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Report for Lotus corniculatus L.

updated: Nov 24th 2021, 6:14 am see all updates
Changed fields since previous approved record are highlighted


Family Fabaceae
Genus Lotus
Species corniculatus
Author L.
Infraspecific subsp.
Infraspecfic Author
Pictures
Plant type
Life form
Ecotypes YesTeakle, N. L.; Real, D.; Colmer, T. D. (2006) Growth and ion relations in response to combined salinity and waterlogging in the perennial forage legumes Lotus corniculatus and Lotus tenuis
Max. salinity
400 mMST-ARNAUD M; VINCENT G (1988) INFLUENCE OF HIGH SALT LEVELS ON THE GERMINATION AND GROWTH OF FIVE POTENTIALLY UTILIZABLE PLANTS FOR MEDIAN TURFING IN NORTHERN CLIMATESSanchez, 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 hypothesisTeakle, N. L.; Real, D.; Colmer, T. D. (2006) Growth and ion relations in response to combined salinity and waterlogging in the perennial forage legumes Lotus corniculatus and Lotus tenuis
Germination YesST-ARNAUD M; VINCENT G (1988) INFLUENCE OF HIGH SALT LEVELS ON THE GERMINATION AND GROWTH OF FIVE POTENTIALLY UTILIZABLE PLANTS FOR MEDIAN TURFING IN NORTHERN CLIMATES
Salt glands and bladders unknown
Photosynthesis Pathway unknown
Molecular data
  • TranscriptomicsLotus corniculatus Transcriptome or Gene expression (2021) Biotechnology institute of CAAS
  • GenesSun, Zhan-Min; Zhou, Mei-Liang; Xiao, Xing-Guo; Tang, Yi-Xiong; Wu, Yan-Min (2014) Genome-wide analysis of AP2/ERF family genes from Lotus corniculatus shows LcERF054 enhances salt tolerance
  • 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
  • Transcription factorsWang, Dan; Luo, Wen; Khurshid, Muhammad; Gao, Lihua; Sun, Zhanmin; Zhou, Meiliang; Wu, Yanmin (2018) Co-expression of PeDREB2a and KcERF Improves Drought and Salt Tolerance in Transgenic Lotus corniculatus
Microbial interactions and mycorrhizal status YesKOH S-DLEE H-H (1984) STUDIES OF SPECIES AND DISTRIBUTION OF VESICULAR-ARBUSCULAR MYCORRHIZAL FUNGI IN RELATION TO SALT-MARSH PLANTSKabdullayeva, Tolganay; Crosbie, Duncan B.; Marin, Macarena (2020) Mesorhizobium norvegicum sp. nov., a rhizobium isolated from a Lotus corniculatus root nodule in NorwayLorite, Maria J.; Munoz, Socorro; Olivares, Jose; Soto, Maria J.; Sanjuan, Juan (2010) Characterization of Strains unlike Mesorhizobium loti That Nodulate Lotus spp. in Saline Soils of Granada, Spain
Bioremediation YesAydemir, Salih; Sunger (Akil), Halime (2011) Bioreclamation effect and growth of a leguminous forage plant (Lotus corniculatus) in calcareous saline-sodic soil
antioxidants
Secondary Metabolites
  • LectinRafiq, Shaista; Majeed, Rabiya; Qazi, Asif Khurshid; Ganai, Bashir Ahmad; Wani, Ishfak; Rakhshanda, Syed; Qurishi, Yasrib; Sharma, P. R.; Hamid, Abid; Masood, Akbar; Hamid, Rabia (2013) Isolation and antiproliferative activity of Lotus corniculatus lectin towards human tumour cell lines
Compatible Solutes
  • ProlineSanchez, 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
  • Soluble sugarsSanchez, 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
Habitat
  • B1 Coastal dunes and sandy shoresTHALEN, DCP (1971) VARIATION IN SOME SALTMARSH AND DUNE VEGETATIONS IN NETHERLANDS WITH SPECIAL REFERENCE TO GRADIENT SITUATIONSTraveset, Anna; Castro-Urgal, Rocio; Rotllan-Puig, Xavier; Lazaro, Amparo (2018) Effects of habitat loss on the plant-flower visitor network structure of a dune community
Economic use
  • 3000.0 FORAGETemel, Suleyman; Keskin, Bilal; Simsek, Ugur; Yilmaz, Ibrahim Hakki (2016) The Effect of Saline and Non-Saline Soil Conditions on Yield and Nutritional Characteristics of Some Perennial Legumes Forages
Distribution

No Distribution recorded for this taxon
Distribution (text)
  • on Bosc (39°46′28.11″N, 3°07′45.34″E) northern MallorcaTraveset, Anna; Castro-Urgal, Rocio; Rotllan-Puig, Xavier; Lazaro, Amparo (2018) Effects of habitat loss on the plant-flower visitor network structure of a dune community
  • Dutch West Frisian island Schiermonnikoog (53°29'N, 6°12'E)THALEN, DCP (1971) VARIATION IN SOME SALTMARSH AND DUNE VEGETATIONS IN NETHERLANDS WITH SPECIAL REFERENCE TO GRADIENT SITUATIONS
Previously was:
  • on Bosc (39°46′28.11″N, 3°07′45.34″E) northern MallorcaTraveset, Anna; Castro-Urgal, Rocio; Rotllan-Puig, Xavier; Lazaro, Amparo (2018) Effects of habitat loss on the plant-flower visitor network structure of a dune community
  • Miscellaneous notes
    References

    Last Records approved
    Submitted by Mohammed Al-azzawi
    Jan 24th 2022, 8:48 am

    Approved by T J Flowers
    Jan 24th 2022, 9:12 am
    Submitted by Mohammed Al-azzawi
    Jan 24th 2022, 8:40 am

    Approved by T J Flowers
    Jan 24th 2022, 9:12 am
    Submitted by Mohammed Al-azzawi
    Jan 24th 2022, 8:33 am

    Approved by T J Flowers
    Jan 24th 2022, 9:11 am
    Submitted by Mohammed Al-azzawi
    Jan 24th 2022, 8:14 am

    Approved by T J Flowers
    Jan 24th 2022, 9:11 am
    Submitted by T J Flowers
    Jan 21st 2022, 5:49 am

    Approved by T J Flowers
    Jan 21st 2022, 5:49 am
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