Loading content, please wait..
loading..
Logo
Version 3.24
or

Report for Atriplex patula L.

updated: Sep 9th 2022, 11:04 am see all updates
Changed fields since previous approved record are highlighted


Family Amaranthaceae
Genus Atriplex
Species patula
Author L.
Infraspecific
Infraspecfic Author
Pictures
Plant type
  • weedy
Life form
  • Annual
Ecotypes Yes
Max. salinity
720 mMCuartero, J., J. M. Pulido, M. L. Gomez-Guillamon and M. Alvarez (2002) Salt removal potential of barley, alfalfa, Atriplex patula and A-prostrataGlenn, E. P. and J. W. Oleary (1984) Relationship between salt accumulation and water content of dicotyledonous halophytes.OLeary, J. W., W. E. P. Glenn and M. C. Watson (1985) Agricultural production of halophytes irrigated with seawater
Germination YesKatembe, W. J., I. A. Ungar and J. P. Mitchell (1998) Effect of salinity on germination and seedling growth of two Atriplex species (Chenopodiaceae) [Full text delivery]Mann, Ellen; Rutter, Allison; Zeeb, Barbara (2020) Evaluating the efficacy of Atriplex spp. in the phytoextraction of road salt (NaCl) from contaminated soilUngar, I. A. (1996) Effect of salinity on seed germination, growth, and ion accumulation of Atriplex patula (Chenopodiaceae)
Salt glands and bladders unknown
Photosynthesis Pathway C3BYRD, GT; SAGE, RF; BROWN, RH (1992) A COMPARISON OF DARK RESPIRATION BETWEEN C3 AND C4 PLANTS
Molecular data
Microbial interactions and mycorrhizal status YesMuhsin, T. M. and T. Booth (1987) FUNGI ASSOCIATED WITH HALOPHYTES OF AN INLAND SALT-MARSH, MANITOBA, CANADA
Bioremediation YesCuartero, J., J. M. Pulido, M. L. Gomez-Guillamon and M. Alvarez (2002) Salt removal potential of barley, alfalfa, Atriplex patula and A-prostrataCuartero, J., J. M. Pulido, M. L. Gomez-Guillamon and M. Alvarez (2002) Salt removal potential of barley, alfalfa, Atriplex patula and A-prostrataMann, E., A. Rutter and B. Zeeb (2020) Evaluating the efficacy of Atriplex spp. in the phytoextraction of road salt (NaCl) from contaminated soilMorteau, B., G. Triffault-Bouchet, R. Galvez and L. Martel (2015) Nutrient and Removal Kinetics Impacts on Salt Phytoremediation by Atriplex patula and Typha angustifoliaVickerman, D. B., M. C. Shannon, G. S. Banuelos, C. M. Grieve and J. T. Trumble (2002) Evaluation of Atriplex lines for selenium accumulation, salt tolerance and suitability for a key agricultural insect pest
antioxidants
Secondary Metabolites
Compatible Solutes
Habitat
  • D6.1 Inland saltmarshesCuartero, J., J. M. Pulido, M. L. Gomez-Guillamon and M. Alvarez (2002) Salt removal potential of barley, alfalfa, Atriplex patula and A-prostrataEallonardo, A. S. and D. J. Leopold (2014) Inland Salt Marshes of the Northeastern United States: Stress, Disturbance and Compositional StabilityKeammerer, HB; Hacker, SD (2013) Negative and neutral marsh plant interactions dominate in early life stages and across physical gradients in an Oregon estuaryMuhsin, T. M. and T. Booth (1987) FUNGI ASSOCIATED WITH HALOPHYTES OF AN INLAND SALT-MARSH, MANITOBA, CANADA
  • E6.2 Continental inland salt steppesMeleckova et al (2013) Effect of experimental top soil removal on vegetation of Pannonian salt steppes
Economic use
  • 3300.0 FodderKara, Kanber; Aktug, Eray; Ozkaya, Serkan (2016) Ruminal digestibility, microbial count, volatile fatty acids and gas kinetics of alternative forage sources for arid and semi-arid areas as in vitroOLeary, J. W., W. E. P. Glenn and M. C. Watson (1985) Agricultural production of halophytes irrigated with seawater
  • 4600.0 Soil improvementCuartero, J., J. M. Pulido, M. L. Gomez-Guillamon and M. Alvarez (2002) Salt removal potential of barley, alfalfa, Atriplex patula and A-prostrataVickerman, DB; Shannon, MC; Banuelos, GS; Grieve, CM; Trumble, JT (2002) Evaluation of Atriplex lines for selenium accumulation, salt tolerance and suitability for a key agricultural insect pest
  • 0110.0 VegetablesOpris, Ocsana; Lung, Ildiko; Soran, Maria-Loredana; Ciorita, Alexandra; Copolovici, Lucian (2020) Investigating the effects of non-steroidal anti-inflammatory drugs (NSAIDs) on the composition and ultrastructure of green leafy vegetables with important nutritional values
Distribution
Distribution map provided by GBIF | Global Biodiversity Information Facility
Distribution (text)
  • Northeastern United StatesEallonardo, A. S. and D. J. Leopold (2014) Inland Salt Marshes of the Northeastern United States: Stress, Disturbance and Compositional Stability
  • Kamenínske Slanisko Nature Reserve in SW SlovakiaMeleckova et al (2013) Effect of experimental top soil removal on vegetation of Pannonian salt steppes
  • Manitoba, CanadaMuhsin, T. M. and T. Booth (1987) FUNGI ASSOCIATED WITH HALOPHYTES OF AN INLAND SALT-MARSH, MANITOBA, CANADA
  • Coos Bay estuary on the southern Oregon Coast, USAKeammerer, HB; Hacker, SD (2013) Negative and neutral marsh plant interactions dominate in early life stages and across physical gradients in an Oregon estuary
  • Ontario, Canada, (44.30 N, 76.33 W). Mann, Ellen; Rutter, Allison; Zeeb, Barbara (2020) Evaluating the efficacy of Atriplex spp. in the phytoextraction of road salt (NaCl) from contaminated soil
Previously was:
  • Northeastern United StatesEallonardo, A. S. and D. J. Leopold (2014) Inland Salt Marshes of the Northeastern United States: Stress, Disturbance and Compositional Stability
  • Kamenínske Slanisko Nature Reserve in SW SlovakiaMeleckova et al (2013) Effect of experimental top soil removal on vegetation of Pannonian salt steppes
  • Manitoba, CanadaMuhsin, T. M. and T. Booth (1987) FUNGI ASSOCIATED WITH HALOPHYTES OF AN INLAND SALT-MARSH, MANITOBA, CANADA
  • Coos Bay estuary on the southern Oregon Coast, USAKeammerer, HB; Hacker, SD (2013) Negative and neutral marsh plant interactions dominate in early life stages and across physical gradients in an Oregon estuary
  • Miscellaneous notes Around 50 papers associated with this species by December 2016
    References

    Last Records approved
    Submitted by T J Flowers
    Sep 10th 2022, 6:13 pm

    Approved by T J Flowers
    Sep 10th 2022, 6:13 pm
    Submitted by T J Flowers
    Sep 10th 2022, 5:53 pm

    Approved by T J Flowers
    Sep 10th 2022, 5:54 pm
    Submitted by Mohammed Al-azzawi
    Sep 9th 2022, 11:04 am

    Approved by T J Flowers
    Sep 9th 2022, 8:07 pm
    Submitted by Mohammed Al-azzawi
    Sep 9th 2022, 10:47 am

    Approved by T J Flowers
    Sep 9th 2022, 8:06 pm
    Submitted by T J Flowers
    Sep 8th 2022, 6:36 am

    Approved by T J Flowers
    Sep 8th 2022, 6:36 am
    LEGAL NOTICES — This website is protected by Copyright © The University of Sussex, 2012, 2013, 2014, 2015, 2016, 2017, 2018, 2019, 2020, 2021, 2022. 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, 2020, 2021, 2022. 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