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Report for Sporobolus anglicus (C.E.Hubb.) P.M.Peterson & Saarela

updated: Jul 22nd 2022, 4:23 pm see all updates
Changed fields since previous approved record are highlighted


Family Poaceae
Genus Sporobolus
Species anglicus
Author (C.E.Hubb.) P.M.Peterson & Saarela
Infraspecific
Infraspecfic Author
Pictures
Plant type
  • hydrohalophyte
Life form
  • Herbaceous perennial
Ecotypes Yes
Max. salinity
64 dS/mDe Battisti, Davide; Berg, Matty P.; Walter, Bettina; Fowler, Mike S.; Griffin, John N. (2021) Stress-resistance traits disrupt the plant economics-decomposition relationship across environmental gradients in salt marshesMulholland, M. M. and M. L. Otte (2002) The effects of nitrogen supply and salinity on DMSP, glycine betaine and proline concentrations in leaves of Spartina anglicaRozema, J. and J. Van Diggelen (1991) A comparative study of growth and photosynthesis of four halophytes in response to salinity
Germination YesMarks, T. C. and A. J. Truscott (1985) Variation in seed production and germination of Spartina anglica within a zoned saltmarsh
Salt glands and bladders YesRozema, J., H. Gude and G. Pollack (1981) An ecophysical study of the salt secretion of four halophytesZhou, H. B., H. X. Jiang and R. L. Dou (1982) Morphology of the salt gland of Spartina anglica
Photosynthesis Pathway C4Lenssen, G. M., J. Lamers, M. Stroetenga and J. Rozema (1993) INTERACTIVE EFFECTS OF ATMOSPHERIC CO2 ENRICHMENT, SALINITY AND FLOODING ON GROWTH OF C-3 (ELYMUS-ATHERICUS) AND C-4 (SPARTINA-ANGLICA) SALT-MARSH SPECIESMaricle, B. R. and R. W. Lee (2006) Effects of environmental salinity on carbon isotope discrimination and stomatal conductance in Spartina grassesMaricle, B. R., D. R. Cobos and C. S. Campbell (2007) Biophysical and morphological leaf adaptations to drought and salinity in salt marsh grasses
Molecular data
  • TranscriptomicsChelaifa, H., A. Monnier and M. Ainouche (2010) Transcriptomic changes following recent natural hybridization and allopolyploidy in the salt marsh species Spartina x townsendii and Spartina anglica (Poaceae)
  • GenesLan, T., Y. L. Duan, B. Wang, Y. C. Zhou and W. R. Wu (2011) Molecular cloning and functional characterization of a Na(+)/H(+) antiporter gene from halophyte Spartina anglicade Carvalho, JF; Boutte, J; Bourdaud, P; Chelaifa, H; Ainouche, K; Salmon, A; Ainouche, M (2017) Gene expression variation in natural populations of hexaploid and allododecaploid Spartina species (Poaceae)
  • CarbohydratesDe Battisti, Davide; Berg, Matty P.; Walter, Bettina; Fowler, Mike S.; Griffin, John N. (2021) Stress-resistance traits disrupt the plant economics-decomposition relationship across environmental gradients in salt marshes
Microbial interactions and mycorrhizal status YesAn, SU; Cho, H; Jung, UJ; Kim, B; Lee, H; Hyun, JH (2020) Invasive Spartina anglica Greatly Alters the Rates and Pathways of Organic Carbon Oxidation and Associated Microbial Communities in an Intertidal Wetland of the Han River Estuary, Yellow SeaKim, J; Lee, J; Yun, J; Yang, YR; Ding, WX; Yuan, JJ; Kang, H (2020) Mechanisms of enhanced methane emission due to introduction of Spartina anglica and Phragmites australis in a temperate tidal salt marsh
Bioremediation YesVan Oosten, M. J. and A. Maggio (2015) Functional biology of halophytes in the phytoremediation of heavy metal contaminated soils
antioxidants
Secondary Metabolites
  • 3-dimethylsulfoniopropionateMulholland, M. M. and M. L. Otte (2002) The effects of nitrogen supply and salinity on DMSP, glycine betaine and proline concentrations in leaves of Spartina anglicavan Diggelen J, Rozema J, Dickson DMJ. (1986) -3- Dimethylsulphoniopropionate, proline and quarternary ammonium compounds in Spartina anglica in relation to sodium chloride, nitrogen and sulphur.
Previously was:
  • 3-dimethylsulfonioproprionateMulholland, M. M. and M. L. Otte (2002) The effects of nitrogen supply and salinity on DMSP, glycine betaine and proline concentrations in leaves of Spartina anglicavan Diggelen J, Rozema J, Dickson DMJ. (1986) -3- Dimethylsulphoniopropionate, proline and quarternary ammonium compounds in Spartina anglica in relation to sodium chloride, nitrogen and sulphur.
  • Compatible Solutes
    • ProlineGorham, J., L. Hughes and R. G. Wyn Jones (1980) Chemical composition of salt-marsh plants from Ynys Mon (Anglesey): the concept of physiotypes.Mulholland, M. M. and M. L. Otte (2002) The effects of nitrogen supply and salinity on DMSP, glycine betaine and proline concentrations in leaves of Spartina anglicavan Diggelen J, Rozema J, Dickson DMJ. (1986) -3- Dimethylsulphoniopropionate, proline and quarternary ammonium compounds in Spartina anglica in relation to sodium chloride, nitrogen and sulphur.
    • InositolGorham, J., L. Hughes and R. G. Wyn Jones (1980) Chemical composition of salt-marsh plants from Ynys Mon (Anglesey): the concept of physiotypes.
    Habitat
    • A2.33 Marine mud shoresBouma, T. J., V. Ortells and T. Ysebaert (2009) Comparing biodiversity effects among ecosystem engineers of contrasting strength: macrofauna diversity in Zostera noltii and Spartina anglica vegetations
    Economic use
    • 3300.0 FodderDe Battisti, Davide; Berg, Matty P.; Walter, Bettina; Fowler, Mike S.; Griffin, John N. (2021) Stress-resistance traits disrupt the plant economics-decomposition relationship across environmental gradients in salt marshes
    • 4000.0 LAND USEDuggan-Edwards, Mollie F.; Pages, Jordi F.; Jenkins, Stuart R.; Bouma, Tjeerd J.; Skov, Martin W. (2020) External conditions drive optimal planting configurations for salt marsh restoration
    Distribution
    Distribution map provided by GBIF | Global Biodiversity Information Facility
    Distribution (text)
    • Coastal mudflats: examples are Jiangsu coast, eastern China Livingston Bay, Washingtpn USALee, R. W. (2003) Physiological adaptations of the invasive cordgrass Spartina anglica to reducing sediments: rhizome metabolic gas fluxes and enhanced O-2 and H2S transportLi, J., S. Gao and Y. P. Wang (2010) Invading cord grass vegetation changes analyzed from Landsat-TM imageries: a case study from the Wanggang area, Jiangsu coast, eastern China
    • South Wales, UKDe Battisti, Davide; Berg, Matty P.; Walter, Bettina; Fowler, Mike S.; Griffin, John N. (2021) Stress-resistance traits disrupt the plant economics-decomposition relationship across environmental gradients in salt marshes
    • Anglesey, North Wales (United Kingdom) Duggan-Edwards, Mollie F.; Pages, Jordi F.; Jenkins, Stuart R.; Bouma, Tjeerd J.; Skov, Martin W. (2020) External conditions drive optimal planting configurations for salt marsh restoration
    Miscellaneous notes Was Spartina anglica to which majority of references refer
    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
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