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Report for Lotus creticus L.

updated: Nov 17th 2020, 6:16 am see all updates
Changed fields since previous approved record are highlighted


Family Fabaceae
Genus Lotus
Species creticus
Author L.
Infraspecific subsp.
Infraspecfic Author
Pictures
Plant type
  • psammophile ZOHARY, M.; FAHN, A. (1952) Ecological studies on East Mediterranean dune plants
Life form
  • Nano-chamaephyte
Ecotypes Yes
Max. salinity
 400 mMMorales, M. A., J. J. Alarcon, A. Torrecillas and M. J. Sanchez-Blanco (2000) Growth and water relations of Lotus creticus creticus plants as affected by salinityRejili, M; Vadel, AM; Guetet, A; Neffatti, M (2007) Effect of NaCl on the growth and the ionic balance K+/Na+ of two populations of Lotus creticus (L.) (Papilionaceae)Sanchez-Blanco, M. J., M. A. Morales, A. Torrecillas and J. J. Alarcon (1998) Diurnal and seasonal osmotic potential changes in Lotus creticus creticus plants grown under saline stressTlili, A., M. Tarhouni, A. Cerda, M. Louhaichi and M. Neffati (2018) Comparing yield and growth characteristics of four pastoral plant species under two salinity soil levelsUchiya, P; Escaray, FJ; Bilenca, D; Pieckenstain, F; Ruiz, OA; Menendez, AB (2016) Salt effects on functional traits in model and in economically important Lotus species
Germination YesHajri, R; Ouhibi, C; Mechri, M; Kourda, H; Ben Younes, M (2018) SALINITY AND WATER DEFICIT EFFECTS ON SEED GERMINATION AND RECOVERY OF LOTUS POPULATIONS FROM NORTHERN TUNISIARejili, M., A. M. Vadel, A. Guetet, M. Mahdhi, B. Lachiheb, A. Ferchichi and M. Mars (2010) Influence of temperature and salinity on the germination of Lotus creticus (L.) from the arid land of Tunisia
Salt glands and bladders unknown
Photosynthesis Pathway C3WINTER, K; TROUGHTON, JH (1977) PHOTOSYNTHETIC PATHWAYS IN PLANTS OF COASTAL AND INLAND HABITATS OF ISRAEL AND SINAI
Molecular data
  • MetabolomicsSanchez, D. H., F. L. Pieckenstain, F. Escaray, A. Erban, U. Kraemer, M. K. Udvardi and J. Kopka (2011) Comparative ionomics and metabolomics in extremophile and glycophytic Lotus species under salt stress challenge the metabolic pre-adaptation hypothesis
Previously was:
  • MetabalomicsSanchez, D. H., F. L. Pieckenstain, F. Escaray, A. Erban, U. Kraemer, M. K. Udvardi and J. Kopka (2011) Comparative ionomics and metabolomics in extremophile and glycophytic Lotus species under salt stress challenge the metabolic pre-adaptation hypothesis
    • Microbial interactions and mycorrhizal status YesRejii, M; Mahdhi, M; Dominguez-Nunez, JA; Mars, M (2014) The phenotypic, phylogenetic and symbiotic characterization of rhizobia nodulating Lotus sp in Tunisian arid soilsRejili, M; Lorite, MJ; Mahdhi, M; Pinilla, JS; Ferchichi, A; Mars, M (2009) Genetic diversity of rhizobial populations recovered from three Lotus species cultivated in the infra-arid Tunisian soils
    Bioremediation unknown
    antioxidants
    Secondary Metabolites
    Compatible Solutes
    Habitat
    • B1 Coastal dunes and sandy shores ZOHARY, M.; FAHN, A. (1952) Ecological studies on East Mediterranean dune plants
    Economic use
    • 4850.0 Salt-tolerant ornamentalFranco, J. A., S. Banon, J. A. Fernandez and D. I. Leskovar (2001) Effect of nursery regimes and establishment irrigation on root development of Lotus creticus seedlings following transplanting
    • 4520.0 Sand stabilization
    • 3000.0 FORAGETlili, A., M. Tarhouni, A. Cerda, M. Louhaichi and M. Neffati (2018) Comparing yield and growth characteristics of four pastoral plant species under two salinity soil levels
    Distribution
    Distribution (text)
    • Mediterranean region ZOHARY, M.; FAHN, A. (1952) Ecological studies on East Mediterranean dune plants
    • Balearic IslandsMONTSERRAT, PEDRO (1959) Lotus creticus in the Balearic pastures
    Miscellaneous notes
    References

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