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Report for Suaeda monoica Forssk. ex J.F.Gmel.

updated: May 17th 2021, 9:57 am see all updates
Changed fields since previous approved record are highlighted


Family Amaranthaceae
Genus Suaeda
Species monoica
Author Forssk. ex J.F.Gmel.
Infraspecific subsp.
Infraspecfic Author
Pictures
Plant type
  • hydrohalophyte
Life form
  • Shrub
Ecotypes unknown
Max. salinity
 84.6 dS/mAli, A. K. S. and G. Dreyling (1994) STUDIES ON THE SALT TOLERANCE OF SOME HALOPHYTES IN THE SUDANEshel, A. (1985) Effects of NaCl and KCl on growth and ionic composition of the halophytic C4 succulent chenopods Salsola kali, Suaeda monoica, and Suaeda aegyptiacaO\'Leary, J. W. and E. P. Glenn (1994) Halophytes as a resource for livestock and rehabilitation of degraded landsPasternak, D. and A. Nerd (1996) Research and utilization of halophytes in IsraelStorey, R. and R. G. Wyn Jones (1979) Responses of Atriplex spongiosa and Suaeda monoica to Salinity
Germination YesYadav, S., H. O. Elansary, M. A. Mattar, K. M. Elhindi, M. A. Alotaibi and A. Mishra (2021) Differential Accumulation of Metabolites in Suaeda Species Provides New Insights into Abiotic Stress Tolerance in C-4-Halophytic Species in Elevated CO2 Conditions
Salt glands and bladders unknown
Photosynthesis Pathway C4Shomer -Ilan, A., A. Nissenbaum and Y. Waisel (1981) Photosynthetic pathways and the ecological distribution of the Chenopodiaceae in IsraelYadav, S., A. Mishra and B. Jha (2018) Elevated CO2 leads to carbon sequestration by modulating C-4 photosynthesis pathway enzyme (PPDK) in Suaeda monoica and S. fruticosaYadav, S., H. O. Elansary, M. A. Mattar, K. M. Elhindi, M. A. Alotaibi and A. Mishra (2021) Differential Accumulation of Metabolites in Suaeda Species Provides New Insights into Abiotic Stress Tolerance in C-4-Halophytic Species in Elevated CO2 Conditions
Molecular data
  • MetabolomicsYadav, S., H. O. Elansary, M. A. Mattar, K. M. Elhindi, M. A. Alotaibi and A. Mishra (2021) Differential Accumulation of Metabolites in Suaeda Species Provides New Insights into Abiotic Stress Tolerance in C-4-Halophytic Species in Elevated CO2 Conditions
Previously was:
  • Amino AcidsYadav, S., H. O. Elansary, M. A. Mattar, K. M. Elhindi, M. A. Alotaibi and A. Mishra (2021) Differential Accumulation of Metabolites in Suaeda Species Provides New Insights into Abiotic Stress Tolerance in C-4-Halophytic Species in Elevated CO2 Conditions
    • Microbial interactions and mycorrhizal status YesIndira, K. and M. Srinivasan (2017) Diversity and ecological distribution of endophytic fungi associated with salt marsh plantsRavikumar, S; Ramanathan, G; Suba, N; Jeyaseeli, L; Sukumaran, M (2002) Quantification of halophilic Azospirillum from mangroves
    Bioremediation YesJoshi, A., B. Kanthaliya, V. Rajput, T. Minkina and J. Arora () Assessment of phytoremediation capacity of three halophytes:Suaeda monoica,Tamarix indicaandCressa critica
    Previously was: unknown
    antioxidants
    • PolyphenolsAgoramoorthy, G., F. A. Chen, V. Venkatesalu, D. H. Kuo and P. C. Shea (2008) Evaluation of antioxidant polyphenols from selected mangrove plants of India
    Secondary Metabolites
    • TanninsKathiresan, K. and A. V. Ravi (1990) SEASONAL CHANGES IN TANNIN CONTENT OF MANGROVE LEAVESRatnasooriya, W. D., R. N. Pathirana, A. S. Dissanayake, B. L. C. Samanmali and P. K. Desman (2016) Evaluation of invitro sun screen activities of salt marshy plants Suaeda monoica, Suaeda maritima and Halosarcia indica
    • PhenolsAgoramoorthy, G., F. A. Chen, V. Venkatesalu, D. H. Kuo and P. C. Shea (2008) Evaluation of antioxidant polyphenols from selected mangrove plants of IndiaRatnasooriya, W. D., R. N. Pathirana, A. S. Dissanayake, B. L. C. Samanmali and P. K. Desman (2016) Evaluation of invitro sun screen activities of salt marshy plants Suaeda monoica, Suaeda maritima and Halosarcia indica
    • FlavonoidsRatnasooriya, W. D., R. N. Pathirana, A. S. Dissanayake, B. L. C. Samanmali and P. K. Desman (2016) Evaluation of invitro sun screen activities of salt marshy plants Suaeda monoica, Suaeda maritima and Halosarcia indicaYadav, S., H. O. Elansary, M. A. Mattar, K. M. Elhindi, M. A. Alotaibi and A. Mishra (2021) Differential Accumulation of Metabolites in Suaeda Species Provides New Insights into Abiotic Stress Tolerance in C-4-Halophytic Species in Elevated CO2 Conditions
    Compatible Solutes
    • GlycinebetaineStorey, R. and R. G. Wyn Jones (1977) Quaternary Ammonium Compounds in Plants in Relation to Salt ResistanceStorey, R. and R. G. Wyn Jones (1979) Responses of Atriplex spongiosa and Suaeda monoica to Salinity
    • Soluble sugarsYadav, S., H. O. Elansary, M. A. Mattar, K. M. Elhindi, M. A. Alotaibi and A. Mishra (2021) Differential Accumulation of Metabolites in Suaeda Species Provides New Insights into Abiotic Stress Tolerance in C-4-Halophytic Species in Elevated CO2 Conditions
    Habitat
    • A2.5 Coastal saltmarshes and saline reedbedsChandrasekaran, M., K. Kannathasan, V. Venkatesalu and K. Prabhakar (2009) Antibacterial activity of some salt marsh halophytes and mangrove plants against methicillin resistant Staphylococcus aureusGopi, M; Kumar, MP; Jeevamani, JJJ; Raja, S; Muruganandam, R; Samuel, VD; Simon, NT; Viswanathan, C; Abhilash, KR; Krishnan, P; Purvaja, R; Ramesh, R (2019) Distribution and biodiversity of tropical saltmarshes: Tamil Nadu and Puducherry, Southeast coast of India
    • E6.1 Mediterranean inland salt steppesAlRashidi, M; Kosztolanyi, A; Shobrak, M; Szekely, T (2011) Breeding ecology of the Kentish Plover, Charadrius alexandrinus, in the Farasan Islands, Saudi Arabia (Aves: Charadriiformes)
    Economic use
    • 7000.0 MEDICALChandrasekaran, M., K. Kannathasan, V. Venkatesalu and K. Prabhakar (2009) Antibacterial activity of some salt marsh halophytes and mangrove plants against methicillin resistant Staphylococcus aureusRatnasooriya, W. D., R. N. Pathirana, A. S. Dissanayake, B. L. C. Samanmali and P. K. Desman (2016) Evaluation of invitro sun screen activities of salt marshy plants Suaeda monoica, Suaeda maritima and Halosarcia indicaYadav, S., H. O. Elansary, M. A. Mattar, K. M. Elhindi, M. A. Alotaibi and A. Mishra (2021) Differential Accumulation of Metabolites in Suaeda Species Provides New Insights into Abiotic Stress Tolerance in C-4-Halophytic Species in Elevated CO2 Conditions
    • 3000.0 FORAGEYadav, S., H. O. Elansary, M. A. Mattar, K. M. Elhindi, M. A. Alotaibi and A. Mishra (2021) Differential Accumulation of Metabolites in Suaeda Species Provides New Insights into Abiotic Stress Tolerance in C-4-Halophytic Species in Elevated CO2 Conditions
    Distribution
    Distribution (text)
    • Sudanian region
    • Farasan Island, Saudi Arabia AlRashidi, M; Kosztolanyi, A; Shobrak, M; Szekely, T (2011) Breeding ecology of the Kentish Plover, Charadrius alexandrinus, in the Farasan Islands, Saudi Arabia (Aves: Charadriiformes)
    • Mangrove forest of Pichavaram in the Vellar–Coleroon estuarine complex, IndiaChandrasekaran, M., K. Kannathasan, V. Venkatesalu and K. Prabhakar (2009) Antibacterial activity of some salt marsh halophytes and mangrove plants against methicillin resistant Staphylococcus aureus
    • IsraelWaisel, Y. and S. Ovadia (1972) Biological Flora of Israel. 3 Suaeda monoica Forssk. EX J. F. GMEL.
    • India and Saudi ArabiaGopi, M; Kumar, MP; Jeevamani, JJJ; Raja, S; Muruganandam, R; Samuel, VD; Simon, NT; Viswanathan, C; Abhilash, KR; Krishnan, P; Purvaja, R; Ramesh, R (2019) Distribution and biodiversity of tropical saltmarshes: Tamil Nadu and Puducherry, Southeast coast of IndiaYadav, S., H. O. Elansary, M. A. Mattar, K. M. Elhindi, M. A. Alotaibi and A. Mishra (2021) Differential Accumulation of Metabolites in Suaeda Species Provides New Insights into Abiotic Stress Tolerance in C-4-Halophytic Species in Elevated CO2 Conditions
    Miscellaneous notes
    References

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