Anatomical Tool as Additional Approach for Identifying Pharmaceutically Important Ephedra Species (Ephedraceae) at Gender Identity Level in Egypt

The genus Tourn. ex L. (Ephedraceae) is an important source with pharmacological and environmental potential. Conversely, spp. still exhibit taxonomic complexity, especially for the specimens lacking reproductive cones. This complexity is attributed to its xeromorphic features, notably the reduced l...

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Bibliographic Details
Published in:Biology (Basel, Switzerland) Switzerland), 2024-11, Vol.13 (11), p.947
Main Authors: Khalaf, Maha H, Amer, Wafaa M, Shaye, Najla A Al, Hassan, Mahmoud O, Gomaa, Nasr H
Format: Article
Language:English
Subjects:
Anatomy
Animal behavior
Aqueous solutions
Ephedra
Ephedra fragments
Ephedraceae
epidermal system
Fatty acids
Females
gender identification
Gender identity
light microscope
Medicinal plants
Physical characteristics
Software
Species
stem anatomy
Taxonomy
Variance analysis
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Summary:The genus Tourn. ex L. (Ephedraceae) is an important source with pharmacological and environmental potential. Conversely, spp. still exhibit taxonomic complexity, especially for the specimens lacking reproductive cones. This complexity is attributed to its xeromorphic features, notably the reduced leaves and analogous assimilating branches, which make the species identification a real challenge. The current study provides a pioneering approach to distinguish fragments of species at the gender level. This study was based on the stem anatomy and stem epidermal features using a light microscope for five species ( Decne., Forssk., Fisch. & C.A.Mey., Forssk. and Boiss.) represented by ten genders collected from S. Sinai, Egypt. Anomocytic and brachyparacytic stomata, tanniniferous idioblasts, annual rings, a terete and furrowed outline, the number and width of tracheids, patches of cortical fibers, unicellular trichomes, druses, solitary crystals, and the activity of interfascicular cambium were among the distinguishing features that were found. Different statistical analyses were applied to explore the diversity at interspecific and intra-generic levels. This study revealed that the stem anatomy was not only an efficient tool for identifying the investigated five species at the species level but also presented a differential key to distinguish between genders and species. In addition, our results indicated that the epidermal features played a critical role in differentiating the studied species at the gender level. This study confirms the efficacy of stem anatomy as an identification approach for the species at the gender level and recommends this approach to identify the fragmented for taxonomical, pharmaceutical, and medical applications.
ISSN:2079-7737
2079-7737
DOI:10.3390/biology13110947