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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 Sporobolus michauxianus (Hitchc.) P.M.Peterson & Saarela

updated: Apr 24th 2021, 6:09 am see all updates
Changed fields since previous approved record are highlighted


Family Poaceae
Genus Sporobolus
Species michauxianus
Author (Hitchc.) P.M.Peterson & Saarela
Infraspecific
Infraspecfic Author
Pictures
Plant type
  • weedy
Previously was:
  • hydrohalophyte
    • Life form
    • Perennial grass
    Ecotypes YesAnderson, EK; Voigt, TB; Kim, S; Lee, DK (2015) Determining effects of sodicity and salinity on switchgrass and prairie cordgrass germination and plant growth
    Previously was: unknown
    Max. salinity
    		 770 mMAnderson, EK; Voigt, TB; Kim, S; Lee, DK (2015) Determining effects of sodicity and salinity on switchgrass and prairie cordgrass germination and plant growthHenschke, M; Borowiak, K (2018) EFFECT OF SALINITY ON SELECTED PHYSIOLOGICAL AND MORPHOLOGICAL CHARACTERISTICS OF Spartina pectinata (Link.) 'AUREOMARGINATA'Kim, S; Rayburn, AL; Voigt, T; Parrish, A; Lee, DK (2012) Salinity Effects on Germination and Plant Growth of Prairie Cordgrass and SwitchgrassWARREN, RS; BAIRD, LM; THOMPSON, AK (1985) SALT TOLERANCE IN CULTURED-CELLS OF SPARTINA-PECTINATA
    Previously was: empty
    Germination YesAnderson, EK; Voigt, TB; Kim, S; Lee, DK (2015) Determining effects of sodicity and salinity on switchgrass and prairie cordgrass germination and plant growthKim, S; Rayburn, AL; Voigt, T; Parrish, A; Lee, DK (2012) Salinity Effects on Germination and Plant Growth of Prairie Cordgrass and SwitchgrassSchmer, MR; Xue, Q; Hendrickson, JR (2012) Salinity effects on perennial, warm-season (C-4) grass germination adapted to the northern Great Plains
    Previously was: unknown
    Salt glands and bladders YesMcSorley, K. A., A. Rutter, R. Cumming and B. A. Zeeb (2016) Chloride accumulation vs chloride excretion: Phytoextraction potential of three halophytic grass species growing in a salinized landfillMorris, L; Yun, K; Rutter, A; Zeeb, BA (2019) Characterization of Excreted Salt from the Recretohalophytes Distichlis spicata and Spartina pectinataYun, K. B. M., S. Koster, A. Rutter and B. A. Zeeb (2019) Haloconduction as a remediation strategy: Capture and quantification of salts excreted by recretohalophytes
    Previously was: unknown
    Photosynthesis Pathway C4Schmer, MR; Xue, Q; Hendrickson, JR (2012) Salinity effects on perennial, warm-season (C-4) grass germination adapted to the northern Great Plains
    Molecular data
    • TranscriptomicsRobben, M., E. Thibault, M. Tran, Y. J. Wu, A. Boe and J. L. Gonzalez-Hernandez (2018) Transcriptome Analysis of the Heritable Salt Tolerance of Prairie Cordgrass (Spartina pectinata Link)
    • DNA contentKim, S; Rayburn, AL; Lee, DK (2010) Genome Size and Chromosome Analyses in Prairie Cordgrass
    Previously was: empty
    Microbial interactions and mycorrhizal status YesWetzel, PR; vanderValk, AG (1996) Vesicular-arbuscular mycorrhizae in prairie pothole wetland vegetation in Iowa and North Dakota
    Previously was: unknown
    Bioremediation YesMcSorley, K. A., A. Rutter, R. Cumming and B. A. Zeeb (2016) Chloride accumulation vs chloride excretion: Phytoextraction potential of three halophytic grass species growing in a salinized landfillPouladi, SF; Anderson, BC; Wootton, B; Rozema, L (2016) Evaluation of Phytodesalination Potential of Vegetated Bioreactors Treating Greenhouse Effluent
    Previously was: unknown
    antioxidants
    Secondary Metabolites
    Compatible Solutes
    • ProlineHEYSER, JW; CHACON, MJ; WARREN, RS (1989) CHARACTERIZATION OF L-[5-C-13]-PROLINE BIOSYNTHESIS IN HALOPHYTIC AND NONHALOPHYTIC SUSPENSION-CULTURES BY C-13 NMR
    Previously was: empty
    Habitat
    • D6.1 Inland saltmarshesEallonardo, A. S. and D. J. Leopold (2014) Inland Salt Marshes of the Northeastern United States: Stress, Disturbance and Compositional Stability
    • C Inland surface watersMaricle, B. R., D. R. Cobos and C. S. Campbell (2007) Biophysical and morphological leaf adaptations to drought and salinity in salt marsh grasses
    Previously was:
  • D6.1 Inland saltmarshesEallonardo, A. S. and D. J. Leopold (2014) Inland Salt Marshes of the Northeastern United States: Stress, Disturbance and Compositional Stability
    • Economic use
    • 4000.0 LAND USEAbagandura, GO; Sekaran, U; Singh, S; Singh, J; Ibrahim, MA; Subramanian, S; Owens, VN; Kumar, S (2020) Intercropping kura clover with prairie cordgrass mitigates soil greenhouse gas fluxes
    Previously was:
  • 3100.0 Grazing
    • Distribution
    Distribution map provided by GBIF | Global Biodiversity Information Facility
    Distribution (text)
    • North AmericaAnderson, EK; Voigt, TB; Kim, S; Lee, DK (2015) Determining effects of sodicity and salinity on switchgrass and prairie cordgrass germination and plant growth
    • Northeastern United StatesEallonardo, A. S. and D. J. Leopold (2014) Inland Salt Marshes of the Northeastern United States: Stress, Disturbance and Compositional Stability
    • Canada,Porter, C; Lundholm, J; Bowron, T; Lemieux, B; van Proosdij, D; Neatt, N; Graham, J (2015) Classification and environmental correlates of tidal wetland vegetation in Nova Scotia, CanadaVirgin, SDS; Beck, AD; Boone, LK; Dykstra, AK; Ollerhead, J; Barbeau, MA; McLellan, NR (2020) A managed realignment in the upper Bay of Fundy: Community dynamics during salt marsh restoration over 8 years in a megatidal, ice-influenced environment
    Previously was:
  • North America - east
  • Northeastern United StatesEallonardo, A. S. and D. J. Leopold (2014) Inland Salt Marshes of the Northeastern United States: Stress, Disturbance and Compositional Stability
    • Miscellaneous notes Was Spartina pectinata - 59 references in late April 2021 Grows in frwshwater according to Maricle et al 2007Maricle, B. R., D. R. Cobos and C. S. Campbell (2007) Biophysical and morphological leaf adaptations to drought and salinity in salt marsh grasses
    Previously was: Was Spartina pectinata
    References

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