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Some Physiological Adaptations to Drought in Xerohalophytic Plants
Inhabiting Two Oases in Western Desert of Egypt
A M Rayan1 and K A Farghali2
1Biology Dept, Faculty of Education, Assiut University, The New Valley,
Egypt
2Botany Dept, Faculty of Science, Assiut University, Assiut, Egypt
Abstract
Under natural drought, some physiological parameters were measured in
some wild species inhabiting the western desert of Egypt. Seasonal
changes of nitrogen metabolites and Na/K ratio were detected in the
investigated species. Effect of seasons, species, and their interaction
played an important role on total free amino acids, soluble proteins and
Na/K ratio at two oases (Dakhla and Kharga). Species diversity showed
more effective variable in regulating such metabolites at Kharga oasis.
Plants responded to their environment in two ways, either by increasing
their water binding molecules or by preventing the formation of amino
acids into proteins. Some of the halophytic and xerophytic species may
adjust osmotically to stress by the contribution of nitrogen
metabolites. On the other hand, Zygophyllum coccineum, the succulent
plant, may adapt to environmental conditions through the accumulation of
free amino acids. Correlation analysis between Na+/K+ ratio with free
amino acids, soluble proteins and water content in Tamarix aphylla,
Salsola imbricata, Balanites aegyptiaca, Trichodesma africanum, and Z.
coccineum (Kharga) indicated changes in ionic fraction or accumulating
soluble organic compounds which were osmotically active and contribute
to osmotic adjustment. Correlations were found between chlorophyll
content, ionic and nitrogen metabolites. In Acacia nilotica, Suaeda
monoica and Z. coccineum at Dakhla oasis, changes in soluble proteins or
ionic ratio could be caused by chlorophyll response to stress, while S.
imbricata and T. aphylla may control cellular protein contents. On the
other hand, the sharing of both
free amino acids and ionic fraction may play an important role of
osmoregulation in S. imbricata, Citrullus colocynthis and Z. coccineum
at Kharga oasis.
Key words: Nitrogen metabolites, ionic fraction, osmotic
adjustment, Na+/K+ ratio, desert species.
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