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This record is not the most recent record for this plant
The current approved record can be found here

Report for Atriplex halimus L.

updated: Feb 28th 2018, 8:13 pm see all updates
Changed fields since previous approved record are highlighted


Family Amaranthaceae
Genus Atriplex
Species halimus
Author L.
Infraspecific subsp.
Infraspecfic Author
Pictures
Plant type
  • xerophyteBendaly, A., D. Messedi, A. Smaoui, R. Ksouri, A. Bouchereau and C. Abdelly (2016) Physiological and leaf metabolome changes in the xerohalophyte species Atriplex halimus induced by salinity
Life form
  • Shrub
Ecotypes Yes
Max. salinity
 1000 mMAlla, M. M. N., A. H. A. Khedr, M. M. Serag, A. Z. Abu-Alnaga and R. M. Nada (2012) Regulation of metabolomics in Atriplex halimus growth under salt and drought stressBelkheiri, O. and M. Mulas (2013) The effects of salt stress on growth, water relations and ion accumulation in two halophyte Atriplex speciesBendaly, A., D. Messedi, A. Smaoui, R. Ksouri, A. Bouchereau and C. Abdelly (2016) Physiological and leaf metabolome changes in the xerohalophyte species Atriplex halimus induced by salinityBlumenthal-Goldschmidt.S and Poljakof-Mayber.A (1968) EFFECT OF SUBSTRATE SALINITY ON GROWTH AND ON SUBMICROSCOPIC STRUCTURE OF LEAF CELLS OF ATRIPLEX HALIMUS LBouchenak, F., P. Henri, F. Z. Benrebiha and P. Rey (2012) Differential responses to salinity of two Atriplex halimus populations in relation to organic solutes and antioxidant systems involving thiol reductasesNada, R. M. and G. M. Abogadallah (2015) Developmental acquisition of salt tolerance in the halophyte Atriplex halimus L. is related to differential regulation of salt inducible genesNada, R. M. and G. M. Abogadallah (2015) Developmental acquisition of salt tolerance in the halophyte Atriplex halimus L. is related to differential regulation of salt inducible genesOsmond C.B.; O. Bjorkman ; D.J. Anderson. (1980) Physiological processes in plant ecology: toward a synthesis with AtriplexPasternak, D. and A. Nerd (1996) Research and utilization of halophytes in Israel
Germination YesBajji, M., J. M. Kinet and S. Lutts (2002) Osmotic and ionic effects of NaCl on germination, early seedling growth, and ion content of Atriplex halimus (Chenopodiaceae)Debez, A., W. Chaibi and S. Bouzid (2001) Effect of NaCl and growth regulators on germination of Atriplex halimus LEl Shaer, H. M. and H. M. Kandil (1999) Potential of Atriplex species as fodder shrubs under the arid conditions of EgyptMelone, L., G. S. Valenti and G. Dondero (1988) ATRIPLEX-HALIMUS L. SOME GERMINATION FEATURES IN RELATION TO THE SEED POLYMORPHISM AND TO THE MEDIUM SALINITYMunoz-Rodriguez, A. F., P. Rodriguez-Rubio, F. J. J. Nieva, F. Fernandez-Illescas, E. Sanchez-Gullon, J. M. Soto, V. Hermoso-Lopez and B. Marquez-Garcia (2012) THE IMPORTANCE OF BRACTEOLES IN ENSURING Atriplex halimus GERMINATION UNDER OPTIMAL CONDITIONSNada, R. M. and G. M. Abogadallah (2015) Developmental acquisition of salt tolerance in the halophyte Atriplex halimus L. is related to differential regulation of salt inducible genesRachida, K., A. Merzouk, S.-M. Hassiba and B. Noury (2015) Germination of Atriplex halimus Linnaeus, 1753 (Caryophyllales Chenopodiaceae) in North West Algeria
Salt glands and bladders YesAndres, I. M. (1989) LEAF ANATOMY OF PLANTS FROM COSTAL MEDITERRANEAN SALT MARSHES DICOTYLEDONSMozafar, A. and J. R. Goodin (1970) Vesiculated Hairs: A Mechanism for Salt Tolerance in Atriplex halimus L.Salama, F. M., S. M. El-Naggar and T. Ramadan (1999) Salt glands of some halophytes in EgyptSmaoui, A., Z. Barhoumi, M. Rabhi and C. Abdelly (2011) Localization of potential ion transport pathways in vesicular trichome cells of Atriplex halimus LWeiglin, C. and E. Winter (1991) LEAF STRUCTURES OF XEROHALOPHYTES FROM AN EAST JORDANIAN SALT PAN
Photosynthesis Pathway C4Ghaffari, S. M., Z. Balaei, T. Chatrenoor and H. Akhani (2015) Cytology of SW Asian Chenopodiaceae: new data from Iran and a review of previous records and correlations with life forms and C-4 photosynthesisPyankov, VI; Ziegler, H; Akhani, H; Deigele, C; Luttge, U (2010) European plants with C-4 photosynthesis: geographical and taxonomic distribution and relations to climate parametersShomer -Ilan, A., A. Nissenbaum and Y. Waisel (1981) Photosynthetic pathways and the ecological distribution of the Chenopodiaceae in IsraelWalker, D. J. and S. Lutts (2014) The tolerance of Atriplex halimus L. to environmental stressesWeiglin, C. and E. Winter (1991) LEAF STRUCTURES OF XEROHALOPHYTES FROM AN EAST JORDANIAN SALT PAN
Molecular data
  • Gene expressionNada, R. M. and G. M. Abogadallah (2015) Developmental acquisition of salt tolerance in the halophyte Atriplex halimus L. is related to differential regulation of salt inducible genes
  • Genetic structureOrtiz-Dorda, J., C. Martinez-Mora, E. Correal, B. Simon and J. L. Cenis (2005) Genetic structure of Atriplex halimus populations in the Mediterranean Basin
  • DNA C-valueAouissat, M., M. Belkhoja, K. Hcini, D. J. Walker and E. Correal (2009) Estimation of nuclear DNA content in Algerian populations of Atriplex halimus and Atriplex canescens by flow cytometryKheiria, H., D. J. Walker, E. Correal and S. Bouzid (2008) Estimation of nuclear DNA content in populations of Atriplex halimus L. (Chenopodiaceae) by flow cytometry
Microbial interactions and mycorrhizal status YesBarness, G., S. Zaragoza, I. Shmueli and Y. Steinberger (2009) Vertical Distribution of a Soil Microbial Community as Affected by Plant Ecophysiological Adaptation in a Desert SystemHaddi, M. L., S. Filacorda, K. Meniai, F. Rollin and P. Susmel (2003) In vitro fermentation kinetics of some halophyte shrubs sampled at three stages of maturityLutts, S. and I. Lefevre (2015) How can we take advantage of halophyte properties to cope with heavy metal toxicity in salt-affected areas?
Bioremediation YesGrafe, M; Klauber, C (2011) Bauxite residue issues: IV. Old obstacles and new pathways for in situ residue bioremediationManousaki, E. and N. Kalogerakis (2009) Phytoextraction of Pb and Cd by the Mediterranean saltbush (Atriplex halimus L.): metal uptake in relation to salinityParraga-Aguado, I., M. N. Gonzalez-Alcaraz, J. Alvarez-Rogel and H. M. Conesa (2014) Assessment of the employment of halophyte plant species for the phytomanagement of mine tailings in semiarid areasSuaire, R., I. Durickovic, L. Framont-Terrasse, J. Y. Leblain, A. C. De Rouck and M. O. Simonnot (2016) Phytoextraction of Na+ and Cl- by Atriplex halimus L. and Atriplex hortensis L.: A promising solution for remediation of road runoff contaminated with deicing saltsVan Oosten, M. J. and A. Maggio (2015) Functional biology of halophytes in the phytoremediation of heavy metal contaminated soilsWalker, D. J., S. Lutts, M. Sanchez-Garcia and E. Correal (2014) Atriplex halimus L.: Its biology and uses
antioxidants
  • AntioxidantsBendaly, A., D. Messedi, A. Smaoui, R. Ksouri, A. Bouchereau and C. Abdelly (2016) Physiological and leaf metabolome changes in the xerohalophyte species Atriplex halimus induced by salinityLutts, S. and I. Lefevre (2015) How can we take advantage of halophyte properties to cope with heavy metal toxicity in salt-affected areas?
  • Antioxidant enzymesBouchenak, F., P. Henri, F. Z. Benrebiha and P. Rey (2012) Differential responses to salinity of two Atriplex halimus populations in relation to organic solutes and antioxidant systems involving thiol reductases
Secondary Metabolites
  • MetabolitesAlla, M. M. N., A. H. A. Khedr, M. M. Serag, A. Z. Abu-Alnaga and R. M. Nada (2012) Regulation of metabolomics in Atriplex halimus growth under salt and drought stressBendaly, A., D. Messedi, A. Smaoui, R. Ksouri, A. Bouchereau and C. Abdelly (2016) Physiological and leaf metabolome changes in the xerohalophyte species Atriplex halimus induced by salinity
  • OxalateMozafar, A., J. R. Goodin and J. J. Oertli (1970) Sodium and potassium Interactions in increasing the salt tolerance of Atriplex halimus L. : II. Na+ and K+ uptake characteristics
Compatible Solutes
  • ProlineBajji, M., J. M. Kinet and S. Lutts (1998) Salt stress effects on roots and leaves of Atriplex halimus L. and their corresponding callus culturesBelkheiri, O. and M. Mulas (2013) The effects of salt stress on growth, water relations and ion accumulation in two halophyte Atriplex speciesBendaly, A., D. Messedi, A. Smaoui, R. Ksouri, A. Bouchereau and C. Abdelly (2016) Physiological and leaf metabolome changes in the xerohalophyte species Atriplex halimus induced by salinityBouchenak, F., P. Henri, F. Z. Benrebiha and P. Rey (2012) Differential responses to salinity of two Atriplex halimus populations in relation to organic solutes and antioxidant systems involving thiol reductasesLutts, S. and I. Lefevre (2015) How can we take advantage of halophyte properties to cope with heavy metal toxicity in salt-affected areas?
  • GlycinebetaineBouchenak, F., P. Henri, F. Z. Benrebiha and P. Rey (2012) Differential responses to salinity of two Atriplex halimus populations in relation to organic solutes and antioxidant systems involving thiol reductasesNada, R. M. and G. M. Abogadallah (2015) Developmental acquisition of salt tolerance in the halophyte Atriplex halimus L. is related to differential regulation of salt inducible genesNada, R. M. and G. M. Abogadallah (2015) Developmental acquisition of salt tolerance in the halophyte Atriplex halimus L. is related to differential regulation of salt inducible genes
  • Soluble sugarsAlla, M. M. N., A. H. A. Khedr, M. M. Serag, A. Z. Abu-Alnaga and R. M. Nada (2012) Regulation of metabolomics in Atriplex halimus growth under salt and drought stressBendaly, A., D. Messedi, A. Smaoui, R. Ksouri, A. Bouchereau and C. Abdelly (2016) Physiological and leaf metabolome changes in the xerohalophyte species Atriplex halimus induced by salinity
  • Soluble sugarsBouchenak, F., P. Henri, F. Z. Benrebiha and P. Rey (2012) Differential responses to salinity of two Atriplex halimus populations in relation to organic solutes and antioxidant systems involving thiol reductasesLutts, S. and I. Lefevre (2015) How can we take advantage of halophyte properties to cope with heavy metal toxicity in salt-affected areas?
Habitat
  • C1.5 Permanent inland saline and brackish lakes, ponds and poolsFernandez-Illescas, F., F. J. J. Nieva, B. Marquez-Garcia and A. F. Munoz-Rodriguez (2010) Pollen production in halophytic species of the Chenopodiaceae in a Mediterranean marshQasem, Jamal R. (2015) PROSPECTS OF WILD MEDICINAL AND INDUSTRIAL PLANTS OF SALINE HABITATS IN THE JORDAN VALLEY
Economic use
  • 2110.0 Fuelwood
  • 3300.0 FodderWalker, D. J., S. Lutts, M. Sanchez-Garcia and E. Correal (2014) Atriplex halimus L.: Its biology and uses
Distribution
Distribution (text)
  • Saharo-Arabian region
  • Australia [introduced]
  • 75 km parallel to the Jordan River and the Dead Sea, and varies in width from 10 km at Wadi Hisban and Wadi Zarqa to about 2-3 km in Zara,JordanQasem, Jamal R. (2015) PROSPECTS OF WILD MEDICINAL AND INDUSTRIAL PLANTS OF SALINE HABITATS IN THE JORDAN VALLEY
  • Marismas del Odiel Natural Park (Huelva, south-west Spain)Fernandez-Illescas, F., F. J. J. Nieva, B. Marquez-Garcia and A. F. Munoz-Rodriguez (2010) Pollen production in halophytic species of the Chenopodiaceae in a Mediterranean marsh
  • sabkhet Elkalbia (saline region in the center of Tunisia, semi-arid climate, 35 49 N, 10 9 WBendaly, A., D. Messedi, A. Smaoui, R. Ksouri, A. Bouchereau and C. Abdelly (2016) Physiological and leaf metabolome changes in the xerohalophyte species Atriplex halimus induced by salinity
  • Baltim area, Egypt.Alla, M. M. N., A. H. A. Khedr, M. M. Serag, A. Z. Abu-Alnaga and R. M. Nada (2012) Regulation of metabolomics in Atriplex halimus growth under salt and drought stressNada, R. M. and G. M. Abogadallah (2015) Developmental acquisition of salt tolerance in the halophyte Atriplex halimus L. is related to differential regulation of salt inducible genes
  • Azrak, 80 km southeast Amman, JordanWeiglin, C. and E. Winter (1991) LEAF STRUCTURES OF XEROHALOPHYTES FROM AN EAST JORDANIAN SALT PAN
Miscellaneous notes Salt bladders rather than glands. There are many (at least 120 in Nov 2016) publications on this species.
References

Last Records approved
Myriolimon ferulaceum (L.) Lledó, Erben & M.B.Crespo
Submitted by T J Flowers
Dec 5th 2019, 11:43 am
Approved by T J Flowers
Dec 5th 2019, 11:43 am
Psylliostachys spicatus (Willd.) Nevski
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Dec 5th 2019, 11:18 am
Approved by T J Flowers
Dec 5th 2019, 11:18 am
Psylliostachys spicatus (Willd.) Nevski
Submitted by T J Flowers
Dec 5th 2019, 11:16 am
Approved by T J Flowers
Dec 5th 2019, 11:16 am
Bassia scoparia (L.) A.J.Scott
Submitted by T J Flowers
Dec 2nd 2019, 6:26 am
Approved by T J Flowers
Dec 2nd 2019, 10:05 am
Bassia prostrata (L.) Beck
Submitted by T J Flowers
Dec 2nd 2019, 6:11 am
Approved by T J Flowers
Dec 2nd 2019, 6:11 am
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Contact email: halophytes@sussex.ac.uk
Credits – Tim Flowers, Joaquim Santos, Moritz Jahns, Brian Warburton, Peter Reed