@article{SALAMA_EL-GHANI_GADALLAH_EL-NAGGAR_AMRO_2014, title={Variations in Vegetation Structure, Species Dominance and Plant Communities in South of the Eastern Desert-Egypt}, volume={6}, url={https://notulaebiologicae.ro/index.php/nsb/article/view/9191}, DOI={10.15835/nsb619191}, abstractNote={<p style="text-align: justify;">For two successive years, the floristic diversity and vegetation composition in the southern part of the Eastern Desert ofEgypt were investigated through four transects (3 crossing the Eastern Desert and one along the Red Sea). The data collected from 142 stands covering the study area included the species composition, functional groups, chorology and occurrences (Qvalues). A total of 94 plant species belonging to 33 different families were recorded, with <em>Asteracea</em>, <em>Zygophyllaceae</em>, <em>Fabaceae</em>,<em>Poaceae</em>, <em>Chenopodiaceae</em> and <em>Brassicaceae</em> as the largest families. Shrubs represented the largest functional group (39.4%), while perennial herbs represented the smallest ones (12.8%). Species occurrence (Q-value) revealed that <em>Zilla spinosa</em>, <em>Acacia tortilis</em> subsp <em>raddiana</em>, <em>Morettia philaeana</em>, <em>Caroxylon imbricatum</em>, <em>Zygophyllum coccineum</em> and <em>Citrullus colocynthis</em> had wide ecological range of distribution (dominant species, Q-values 0.2). Saharo-Arabian chorotype was highly represented (72.6 %) in the flora of this area, eventually as mono, bi or pluriregional. Classification of the data set yielded 7 vegetation groups included: (A) <em>Zilla spinosa</em>-<em>Morettia philaeana</em>, (B1) <em>Zilla spinosa</em>-<em>Citrullus colocynthis</em>-<em>Morettia philaeana</em>, (B2) <em>Zilla spinosa</em>, (C1)<em>Zygophyllum album</em>-<em>Tamarix nilotica</em>, (C2) <em>Zygophyllum coccineum</em>-<em>Tamarix nilotica</em>, (D1) <em>Zilla spinosa</em>-<em>Zygophyllum coccineum</em> and (D2) <em>Zilla spinosa</em>-<em>Acacia tortilis</em> subsp. <em>raddiana</em>-<em>Tamarix aphylla</em>-<em>Balanites aegyptiaca</em>. Certain vegetation groups were assigned to one or more transects. Detrended Correspondence Analysis (DCA) revealed that electrical conductivity, sodium, potassium, calcium, magnesium, chlorides, moisture content, sulphates, pH, organic matter and gravel were the soil variables that affect the species distribution in this study.</p>}, number={1}, journal={Notulae Scientia Biologicae}, author={SALAMA, Fawzy and EL-GHANI, Monier ABD and GADALLAH, Mohamed and EL-NAGGAR, Salah and AMRO, Ahmed}, year={2014}, month={Mar.}, pages={41–58} }