References |
-
Al-Sodany, Y. M., M. N. Shehata and K. H. Shaltout (2003) Vegetation along an elevation gradient in Al-Jabal Al-Akhdar, Libya.
Ecologia Mediterranea. 29, 2, 125-137.
(see details)
-
Batanouny, K. H. (1973) LIME GLANDS OF LIMONIASTRUM-MONOPETALUM.
Naturwissenschaftliche Rundschau. 26, 5, 213-214.
(see details)
-
Batanouny, K. H. and S. Abo, Y.M. (1977) Eco-physiological studies on halophytes in arid and semi-arid zones1. Autecolocy of the salt-secreting halophyte Limoniastrum monopetalum (L) boiss.
Acta Botanica Acad. Scientiarum Hungaricae, Tomus. 23, 13-31.
(see details)
-
Danin, A (1981) The impact of geomorphologic and climatic conditions on the vegetation of salt marshes along the Mediterranean Coast of Israel and Sinai.
Anales Jardin Botanico de Madrid. 37, 2, 269. -275.
(see details)
-
El-Morsy, E. M. (1999) Microfungi from the ectorhizosphere-rhizoplane zone of different halophytic plants from the Red Sea coast of Egypt.
Mycologia. 91, 2, 228-236.
(see details)
-
Harrouni, M. C., S. Daoud, A. El Alami, B. Debbagh, R. Choukr-Allah and M. Bengaddour (1999) Responses of some halophytes to seawater irrigation in Morocco.
Halophyte Uses in Different Climates Ii: Halophyte Crop Development: Pilot Studies. 14, 57-75.
(see details)
-
Ksouri, R., W. Megdiche, H. Falleh, N. Trabelsi, M. Boulaaba, A. Smaoui and C. Abdelly (2008) Influence of biological, environmental and technical factors on phenolic content and antioxidant activities of Tunisian halophytes.
Comptes Rendus Biologies. 331, 11, 865-873.
(see details)
-
Lopes, A., M. J. Rodrigues, C. Pereira, M. Oliveira, L. Barreira, J. Varela, F. Trampetti and L. Custodio (2016) Natural products from extreme marine environments: Searching for potential industrial uses within extremophile plants.
Industrial Crops and Products. 94, 299-307.
(see details)
-
Manousaki, E., K. Galanaki, L. Papadimitriou and N. Kalogerakis (2014) METAL PHYTOREMEDIATION BY THE HALOPHYTE LIMONIASTRUM MONOPETALUM (L.) BOISS: TWO CONTRASTING ECOTYPES.
International Journal of Phytoremediation. 16, 7-8, 755-769.
(see details)
-
Ramadan T (1997) Eco-physiological relevance of potassium recretion by the salt glands of Limoniastrum monopetalum (L.) Boiss .
Egyptian Journal of Botany. 37, 1, 1. -12.
(see details)
-
Salama, F. M., M. M. Abd El-Ghani, S. M. El Naggar and K. A. Baayo (2005) Vegetation structure and environmental gradients in the Sallum area, Egypt.
Ecologia Mediterranea. 31, 1, 15-32.
(see details)
-
Salama, F. M., S. M. El-Naggar and T. Ramadan (1999) Salt glands of some halophytes in Egypt.
Phyton-Annales Rei Botanicae. 39, 1, 91-105.
(see details)
-
Tadros, T. M. (1953) A phytosociological study of halophilous communities from Mareotis (Egypt).
4, 102. -124.
(see details)
-
Trabelsi, N., P. Waffo-Teguo, M. Snoussi, R. Ksouri, J. M. Merillon, A. Smaoui and C. Abdelly (2013) Variability of phenolic composition and biological activities of two Tunisian halophyte species from contrasted regions.
Acta Physiologiae Plantarum. 35, 3, 749-761.
(see details)
-
Van Oosten, M. J. and A. Maggio (2015) Functional biology of halophytes in the phytoremediation of heavy metal contaminated soils.
Environmental and Experimental Botany. 111, 135-146.
(see details)
-
das Neves, J. P. C., L. F. P. Ferreira, M. M. Vaz and L. C. Gazarini (2008) Gas exchange in the salt marsh species Atriplex portulacoides L. and Limoniastrum monopetalum L. in Southern Portugal.
Acta Physiologiae Plantarum. 30, 1, 91-97.
(see details)
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