Loading content, please wait..
loading..
Logo
Version 3.18
or
This record is not the most recent record for this plant
The current approved record can be found here

Report for Suaeda maritima (L.) Dumort.

updated: Oct 13th 2016, 8:34 pm see all updates
Changed fields since previous approved record are highlighted


Family Amaranthaceae
Genus Suaeda
Species maritima
Author (L.) Dumort.
Infraspecific subsp.
Infraspecfic Author
Pictures
Plant type
  • hydrohalophyte
Life form
  • Succulent
  • Annual
Ecotypes Yes
Max. salinity
48.6 dS/mYeo, A. R. and T. J. Flowers (1980) Salt tolerance in the halophyte Suaeda maritima (L.) Dum.: evaluation of the effect of salinity upon growth.
Germination YesUngar, I. A. and J. Boucaud (1975) INFLUENCE OF HIGH-CONCENTRATIONS OF NACL ON PRODUCTION OF CYTOKININS DURING GERMINATION OF A HALOPHYTE - SUAEDA-MARITIMA (L) DUM VAR, MACROCARPA MOQUngar, I. A. and J. Boucaud (1975) INFLUENCE OF HIGH-CONCENTRATIONS OF NACL ON PRODUCTION OF CYTOKININS DURING GERMINATION OF A HALOPHYTE - SUAEDA-MARITIMA (L) DUM VAR, MACROCARPA MOQWetson, A. M., C. Cassaniti and T. J. Flowers (2008) Do conditions during dormancy influence germination of Suaeda maritima?
Salt glands and bladders NoAndres, I. M. (1989) LEAF ANATOMY OF PLANTS FROM COSTAL MEDITERRANEAN SALT MARSHES DICOTYLEDONS
Photosynthesis Pathway C3
Molecular data
  • ITS and psbB-psbH spacer region sequencesLee, JS; Park, DS; Ihm, BS; Lee, WJ (2007) Taxonomic reappraisal on Suaeda australis (Chenopodiaceae) in Korea based on the morphological and molecular characteristics
  • The amount of nuclear DNA, expressed as the C -value, was estimatedKoce, J. D., S. Skondric, T. Bacic and M. Dermastia (2008) Amounts of nuclear DNA in marine halophytes
  • Isolation of Mn - SOD and Fe - SOD genes and genes expression.Mohamed, E., R. Matsuda, A. A. El-khatib, K. Takechi, H. Takano and S. Takio (2015) Characterization of the superoxide dismutase genes of the halophyte Suaeda maritima in Japan and Egypt
Microbial interactions and mycorrhizal status YesChaudhary, D. R., R. K. Gautam, B. Yousuf, A. Mishra and B. Jha (2015) Nutrients, microbial community structure and functional gene abundance of rhizosphere and bulk soils of halophytesSonjak, S., M. Udovic, T. Wraber, M. Likar and M. Regvar (2009) Diversity of halophytes and identification of arbuscular mycorrhizal fungi colonising their roots in an abandoned and sustained part of Secovlje salterns
Bioremediation YesVan Oosten, M. J. and A. Maggio (2015) Functional biology of halophytes in the phytoremediation of heavy metal contaminated soils
antioxidants
  • GutathioneAlhdad, G. M., C. E. Seal, M. J. Al-Azzawi and T. J. Flowers (2013) The effect of combined salinity and waterlogging on the halophyte Suaeda maritima: The role of antioxidantsThatoi, H. N., J. K. Patra and S. K. Das (2014) Free radical scavenging and antioxidant potential of mangrove plants: a review
  • Antioxidant activity of the extractsStankovic, M. S., M. Petrovic, D. Godjevac and Z. D. Stevanovic (2015) Screening inland halophytes from the central Balkan for their antioxidant activity in relation to total phenolic compounds and flavonoids: Are there any prospective medicinal plants?
Secondary Metabolites
  • Total phenolsStankovic, M. S., M. Petrovic, D. Godjevac and Z. D. Stevanovic (2015) Screening inland halophytes from the central Balkan for their antioxidant activity in relation to total phenolic compounds and flavonoids: Are there any prospective medicinal plants?
  • Total phenols and free radical scavenging activityAgoramoorthy, G., F. A. Chen, V. Venkatesalu, D. H. Kuo and P. C. Shea (2008) Evaluation of antioxidant polyphenols from selected mangrove plants of India
Compatible Solutes
  • GlycinebetaineFlowers, T. J. and J. L. Hall (1978) SALT TOLERANCE IN HALOPHYTE, SUAEDA-MARITIMA (L) DUM - INFLUENCE OF SALINITY OF CULTURE SOLUTION ON CONTENT OF VARIOUS ORGANIC-COMPOUNDS
Habitat
  • D6.1 Inland saltmarshesPrinz, K., K. Weising and I. Hensen (2013) HABITAT FRAGMENTATION AND RECENT BOTTLENECKS INFLUENCE GENETIC DIVERSITY AND DIFFERENTIATION OF THE CENTRAL EUROPEAN HALOPHYTE SUAEDA MARITIMA (CHENOPODIACEAE)
  • A2.51 Saltmarsh driftlines
  • A2.54 Low-mid saltmarshes
  • E6.2 Continental inland salt steppesStankovic, M. S., M. Petrovic, D. Godjevac and Z. D. Stevanovic (2015) Screening inland halophytes from the central Balkan for their antioxidant activity in relation to total phenolic compounds and flavonoids: Are there any prospective medicinal plants?
  • A2.5 Coastal saltmarshes and saline reedbedsAlhdad, G. M., C. E. Seal, M. J. Al-Azzawi and T. J. Flowers (2013) The effect of combined salinity and waterlogging on the halophyte Suaeda maritima: The role of antioxidantsBoestfleisch, C., N. B. Wagenseil, A. K. Buhmann, C. E. Seal, E. M. Wade, A. Muscolo and J. Papenbrock (2014) Manipulating the antioxidant capacity of halophytes to increase their cultural and economic value through saline cultivationColmer, T. D., O. Pedersen, A. M. Wetson and T. J. Flowers (2013) Oxygen dynamics in a salt-marsh soil and in Suaeda maritima during tidal submergenceMohamed, E., R. Matsuda, A. A. El-khatib, K. Takechi, H. Takano and S. Takio (2015) Characterization of the superoxide dismutase genes of the halophyte Suaeda maritima in Japan and EgyptMudie, P. J., S. Greer, J. Brakel, J. H. Dickson, C. Schinkel, R. Peterson-Welsh, M. Stevens, N. J. Turner, M. Shadow and R. Washington (2005) Forensic palynology and ethnobotany of Salicornia species (Chenopodiaceae) in northwest Canada and AlaskaPrinz, K., K. Weising and I. Hensen (2013) HABITAT FRAGMENTATION AND RECENT BOTTLENECKS INFLUENCE GENETIC DIVERSITY AND DIFFERENTIATION OF THE CENTRAL EUROPEAN HALOPHYTE SUAEDA MARITIMA (CHENOPODIACEAE)
  • C1.5 Permanent inland saline and brackish lakes, ponds and poolsCurado, G., E. Figueroa, M. I. Sanchez and J. M. Castillo (2013) Avian communities in Spartina maritima restored and non-restored salt marshes
Economic use
  • 3300.0 Fodder
  • 0410.0 Salt and salt substitutes
  • 0310.0 Oilseed
Distribution
Distribution (text)
  • Old World tropics
  • Irano-Turanian region
  • Saharo-Arabian region
  • Sudanian region
  • Saline habitats of central Balkan, SerbiaStankovic, M. S., M. Petrovic, D. Godjevac and Z. D. Stevanovic (2015) Screening inland halophytes from the central Balkan for their antioxidant activity in relation to total phenolic compounds and flavonoids: Are there any prospective medicinal plants?
  • Cuckmere Haven, Seaford, East Sussex,UKBoestfleisch, C., N. B. Wagenseil, A. K. Buhmann, C. E. Seal, E. M. Wade, A. Muscolo and J. Papenbrock (2014) Manipulating the antioxidant capacity of halophytes to increase their cultural and economic value through saline cultivation
  • Central Europe, Baltic Sea and English ChannelPrinz, K., K. Weising and I. Hensen (2013) HABITAT FRAGMENTATION AND RECENT BOTTLENECKS INFLUENCE GENETIC DIVERSITY AND DIFFERENTIATION OF THE CENTRAL EUROPEAN HALOPHYTE SUAEDA MARITIMA (CHENOPODIACEAE)
  • River Adur Estuary, Shoreham-by-Sea, West Sussex (latitude W 0.2858 ◦ , longitude N 50.8396 ◦ )Alhdad, G. M., C. E. Seal, M. J. Al-Azzawi and T. J. Flowers (2013) The effect of combined salinity and waterlogging on the halophyte Suaeda maritima: The role of antioxidantsColmer, T. D., O. Pedersen, A. M. Wetson and T. J. Flowers (2013) Oxygen dynamics in a salt-marsh soil and in Suaeda maritima during tidal submergence
  • Odiel Marshes in the joint estuary of the Odiel and Tinto rivers (37°15ʹ–37°37ʹN, 6°57ʹ–6°58ʹW; southwest Spain)Curado, G., E. Figueroa, M. I. Sanchez and J. M. Castillo (2013) Avian communities in Spartina maritima restored and non-restored salt marshes
  • Juneau, Hoonah, Pleasant Islnd near Glacier Bay, AlaskaMudie, P. J., S. Greer, J. Brakel, J. H. Dickson, C. Schinkel, R. Peterson-Welsh, M. Stevens, N. J. Turner, M. Shadow and R. Washington (2005) Forensic palynology and ethnobotany of Salicornia species (Chenopodiaceae) in northwest Canada and Alaska
  • UK Map from BSBI http://bsbidb.org.uk/maps/?taxonid=2cd4p9h.w3b
  • Damietta coast of the Mediter- ranean Sea in Egypt (31.27 N 31.42 E) and Ariake Sea coast, Kamiamakusa, Kumamoto, Japan (32.17 N 130.28 E)Mohamed, E., R. Matsuda, A. A. El-khatib, K. Takechi, H. Takano and S. Takio (2015) Characterization of the superoxide dismutase genes of the halophyte Suaeda maritima in Japan and Egypt
Miscellaneous notes *Salinity range on inland salt marshes in Central Europe: ECe 14,6-48,6 dS/m; opt. 31,4 dS/m
References

Last Records approved
Submitted by T J Flowers
Mar 13th 2019, 6:17 am

Approved by T J Flowers
Mar 13th 2019, 6:17 am
Submitted by T J Flowers
Mar 13th 2019, 5:52 am

Approved by T J Flowers
Mar 13th 2019, 5:52 am
Submitted by T J Flowers
Mar 13th 2019, 5:48 am

Approved by T J Flowers
Mar 13th 2019, 5:48 am
Submitted by T J Flowers
Mar 13th 2019, 5:42 am

Approved by T J Flowers
Mar 13th 2019, 5:42 am
Submitted by T J Flowers
Mar 12th 2019, 2:48 pm

Approved by T J Flowers
Mar 12th 2019, 2:48 pm
LEGAL NOTICES — This website is protected by Copyright © The University of Sussex, 2012, 2013, 2014, 2015, 2016, 2017, 2018, 2019. The eHALOPH database is protected by Database Right and Copyright © The University of Sussex and other contributors, 2006, 2012, 2013, 2014, 2015, 2016, 2017, 2018, 2019. This database is based on an earlier work by James Aronson.
THIS WEBSITE AND THIS DATABASE ARE PROVIDED ON AN "AS IS" BASIS, AND YOU USE THEM AND RELY ON THEM AT YOUR OWN RISK.

Contact email: halophytes@sussex.ac.uk
Credits – Tim Flowers, Joaquim Santos, Moritz Jahns, Brian Warburton, Peter Reed