The ovipositor musculature of Bactrocera depressa Shiraki (Diptera, Tephritidae)

Structure of the ovipositor sclerites and musculature was studied in the tephritid fly Bactrocera depressa Shiraki, whose larvae develop in the fruits of Cucurbita moschata and other Cucurbitaceae. The functioning and adaptations of the ovipositor of this species to laying eggs into soft fruits are...

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Bibliographic Details
Published in:Entomological review 2012-05, Vol.92 (2), p.178-183
Main Author: Ovtshinnikova, O. G.
Format: Article
Language:English
Subjects:
Adaptations
Agricultural pests
Bactrocera
Biomedical and Life Sciences
Ceratitis
Ceratitis capitata
Classification
Cucurbita moschata
Cucurbitaceae
Deposits
Diptera
Eggs
Fruits
Host plants
Life Sciences
Mediterranean fruit-fly
Mobility
Oviposition
Ovipositor
Reviews
Sclerites
Soft tissues
Specialization
Tephritidae
Trigona
Urophora
Urophora affinis
Zoology
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Summary:Structure of the ovipositor sclerites and musculature was studied in the tephritid fly Bactrocera depressa Shiraki, whose larvae develop in the fruits of Cucurbita moschata and other Cucurbitaceae. The functioning and adaptations of the ovipositor of this species to laying eggs into soft fruits are discussed with respect to their differences from the ovipositor characteristics in species with different host specializations, e.g., Ceratitis capitata (Wiedemann) (Hanna, 1938), Lenitovena trigona Matsumura (Ovtshinnikova, 2008), Urophora affinis Frauenfeld and U. quadrifasciata (Meigen) (Berube and Zacharuk, 1983) and Campiglossa plantaginis (Haliday, 1833) (Ovtshinnikova, 2010). The ovipositor musculature of Bactrocera depressa is very similar to that of Ceratitis capitata , a species which lays eggs in soft tissues of various fruits. The sclerites and musculature of the ovipositor, especially the basal part of syntergosternite VII, in the fruit infesting Bactrocera (also in Ceratitis ) is intermediate between that in Lenitovena laying eggs in the (soft) decaying wood, and Urophora and Campiglossa that deposit eggs in the hard flowerheads of asteraceans. Species of the latter genera have still more complicated structure of the basal part of syntergosternite VII enabling a more intense protruding of the ovipositor and its more closely controlled operating during oviposition in the harder plant tissues. The discussed morpho-functional rearrangements proceed within species of a single lineage of the modern classification (Korneyev, 1999) from the basal Lenitovena to the terminal Urophora and Campiglossa , Bactrocera occupying an intermediate position in this row. In this way, the technology changes (from a muscul lever to a pump) resulting in an increase of the ovipositor mobility during piercing of the substrate.
ISSN:0013-8738
1555-6689
DOI:10.1134/S0013873812020066