Medfly Phenotypic Plasticity as A Prerequisite for Invasiveness and Adaptation

Medfly Phenotypic Plasticity as A Prerequisite for Invasiveness and Adaptation

The hypothesis of this study was that different plant hosts of the medfly <i>Ceratitis capitata</i> may cause variability as a prerequisite for its invasiveness. The main objective was to determine population variability based on medfly wing shape in three favorable medfly host plants (p...

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Détails bibliographiques
Auteurs principaux: Darija Lemic, Mario Bjeliš, Pave Ninčević, Ivana Pajač Živković, Luka Popović, Helena Virić Gašparić, Hugo A. Benitez
Format: article
Langue:EN
Publié: MDPI AG 2021
Sujets:
<i>Ceratitis capitata</i> (Wiedemann)
geometric morphometrics
invasiveness
spreading potential
plasticity
Environmental effects of industries and plants
TD194-195
Renewable energy sources
TJ807-830
Environmental sciences
GE1-350
Accès en ligne:https://doaj.org/article/49354582e0724a5ab21f39dded8e92f0
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Résumé:The hypothesis of this study was that different plant hosts of the medfly <i>Ceratitis capitata</i> may cause variability as a prerequisite for its invasiveness. The main objective was to determine population variability based on medfly wing shape in three favorable medfly host plants (peach, fig and mandarin) from different agroecological growing areas with different pest management practices, and to evaluate phenotypic plasticity as a basis for future expansion into new areas and new hosts. Using geometric morphometric methods across 14 specific landmarks on the medfly wings, 10 populations were tested from infested peach, fig and mandarin fruits, as well as laboratory-grown sterile populations. The studies led to the following main findings: (1) all of the medfly populations that were studied exhibited sexual dimorphism in wing shape; (2) the hosts in which the medfly develops influence wing shape and condition its variability; (3) there is significant variability between laboratory mass-reared sterile and wild individuals in male and female populations; (4) a high phenotypic plasticity of medfly populations was observed along the study sites. Even the low but clearly detected variability between different agroecological conditions and localized variability indicate genotypic stability and high phenotypic plasticity, which can be considered as a prerequisite for medfly invasiveness and dispersal to new areas.

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