Seasonal trends in Ceratitis capitata reproductive potential derived from live-caught females in Greece

Reproductive data of individual insects are extremely hard to collect under natural conditions, thus the study of research questions related to oviposition has not advanced. Patterns of oviposition are often inferred only indirectly, through monitoring of host infestation, whereas the influence of a...

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Bibliographic Details
Published in:Entomologia experimentalis et applicata 2011-09, Vol.140 (3), p.181-188
Main Authors: Kouloussis, Nikos A., Papadopoulos, Nikos T., Katsoyannos, Byron I., Müller, Hans-Georg, Wang, Jane-Ling, Su, Yu-Ru, Molleman, Freerk, Carey, James R.
Format: Article
Language:English
Subjects:
Age composition
age structure
Biological and medical sciences
captive cohort
Ceratitis capitata
Data processing
Diptera
Egg laying
Females
field study
Fundamental and applied biological sciences. Psychology
Infestation
Insecta
Invertebrates
Islands
Life span
medfly
natural population
Oviposition
Regression analysis
Reproduction
Sampling
Seasons
Statistical analysis
Tephritidae
trapping
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Summary:Reproductive data of individual insects are extremely hard to collect under natural conditions, thus the study of research questions related to oviposition has not advanced. Patterns of oviposition are often inferred only indirectly, through monitoring of host infestation, whereas the influence of age structure and several other factors on oviposition remains unknown. Using a new approach, in this article, we live‐trapped wild Ceratitis capitata (Wiedemann) (Diptera: Tephritidae) females on the Greek island of Chios during two field seasons. For their remaining lifetime, these females were placed individually in small cages and their daily oviposition was monitored. Reproduction rates between cohorts from different collection dates were then compared. The results showed that in the different captive cohorts the average remaining lifetime and reproduction were highly variable within and between seasons. Multivariate regression analysis showed that the month of capture had a significant effect on captive life span, average daily reproduction, and patterns of egg laying. The effect of year was significant on reproduction, but not on captive life span. These differences between sampling periods probably reflect differences in the availability of hosts and other factors that vary during the season and affect age structure and reproduction. Using a non‐parametric generalized additive model, we found a statistically significant correlation between the captive life span and the average daily reproduction. These findings and the experimental approach have several important implications.
ISSN:0013-8703
1570-7458
1570-8703
DOI:10.1111/j.1570-7458.2011.01154.x