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Report for Tripolium pannonicum (Jacq.) Dobrocz.

updated: May 14th 2021, 9:58 am see all updates
Changed fields since previous approved record are highlighted


Family Asteraceae
Genus Tripolium
Species pannonicum
Author (Jacq.) Dobrocz.
Infraspecific subsp.
Infraspecfic Author
Pictures
Plant type
  • hydrohalophyte
Life form
  • Herbaceous perennial
Ecotypes unknown
Max. salinity
450 mMPiernik A. (2012) Ecological pattern of inland salt marsh vegetation in Central EuropeRozema, J. and J. Van Diggelen (1991) A comparative study of growth and photosynthesis of four halophytes in response to salinity
Germination YesTurcios, A. E., M. Hielscher, B. Duarte, V. F. Fonseca, I. Cacador and J. Papenbrock (2021) Screening of Emerging Pollutants (EPs) in Estuarine Water and Phytoremediation Capacity of Tripolium pannonicum under Controlled ConditionsVoronkova, N. M., E. V. Burkovskaya, T. A. Bezdeleva and O. L. Burundukova (2008) Morphological and biological features of plants related to their adaptation to coastal habitats
Salt glands and bladders NoMarius-Nicuşor G, Ivănescu L, Toma C (2014) Halophytes. An integrative anatomical study
Photosynthesis Pathway C3Marius-Nicuşor G, Ivănescu L, Toma C (2014) Halophytes. An integrative anatomical study
Molecular data
  • DNA Koce, J. D., S. Skondric, T. Bacic and M. Dermastia (2008) Amounts of nuclear DNA in marine halophytes
Microbial interactions and mycorrhizal status YesFuzy, A., B. Biro and T. Toth (2010) Short communication. Effect of saline soil parameters on endomycorrhizal colonisation of dominant halophytes in four Hungarian sitesRuppel, S., P. Franken and K. Witzel (2013) Properties of the halophyte microbiome and their implications for plant salt tolerance
Bioremediation YesQuinta, R., P. W. Hill, D. L. Jones, R. Santos, D. N. Thomas and L. Le Vay (2015) Uptake of an amino acid (alanine) and its peptide (trialanine) by the saltmarsh halophytes Salicornia europaea and Aster tripolium and its potential role in ecosystem N cycling and marine aquaculture wastewater treatmentTurcios, A. E., M. Hielscher, B. Duarte, V. F. Fonseca, I. Cacador and J. Papenbrock (2021) Screening of Emerging Pollutants (EPs) in Estuarine Water and Phytoremediation Capacity of Tripolium pannonicum under Controlled Conditions
antioxidants
  • 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?
  • FlavonoidsStankovic, 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
Compatible Solutes
  • PinitolGil, R., M. Boscaiu, C. Lull, I. Bautista, A. Lidon and O. Vicente (2013) Are soluble carbohydrates ecologically relevant for salt tolerance in halophytes?
  • InositolGil, R., M. Boscaiu, C. Lull, I. Bautista, A. Lidon and O. Vicente (2013) Are soluble carbohydrates ecologically relevant for salt tolerance in halophytes?
Habitat
  • D6.1 Inland saltmarshesCott, G. M., D. V. Chapman and M. A. K. Jansen (2014) Differences in nitrogen-assimilating enzyme activity in halophyte species are habitat-relatedPiernik, A. (2005) Vegetation-environment relations on inland saline habitats in Central PolandPiernik, A., P. Hulisz and A. Rokicka (2015) Micropattern of halophytic vegetation on technogenic soils affected by the soda industryTurcios, A. E., M. Hielscher, B. Duarte, V. F. Fonseca, I. Cacador and J. Papenbrock (2021) Screening of Emerging Pollutants (EPs) in Estuarine Water and Phytoremediation Capacity of Tripolium pannonicum under Controlled Conditions
  • E6.2 Continental inland salt steppesDite, Z; Suvada, R; Toth, T; Jun, PE; Pis, V; Dite, D (2021) Current Condition of Pannonic Salt Steppes at Their Distribution Limit: What Do Indicator Species Reveal about Habitat Quality?Meleckova et al (2013) Effect of experimental top soil removal on vegetation of Pannonian 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?
  • C1.5 Permanent inland saline and brackish lakes, ponds and poolsBorsodi, AK ; Barany, A ; Krett, G ; Marialigeti, K  ; Szili-Kovacs, T () DIVERSITY AND ECOLOGICAL TOLERANCE OF BACTERIA ISOLATED FROM THE RHIZOSPHERE OF HALOPHYTON PLANTS LIVING NEARBY KISKUNSAG SODA PONDS, HUNGARYQasem, Jamal R. (2015) PROSPECTS OF WILD MEDICINAL AND INDUSTRIAL PLANTS OF SALINE HABITATS IN THE JORDAN VALLEY
  • A2.5 Coastal saltmarshes and saline reedbedsBoestfleisch, 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 cultivationDavidson, KE; Fowler, MS; Skov, MW; Forman, D; Alison, J; Botham, M; Beaumont, N; Griffin, JN (2020) Grazing reduces bee abundance and diversity in saltmarshes by suppressing flowering of key plant species
Economic use
  • 0111.3 Leaves
  • 7160.0 AntibioticsTurcios, A. E., M. Hielscher, B. Duarte, V. F. Fonseca, I. Cacador and J. Papenbrock (2021) Screening of Emerging Pollutants (EPs) in Estuarine Water and Phytoremediation Capacity of Tripolium pannonicum under Controlled Conditions
  • 3100.0 GrazingDavidson, KE; Fowler, MS; Skov, MW; Forman, D; Alison, J; Botham, M; Beaumont, N; Griffin, JN (2020) Grazing reduces bee abundance and diversity in saltmarshes by suppressing flowering of key plant species
Previously was:
  • 0111.3 Leaves
  • Distribution
    Distribution (text)
    • North Sea, GermanyTurcios, A. E., M. Hielscher, B. Duarte, V. F. Fonseca, I. Cacador and J. Papenbrock (2021) Screening of Emerging Pollutants (EPs) in Estuarine Water and Phytoremediation Capacity of Tripolium pannonicum under Controlled Conditions
    • Asia
    • 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?
    • 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
    • Inowrocław-Mątwy, north-central Poland (52°45ʹ35ʹ’N, 18°13ʹ43ʹ’E)Piernik, A., P. Hulisz and A. Rokicka (2015) Micropattern of halophytic vegetation on technogenic soils affected by the soda industry
    • Kiskunsag soda ponds,HungaryBorsodi, AK ; Barany, A ; Krett, G ; Marialigeti, K  ; Szili-Kovacs, T () DIVERSITY AND ECOLOGICAL TOLERANCE OF BACTERIA ISOLATED FROM THE RHIZOSPHERE OF HALOPHYTON PLANTS LIVING NEARBY KISKUNSAG SODA PONDS, HUNGARY
    • South-western coast, IrelandCott, G. M., D. V. Chapman and M. A. K. Jansen (2014) Differences in nitrogen-assimilating enzyme activity in halophyte species are habitat-related
    • North Sea coast (53829′13′′N; 8803′16′′E)Boestfleisch, 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
    • Kamenínske Slanisko Nature Reserve in SW SlovakiaMeleckova et al (2013) Effect of experimental top soil removal on vegetation of Pannonian salt steppes
    • Pannonian Basin, Slovakia and HungaryDite, Z; Suvada, R; Toth, T; Jun, PE; Pis, V; Dite, D (2021) Current Condition of Pannonic Salt Steppes at Their Distribution Limit: What Do Indicator Species Reveal about Habitat Quality?
    • South Wales, UKDavidson, KE; Fowler, MS; Skov, MW; Forman, D; Alison, J; Botham, M; Beaumont, N; Griffin, JN (2020) Grazing reduces bee abundance and diversity in saltmarshes by suppressing flowering of key plant species
    Previously was:
  • Europe Turcios, A. E., M. Hielscher, B. Duarte, V. F. Fonseca, I. Cacador and J. Papenbrock (2021) Screening of Emerging Pollutants (EPs) in Estuarine Water and Phytoremediation Capacity of Tripolium pannonicum under Controlled Conditions
  • Asia
  • 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?
  • 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
  • Inowrocław-Mątwy, north-central Poland (52°45ʹ35ʹ’N, 18°13ʹ43ʹ’E)Piernik, A., P. Hulisz and A. Rokicka (2015) Micropattern of halophytic vegetation on technogenic soils affected by the soda industry
  • Kiskunsag soda ponds,HungaryBorsodi, AK ; Barany, A ; Krett, G ; Marialigeti, K  ; Szili-Kovacs, T () DIVERSITY AND ECOLOGICAL TOLERANCE OF BACTERIA ISOLATED FROM THE RHIZOSPHERE OF HALOPHYTON PLANTS LIVING NEARBY KISKUNSAG SODA PONDS, HUNGARY
  • South-western coast, IrelandCott, G. M., D. V. Chapman and M. A. K. Jansen (2014) Differences in nitrogen-assimilating enzyme activity in halophyte species are habitat-related
  • North Sea coast (53829′13′′N; 8803′16′′E)Boestfleisch, 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
  • Kamenínske Slanisko Nature Reserve in SW SlovakiaMeleckova et al (2013) Effect of experimental top soil removal on vegetation of Pannonian salt steppes
  • Miscellaneous notes Tripolium pannonicum is the accepted name for Aster tripolium L. Salinity range on inland salt marshes in Central Europe: ECe 1.87-118 dS/m; opt. 29.3 dS/m Piernik A. (2012) Ecological pattern of inland salt marsh vegetation in Central Europe
    References

    Last Records approved
    Submitted by T J Flowers
    Sep 17th 2021, 6:18 am

    Approved by T J Flowers
    Sep 17th 2021, 6:18 am
    Submitted by T J Flowers
    Sep 16th 2021, 12:04 pm

    Approved by T J Flowers
    Sep 16th 2021, 12:04 pm
    Submitted by T J Flowers
    Sep 16th 2021, 11:55 am

    Approved by T J Flowers
    Sep 16th 2021, 11:55 am
    Submitted by T J Flowers
    Sep 16th 2021, 11:54 am

    Approved by T J Flowers
    Sep 16th 2021, 11:54 am
    Submitted by T J Flowers
    Sep 16th 2021, 11:53 am

    Approved by T J Flowers
    Sep 16th 2021, 11:54 am
    LEGAL NOTICES — This website is protected by Copyright © The University of Sussex, 2012, 2013, 2014, 2015, 2016, 2017, 2018, 2019, 2020, 2021. 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. This database is based on an earlier work by James Aronson.
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    Contact email: halophytes@sussex.ac.uk
    Credits – Tim Flowers, Joaquim Santos, Moritz Jahns, Brian Warburton, Peter Reed