Difference between revisions of "BioControl (2012) 57, 481-492"
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{{Publication | {{Publication | ||
| − | |Publication authors=[[Esmat M. Hegazi|Esmat Hegazi]], Wedad Khafagi, [[Annette Herz]], Maria Konstantopoulou, Serif Hassan, Essam Agamy, Atwa Atwa and Sania Shweil | + | |Publication authors=[[Esmat M. Hegazi|Esmat Hegazi]], Wedad Khafagi, [[Annette Herz]], [[Maria A. Konstantopoulou|Maria Konstantopoulou]], Serif Hassan, Essam Agamy, Atwa Atwa and Sania Shweil |
| − | |Author Page=Esmat M. Hegazi, Annette Herz, Sherif A. Hassan | + | |Author Page=Esmat M. Hegazi, Annette Herz, Sherif A. Hassan, Maria A. Konstantopoulou |
|Publication date=2012 | |Publication date=2012 | ||
|dc:title=Dispersal and field progeny production of ''Trichogramma'' species released in an olive orchard in Egypt | |dc:title=Dispersal and field progeny production of ''Trichogramma'' species released in an olive orchard in Egypt | ||
Latest revision as of 18:39, 24 May 2021
Esmat Hegazi, Wedad Khafagi, Annette Herz, Maria Konstantopoulou, Serif Hassan, Essam Agamy, Atwa Atwa and Sania Shweil (2012)
Dispersal and field progeny production of Trichogramma species released in an olive orchard in Egypt
BioControl 57 (4), 481-492
Abstract: Dispersal ability and field progeny production of augmentative released biological control agents depend on ecological adaptations of the particular species or strains used. Four species of the egg parasitoid genus Trichogramma were compared aiming to select suitable candidates for control of lepidopteran olive pests. Three of them (T. bourarachae Pintureau and Babault, T. cordubensis Vargas and Cabello, T. euproctidis Girault) had been previously collected from olive groves, whereas the commercially available strain used (T. evanescens Westwood) was originally isolated from sugarcane fields. During five consecutive field releases in an olive orchard near Cairo, dispersal and/or progeny production of these species was monitored using sentinel eggs placed at different heights in the release tree canopies as well as in neighboring trees ("distance effect"). The cardinal direction of dispersal was random for T. euproctidis and T. evanescens. Significant higher parasitism occurred on sentinel eggs placed on the middle part of tree canopy and highest parasitism was observed in trees where wasps had been released. Field progeny production was highest for T. bourarachae, followed by T. euproctidis and T. cordubensis. T. evanescens propagated less under field conditions. Inter-tree dispersal of all species except T. bourarachae was limited and, for biological control, releasing material should therefore be distributed on each olive tree, preferably also at different levels of the canopy.
(The abstract is excluded from the Creative Commons licence and has been copied with permission by the publisher.)
Link to article at publishers website
Database assignments for author(s): Esmat M. Hegazi, Annette Herz, Sherif A. Hassan, Maria A. Konstantopoulou
Research topic(s) for pests/diseases/weeds:
biocontrol - natural enemies
Research topic(s) for beneficials or antagonists:
population dynamics/epizootiology
inundative/inoculative release
Pest and/or beneficial records:
| Beneficial | Pest/Disease/Weed | Crop/Product | Country | Quarant.
|
|---|---|---|---|---|
| Trichogramma cordubensis (parasitoid) | Egypt | |||
| Trichogramma bourarachae (parasitoid) | Egypt | |||
| Trichogramma evanescens (parasitoid) | Egypt | |||
| Trichogramma euproctidis (parasitoid) | Egypt |
