scholarly journals Morphology of immature stages in the neotropical nonfrugivorous Tephritinae Fruit Fly Species Rachiptera limbata Bigot (Diptera: Tephritidae) on Baccharis linearis (R. et Pav.) (Asteraceae)

2008 ◽  
Vol 37 (5) ◽  
pp. 536-545 ◽  
Author(s):  
Daniel Frías
Keyword(s):  
Fruit Fly ◽  
Immature Stages ◽  
Baccharis Linearis

Survival and development of different life stages of three Ceratitis spp. (Diptera: Tephritidae) reared at five constant temperatures

2002 ◽  
Vol 92 (6) ◽  
pp. 461-469 ◽  
Author(s):  
P.F. Duyck ◽  
S. Quilici
Keyword(s):  
Simulation Models ◽  
Fruit Fly ◽  
Thermal Constant ◽  
Immature Stages ◽  
Developmental Threshold ◽  
Laboratory Rearing ◽  
Larval Stages ◽  
Survival And Development ◽  
Lower Developmental Threshold ◽  
Computer Simulation Models

AbstractFruit flies (Diptera: Tephritidae) are the most damaging pests on fruit crops on Réunion Island, near Madagascar. Survival and development of the Mediterranean fruit fly, Ceratitiscapitata (Wiedemann), the Natal fruit fly, C. rosa Karsch and the Mascarenes fruit fly, C. catoirii Guérin-Mèneville were compared at five constant temperatures spanning 15 to 35°C. Durations of the immature stages of C. capitata, C. rosa and C catoirii ranged from 14.5–63.8, 18.8–65.7 and 16.8–65.8 days, respectively, at 30–15°C. The lower developmental threshold and thermal constant were calculated using the temperature summation model. The thermal constant for total development of the immature stages of C. capitata, C. rosa and C. catoirii were 260, 405 and 356 DD, respectively. Species differed mainly during the larval stages and ovarian maturation period, with smaller differences in the egg stage. Ceratitis rosa appeared to be better adapted to low temperatures than the two other species as it showed a lower larval developmental threshold of 3.1°C compared to 10.2°C for C. capitata and 8.9°C for C. catoirii. Overall, C. catoirii had a low survival rate within the range of temperatures studied. The different responses of the three Ceratitis species to various temperatures explain to some extent their distribution on the island. The results obtained will be used for optimizing laboratory rearing procedures and for constructing computer simulation models to predict fruit fly population dynamics.

scholarly journals Histopathological events and detection of Metarhizium anisopliae using specific primers in infected immature stages of the fruit fly Anastrepha fraterculus (Wiedemann, 1830) (Diptera: Tephritidae)

2011 ◽  
Vol 71 (1) ◽  
pp. 91-98 ◽  
Author(s):  
IJ. Bechara ◽  
RHR. Destéfano ◽  
C. Bresil ◽  
CL. Messias
Keyword(s):  
Metarhizium Anisopliae ◽  
Entomopathogenic Fungus ◽  
Large Scale ◽  
Microbial Control ◽  
Fruit Fly ◽  
Control Agent ◽  
Immature Stages ◽  
Disease Cycle ◽  
Anastrepha Fraterculus ◽  
Hyphal Bodies

The fungus Metarhizium anisopliae is used on a large scale in Brazil as a microbial control agent against the sugar cane spittlebugs, Mahanarva posticata and M. fimbriolata (Hemiptera., Cercopidae). We applied strain E9 of M. anisopliae in a bioassay on soil, with field doses of conidia to determine if it can cause infection, disease and mortality in immature stages of Anastrepha fraterculus, the South American fruit fly. All the events were studied histologically and at the molecular level during the disease cycle, using a novel histological technique, light green staining, associated with light microscopy, and by PCR, using a specific DNA primer developed for M. anisopliae capable to identify Brazilian strains like E9. The entire infection cycle, which starts by conidial adhesion to the cuticle of the host, followed by germination with or without the formation of an appressorium, penetration through the cuticle and colonisation, with development of a dimorphic phase, hyphal bodies in the hemocoel, and death of the host, lasted 96 hours under the bioassay conditions, similar to what occurs under field conditions. During the disease cycle, the propagules of the entomopathogenic fungus were detected by identifying DNA with the specific primer ITSMet: 5' TCTGAATTTTTTATAAGTAT 3' with ITS4 (5' TCCTCCGCTTATTGATATGC 3') as a reverse primer. This simple methodology permits in situ studies of the infective process, contributing to our understanding of the host-pathogen relationship and allowing monitoring of the efficacy and survival of this entomopathogenic fungus in large-scale applications in the field. It also facilitates monitoring the environmental impact of M. anisopliae on non-target insects.

An integrated diagnostic setup for the morphological and molecular identification of the Ceratitis FAR complex (C. anonae, C. fasciventris, C. rosa, C. quilicii, Diptera, Tephritidae)

2018 ◽  
Vol 109 (3) ◽  
pp. 376-382 ◽  
Author(s):  
M. Virgilio ◽  
J.-H. Daneel ◽  
A. Manrakhan ◽  
H. Delatte ◽  
K. Meganck ◽  
...  
Keyword(s):  
Microsatellite Markers ◽  
Molecular Identification ◽  
Fruit Fly ◽  
Morphological Identification ◽  
Correct Identification ◽  
Immature Stages ◽  
Adult Females ◽  
Molecular Differentiation ◽  
Reference Specimens ◽  
Ceratitis Fasciventris

AbstractThe Ceratitis FAR complex (Diptera, Tephritidae) includes four economically important frugivorous flies (Ceratitis anonae, Ceratitis fasciventris, Ceratitis quilicii, Ceratitis rosa) whose immature stages and adult females cannot be properly resolved through morphological identification. In order to develop a simplified molecular tool for the identification of two of these species (C. rosa, C. quilicii), we selected a subset of six microsatellite markers out of a panel of 16 loci that were previously developed for the molecular differentiation of the taxa within the complex. These six markers were first tested in silico and then used for the actual genotyping of C. quilicii and C. rosa, resulting in the correct identification of all male reference specimens. Here, we propose an integrated morphological and molecular setup for the identification of the four species of the FAR complex. The decision map relies on preliminary DNA barcoding or morphological identification (when possible) to exclude species not belonging to the complex followed by (a) morphological identification of all adult male specimens and female C. anonae, (b) molecular identification via a panel of 16 microsatellite markers for immature stages, damaged vouchers and samples potentially including adult female C. fasciventris/C. quilicii/C. rosa and (c) molecular identification via a reduced panel of six microsatellite markers for samples including only C. quilicii and C. rosa. This simplified diagnostic setup was profitably implemented in the framework of the ERAfrica fruit fly project and will help correctly identify species within the FAR complex for their early detection and monitoring.

Reduction in Emergence of Rhagoletis indifferens (Diptera: Tephritidae) from Sweet Cherries with Different Egg and Larval Distributions Using Newer Insecticides

2009 ◽  
Vol 44 (3) ◽  
pp. 171-186 ◽  
Author(s):  
Wee L. Yee
Keyword(s):  
Pacific Northwest ◽  
Prunus Avium ◽  
Insect Pest ◽  
Fruit Fly ◽  
Time Interval ◽  
Immature Stages ◽  
Sweet Cherries ◽  
Larval Emergence ◽  
Rhagoletis Indifferens ◽  
Eggs And Larvae

Western cherry fruit fly, Rhagoletis indifferens Curran (Diptera: Tephritidae), is the major insect pest of sweet cherry, Prunus avium (L.) L., in the Pacific Northwest of the U.S. To reduce fly populations in unharvested fruit following the completion of commercial harvest, it is important to control immature stages in cherry fruit. In this study, the goals were to (1) identify the susceptibility of the eggs and larvae to neonicotinoid and other insecticides and (2) determine the effects of these insecticides on larval emergence from sweet cherries with different egg and larval distributions (the relative percentages of different stages). Only 3.3% of eggs exposed for 15 sec to thiacloprid hatched, whereas 25.0 - 41.0% of eggs exposed to water only, spinosad, and imidacloprid hatched. Larval mortalities in cherries 48 - 52 h after being treated with imidacloprid, thiacloprid and acetamiprid were 50.0 - 66.7%, significantly higher than the 24.0% mortality in untreated cherries. Imidacloprid, thiamethoxam, thiacloprid, acetamiprid, and clothianidin were equally effective in reducing larval emergence when sprayed on cherries in which eggs were 94.2% of the immature stages, but imidacloprid and acetamiprid appeared to be the most effective when sprayed on cherries in which eggs were only 19.7% and 53.8% of the immature stages. Results indicate neonicotinoids are toxic to eggs and larvae of R. indifferens and that all are more effective in cherries against eggs than larvae. For fly control, the time interval between the last spray directed against adult flies and the first postharvest spray of neonicotinoids should be no more than 1 wk, to reduce chances eggs hatch and larvae develop.

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