Ultrastructure Traits and Genetic Variability of Red Palm Weevil Rhynchophorus ferrugineus (Olivier) Adults from Different Geographical Locations in Egypt
Diversity 2022, 14, 404. https://doi.org/10.3390/d14050404 • 2022
Publication Information
Authors
Islam R. M. El-Zoghby 1
, Nabil S. Awad 2,3,* , Abeer Mousa Alkhaibari 4,* and Naglaa F. Abdel-Hameid 5
Keywords
Rhynchophorus ferrugineus; scanning electronic microscopy; DNA marker; biodiversity
Journal
Diversity 2022, 14, 404. https://doi.org/10.3390/d14050404
Publisher
Diversity
Volume
14, x , 404
Issue
1687- 8809
Pages
-
publication.type
International
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
The Red Palm Weevil (RPW) is one of the most damaging pests to palm cultivation; this
invasive weevil poses a threat to the palm industry. The characterization and identification of this
pest in order to determine its biological diversity is the first step in controlling it, which will help in
developing effective control programs. The purpose of this study is to investigate the biodiversity
of and characterize RPW from five different Egyptian geographical locations at morphological and
genetic levels using morphometric analysis, scanning electronic microscopy and two different genetic
markers. Our results revealed no significant differences between length and width of the adult
body among RPW adults from different geographical locations. Different typologies of prothoracic
spots were observed, indicating a degree of diversity in the RPW populations. The magnitude of
the different body parts was measured among both males and females. Significant differences were
exhibited between length of the antennal seta, as well as forelegs, the lengths and widths of the
pronotum, and the rostrum length between both sexes. Both RAPD and ISSR used DNA markers,
generating reproducible and distinct banding patterns. The polymorphic banding patterns that have
resulted from all studied populations confirmed that these markers demonstrate genetic variability
amongst the studied Egyptian populations of Rhynchophorus ferrugineus. The recorded differences
may be due to the presence of different red palm weevil genotypes. The obtained results might have
potential applications in developing a new tracking and control strategy for this invasive pest.
invasive weevil poses a threat to the palm industry. The characterization and identification of this
pest in order to determine its biological diversity is the first step in controlling it, which will help in
developing effective control programs. The purpose of this study is to investigate the biodiversity
of and characterize RPW from five different Egyptian geographical locations at morphological and
genetic levels using morphometric analysis, scanning electronic microscopy and two different genetic
markers. Our results revealed no significant differences between length and width of the adult
body among RPW adults from different geographical locations. Different typologies of prothoracic
spots were observed, indicating a degree of diversity in the RPW populations. The magnitude of
the different body parts was measured among both males and females. Significant differences were
exhibited between length of the antennal seta, as well as forelegs, the lengths and widths of the
pronotum, and the rostrum length between both sexes. Both RAPD and ISSR used DNA markers,
generating reproducible and distinct banding patterns. The polymorphic banding patterns that have
resulted from all studied populations confirmed that these markers demonstrate genetic variability
amongst the studied Egyptian populations of Rhynchophorus ferrugineus. The recorded differences
may be due to the presence of different red palm weevil genotypes. The obtained results might have
potential applications in developing a new tracking and control strategy for this invasive pest.
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