scholarly journals Insecticide Susceptibility and Wing-Form Ratio of the Brown Planthopper, Nilaparvata lugens (STÅL) (Hemiptera : Delphacidae) and the White Backed Planthopper, Sogatella furcifera (HORVATH) (Hemiptera : Delphacidae) of Southeast Asia

1980 ◽  
Vol 15 (1) ◽  
pp. 10-19 ◽  
Author(s):  
Toru NAGATA ◽  
Takeo MASUDA
Keyword(s):  
Southeast Asia ◽  
Brown Planthopper ◽  
Nilaparvata Lugens ◽  
Sogatella Furcifera ◽  
Wing Form ◽  
Insecticide Susceptibility

scholarly journals Stable Establishment of Cardinium spp. in the Brown Planthopper Nilaparvata lugens despite Decreased Host Fitness

2019 ◽  
Vol 86 (4) ◽  
Author(s):  
Tong-Pu Li ◽  
Chun-Ying Zhou ◽  
Si-Si Zha ◽  
Jun-Tao Gong ◽  
Zhiyong Xi ◽  
...  
Keyword(s):  
Cytoplasmic Incompatibility ◽  
Developmental Stages ◽  
Brown Planthopper ◽  
Nilaparvata Lugens ◽  
Hatching Rate ◽  
Wild Populations ◽  
Maternal Transmission ◽  
Sogatella Furcifera ◽  
Content Type ◽  
Major Pest

ABSTRACT The brown planthopper Nilaparvata lugens (Hemiptera) is a major pest of rice crops in Asia. Artificial transinfections of Wolbachia have recently been used for reducing host impacts, but transinfections have not yet been undertaken with another important endosymbiont, Cardinium. This endosymbiont can manipulate the reproduction of hosts through phenotypes such as cytoplasmic incompatibility (CI), which is strong in the related white-backed planthopper, Sogatella furcifera (Hemiptera). Here, we stably infected N. lugens with Cardinium from S. furcifera and showed that it exhibits perfect maternal transmission in N. lugens. The density of Cardinium varied across developmental stages and tissues of the transinfected host. Cardinium did not induce strong CI in N. lugens, likely due to its low density in testicles. The infection did decrease fecundity and hatching rate in the transinfected host, but a decrease in fecundity was not apparent when transinfected females mated with Wolbachia-infected males. The experiments show the feasibility of transferring Cardinium endosymbionts across hosts, but the deleterious effects of Cardinium on N. lugens limit its potential to spread in wild populations of N. lugens in the absence of strong CI. IMPORTANCE In this study we established a Cardinium-infected N. lugens line that possessed complete maternal transmission. Cardinium had a widespread distribution in tissues of N. lugens, and this infection decreased the fecundity and hatching rate of the host. Our findings emphasize the feasibility of transinfection of Cardinium in insects, which expands the range of endosymbionts that could be manipulated for pest control.

FOXO links wing form polyphenism and wound healing in the brown planthopper, Nilaparvata lugens

2016 ◽  
Vol 70 ◽  
pp. 24-31 ◽  
Author(s):  
Xinda Lin ◽  
Yun Yao ◽  
Bo Wang ◽  
Mark D. Lavine ◽  
Laura Corley Lavine
Keyword(s):  
Wound Healing ◽  
Brown Planthopper ◽  
Nilaparvata Lugens ◽  
Wing Form

Numerical model simulations of brown planthopper Nilaparvata lugens and white-backed planthopper Sogatella furcifera (Hemiptera: Delphacidae) migration

1999 ◽  
Vol 89 (6) ◽  
pp. 557-568 ◽  
Author(s):  
R. Turner ◽  
Y.-H. Song ◽  
K.-B. Uhm
Keyword(s):  
Numerical Model ◽  
Eastern China ◽  
Source Region ◽  
Brown Planthopper ◽  
Nilaparvata Lugens ◽  
Sogatella Furcifera ◽  
Model Simulations ◽  
Insect Movement ◽  
Sufficient Detail ◽  
Flight Level

AbstractThis paper reports on the performance of an atmospheric numerical model called BLAYER which has been adapted to forecast the movement of migrant brown planthopper Nilaparvata lugens (Stål) and white-backed planthopper Sogatella furcifera (Horvarth) populations from China to Korea. Comparison of model forecasts with trapping data for the 1987 and 1988 migration seasons indicated: (i) that the model is capable of successfully simulating the movement of planthoppers to Korea; (ii) that the model has sufficient detail to simulate insect movement into different regions of Korea; (iii) the source region for early season migrants is most likely to be south-eastern China (i.e. south of 25°N and east of 115°E); (iv) later season migrants may not necessarily always originate from an expanded northward region (south of 30°N); (v) the flight level of migrants may vary from about 500 to 2000 m altitude from one migration episode to another; and (vi) flight times ranging between 24 and 45 h are required to explain the migratory influxes. The results reported here have led to BLAYER forecasts of planthopper migration being produced on an operational basis within Korea.

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