modeling of the control of brown planthoppers by Beauveria bassiana and Cyrtorhinus lividipennis

Dynamical modeling of the control of brown planthoppers by Beauveria bassiana and Cyrtorhinus lividipennis

Modelling the population dynamics of brown planthopper, Cyrtorhinus lividipennis and Lycosa pseudoannulata

Role of different habitats for the functional response ofCrytorrhinus lividipennis(Hemiptera: Miridae) onNilaparvata lugens(Hemiptera: Delphacidae)

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