Realized heritability, inheritance and cross‐resistance patterns in imidacloprid‐resistant strain of <i>Dysdercus koenigii</i> (Fabricius) (Hemiptera: Pyrrhocoridae)

Saeed, Rabia; Abbas, Naeem

doi:10.1002/ps.5806

Cited by 17 publications

(12 citation statements)

References 54 publications

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“…comm.). Similar to our results, higher resistance levels have previously been reported following laboratory selections in DCB to chlorfenapyr (RR = 149.07‐fold), imidacloprid (RR = 104‐fold), 41,50 N. lugens to sulfoxaflor (RR =123.6‐fold), 42 P. solenopsis to acetamiprid (RR = 315‐fold) 81 and Dysdercus koenigii (Fabricius) to imidacloprid and emamectin benzoate 82,83 . However, the results of this study show that DCB has strong potential for the development of resistance to sulfoxaflor in the field (Fig.…”

Section: Discussionsupporting

confidence: 90%

“…In the current study, the nonsignificant difference in LC 50 values of F 1 and F 1 ' reciprocal crosses among resistant and susceptible populations revealed that no maternal effects were involved in controlling sulfoxaflor resistance in selected populations of DCB, rather its mode of inheritance was autosomal. The autosomal mode of resistance inheritance has also been reported in different insects to various insecticides like O. hyalinipennis to imidacloprid 41 and chlorfenapyr, 50 D. koenigii to imidacloprid and emamectin benzoate, 82,83 and M. domestica to fipronil 84 . However, in contrast to the present results, sex‐linked inheritance of lambda‐cyhalothrin resistance in Tetranychus urticae (Koch) (laboratory selected) has been reported 85 …”

Section: Discussioncontrasting

confidence: 79%

“…Our results indicate the 0.2 value of h 2 in the Sulfo‐Sel strain and it is expected that DCB would need 6.6 generations for a 10‐fold increase in sulfoxaflor resistance. Other findings with different values of h 2 were reported in different cotton insect pests against various insecticides, for example O. hyalinipennis to fipronil was 0.24, 9 D. koenigii to imidacloprid and emamectin benzoate was 0.38 and 0.59, respectively, 82,83 P. solenopsis to spinosad and chlorpyrifos was 0.94 and 0.59, respectively, 93,103 and Spodoptera litura to imidacloprid was 0.15 21 . Although laboratory experiments are not a replica of field conditions, the estimated h 2 and projected rate ( G ) of resistance through laboratory selection could be used in devising resistance management strategy.…”

Section: Discussionmentioning

confidence: 79%

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Inheritance mode and metabolic mechanism of the sulfoximine insecticide sulfoxaflor resistance in Oxycarenus hyalinipennis (Costa)

Wazir

Shad

2021

Pest Management Science

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BACKGROUND Dusky cotton bug (DCB), Oxycarenus hyalinipennis (Costa) (Hemiptera: Lygaeidae), is a key insect pest of cotton. It causes huge losses to cotton and many other economically important crops. Sulfoxaflor is a newly introduced systemic insecticide that is effective against many sap‐feeding insect pests such as aphids, whiteflies and true bugs. The present study was designed to characterize the inheritance of sulfoxaflor resistance in DCB. Moreover, the role of synergists in reducing sulfoxaflor resistance in DCB was also assessed. RESULTS A field population of DCB has developed 1132.0‐fold resistance to sulfoxaflor after 11 selected generations in the laboratory. Nonsignificant difference of reciprocal crosses was observed depending on the LC50 (median lethal concentration) values (95% confidence intervals overlapped), suggesting an autosomal mode of sulfoxaflor resistance inheritance. The degree of dominance of 0.7 for F1 (Sulfo‐Sel Pop ♀ × Lab‐Pop♂) and 0.6 for F1'(Sulfo‐Sel Pop ♂ × Lab‐Pop♀), respectively, suggested that sulfoxaflor resistance was incompletely dominant. According to the monogenic model, the number of genes involved to induce sulfoxaflor resistance revealed that sulfoxaflor resistance was polygenic in nature. The realized heritability (h2) value for sulfoxaflor resistance was 0.2. The synergists experiment indicated that esterases were involved in the sulfoxaflor resistance mechanism in DCB. CONCLUSIONS The current results indicate that there is autosomal, incompletely dominant and polygenic inheritance of sulfoxaflor resistance in DCB. Our results would be helpful in delaying sulfoxaflor resistance against DCB in the field. © 2021 Society of Chemical Industry

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Section: Discussionsupporting

confidence: 90%

Section: Discussioncontrasting

confidence: 79%

Section: Discussionmentioning

confidence: 79%

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Inheritance mode and metabolic mechanism of the sulfoximine insecticide sulfoxaflor resistance in Oxycarenus hyalinipennis (Costa)

Wazir

Shad

2021

Pest Management Science

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“…Higher phenotypic variance may come from gene mutations and laboratory selection pressure, but in field environments it may come from migration of individuals, insecticide alternation, and ecological factors [ 23 , 25 , 26 ]. The h 2 estimation is a useful variable in proactive and effective resistance management of insect pests [ 27 , 28 ]. The h 2 estimation of resistance through laboratory selection predicts the rate of phenotypic and genetic variations due to insecticide resistance [ 28 , 29 ].…”

Section: Introductionmentioning

confidence: 99%

Realized Heritability, Risk Assessment, and Inheritance Pattern in Earias vittella (Lepidoptera: Noctuidae) Resistant to Dipel (Bacillus thuringiensis Kurstaki)

Ahmad

Gulzar

Abbas

et al. 2022

Toxins

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Earias vittella Fabricius is a potential cotton and okra pest in South Asia. The realized heritability, risk assessment, and inheritance mode of Bacillus thuringiensis Kurstaki (Btk) resistance were determined in the Dipel-selected (DIPEL-SEL) E. vittella. The DIPEL-SEL strain had a 127.56-fold rise in Dipel resistance after nine generations compared to the laboratory reference strain (LAB-PK). The overlapping of 95% fiducial limits in the median lethal concentrations (LC50s) of the F1 (DIPEL-SEL♂ × LAB-PK♀) and F1ǂ (DIPEL-SEL♀ × LAB-PK♂) suggested a lack of sex linkage and an autosomal Dipel resistance. The dominance (DLC) values for the F1 (0.86) and F1ǂ (0.94) indicated incompletely dominant resistance to Dipel. Backcrossing of the F1♀ × Lab-PK♂ revealed a polygenic response of resistance to Dipel. The realized heritability estimation (h2) of resistance to Dipel was 0.19. With 20% to 90% selection mortality, the generations required for a tenfold increase in LC50 of Dipel were 4.7–22.8, 3.1–14.9, and 2.3–11.1 at h2 of 0.19, 0.29, and 0.39, respectively, and a constant slope of 1.56. At slope values of 2.56 and 3.56 with a constant h2 = 0.19, 7.7–37.4 and 10.6–52.0 generations were needed to increase the tenfold LC50 of Dipel in the DIPEL-SEL E. vittella. It is concluded that the DIPEL-SEL E. vittella has an autosomal, incompletely dominant, and polygenic nature of resistance. The h2 of 0.19 suggested that a high proportion of phenotypic variation for the Dipel resistance in E. vittella was heritable genetic variation. The present results will support the creation of an effective and suitable resistance management plan for better control of E. vittella.

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“…Overuse of insecticides has also resulted in environmental pollution, increased the cost of preventive control, and caused destruction of non-target organisms [12,13]. These issues emphasize the necessity to employ an integrated pest management program against insect pests, including the house fly [14][15][16]. To overcome the development of resistance, excessive applications of insecticides at increasing dose rates and more frequent intervals have been used, but these practices have escalated the problem and rendered the control of house fly even more difficult all over the world, particularly in areas where most suitable insecticides have lost their efficacy [17].…”

Section: Introductionmentioning

confidence: 99%

First Evaluation of Field Evolved Resistance to Commonly Used Insecticides in House Fly Populations from Saudi Arabian Dairy Farms

Hafez

2021

Insects

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The house fly, Musca domestica L. (Diptera: Muscidae), is one of the major vectors of several pathogens that affect humans and animals. We evaluated the toxicity of eight insecticides commonly used for house fly control using five field populations collected from dairies in Riyadh, Saudi Arabia. Among the five tested pyrethroids, non to moderate resistance was found in adults of both sexes compared to a susceptible strain. Resistance ratios ranged from 0.5- to 7-fold for alpha-cypermethrin, 2- to 21-fold for deltamethrin, 4- to 19-fold for bifenthrin, 1- to 9-fold for cyfluthrin, and 1- to 8-fold for cypermethrin. Among the three tested organophosphates, low to moderate resistance was found among adult flies compared to the susceptible strain, and the resistance ratios ranged from 4- to 27-fold for fenitrothion, 2- to 14-fold for chlorpyrifos, and 3- to 12-fold for malathion. The median lethal times for the tested insecticides were 3–33 h for alpha-cypermethrin, 3–24 h for deltamethrin, 5–59 h for bifenthrin, 1–7 h for cypermethrin, 0.3–7 h for cyfluthrin, 6–36 h for fenitrothion, 2–21 h for chlorpyrifos, and 3–34 h for malathion. This study presents baseline data pertaining to registered public health insecticides, and the results will assist future studies monitoring insecticide resistance, and the planning of effective integrated vector management programs.

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Realized heritability, inheritance and cross‐resistance patterns in imidacloprid‐resistant strain of Dysdercus koenigii (Fabricius) (Hemiptera: Pyrrhocoridae)

Cited by 17 publications

References 54 publications

Inheritance mode and metabolic mechanism of the sulfoximine insecticide sulfoxaflor resistance in Oxycarenus hyalinipennis (Costa)

Inheritance mode and metabolic mechanism of the sulfoximine insecticide sulfoxaflor resistance in Oxycarenus hyalinipennis (Costa)

Realized Heritability, Risk Assessment, and Inheritance Pattern in Earias vittella (Lepidoptera: Noctuidae) Resistant to Dipel (Bacillus thuringiensis Kurstaki)

First Evaluation of Field Evolved Resistance to Commonly Used Insecticides in House Fly Populations from Saudi Arabian Dairy Farms

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