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Report for Lotus tenuis Waldst. & Kit.

updated: Jan 30th 2020, 12:04 pm see all updates
Changed fields since previous approved record are highlighted


Family Fabaceae
Genus Lotus
Species tenuis
Author Waldst. & Kit.
Infraspecific subsp.
Infraspecfic Author
Pictures
Plant type
  • hydrohalophyte
Life form
  • Herbaceous perennial
Ecotypes unknown
Max. salinity
450 mMEspasandin, FD; Calzadilla, PI; Maiale, SJ; Ruiz, OA; Sansberro, PA (2018) Overexpression of the Arginine Decarboxylase Gene Improves Tolerance to Salt Stress in Lotus tenuis PlantsTeakle, NL; Snell, A; Real, D; Barrett-Lennard, EG; Colmer, TD (2010) Variation in salinity tolerance, early shoot mass and shoot ion concentrations within Lotus tenuis: towards a perennial pasture legume for saline land
Previously was: 300
Germination Yes:Marinoni, L; Zabala, J. M; Patiño, J ; Pensiero, J. F (2017) Efecto de la temperatura y salinidad en la germinación y crecimiento inicial de un material naturalizado de Lotus tenuis Waldst. & KitTeakle, NL; Snell, A; Real, D; Barrett-Lennard, EG; Colmer, TD (2010) Variation in salinity tolerance, early shoot mass and shoot ion concentrations within Lotus tenuis: towards a perennial pasture legume for saline land
Previously was: unknown
Salt glands and bladders unknown
Photosynthesis Pathway C3?
Molecular data
Microbial interactions and mycorrhizal status YesCastagno, LN; Garcia, IV; Sannazzaro, AI; Bailleres, M; Ruiz, OA; Mendoza, RE; Estrella, MJ (2014) Growth, nutrient uptake and symbiosis with rhizobia and arbuscular mycorrhizal fungi in Lotus tenuis plants fertilized with different phosphate sources and inoculated with the phosphate-solubilizing bacterium Pantoea eucalypti M91Di Bella, CE; Garcia-Parisi, PA; Lattanzi, FA; Druille, M; Schnyder, H; Grimoldi, AA (2019) Grass to legume facilitation in saline-sodic steppes: influence of vegetation seasonality and root symbiontsEcheverria, M; Sannazzaro, AI; Ruiz, OA; Menendez, AB (2013) Modulatory effects of Mesorhizobium tianshanense and Glomus intraradices on plant proline and polyamine levels during early plant response of Lotus tenuis to salinityMendoza, R; Bailleres, M; Garcia, I; Ruiz, O (2016) Phosphorus fertilization of a grass-legume mixture: Effect on plant growth, nutrients acquisition and symbiotic associations with soil microorganisms
Previously was: unknown
Bioremediation unknown
antioxidants
Secondary Metabolites
  • PolyaminesEspasandin, FD; Calzadilla, PI; Maiale, SJ; Ruiz, OA; Sansberro, PA (2018) Overexpression of the Arginine Decarboxylase Gene Improves Tolerance to Salt Stress in Lotus tenuis Plants
Compatible Solutes
  • ProlineEcheverria, M; Sannazzaro, AI; Ruiz, OA; Menendez, AB (2013) Modulatory effects of Mesorhizobium tianshanense and Glomus intraradices on plant proline and polyamine levels during early plant response of Lotus tenuis to salinity
Previously was: empty
Habitat
  • E6.2 Continental inland salt steppesMeleckova et al (2013) Effect of experimental top soil removal on vegetation of Pannonian salt steppes
Economic use
  • 3000.0 FORAGENichols, PGH; Revell, CK; Humphries, AW; Howie, JH; Hall, EJ; Sandral, GA; Ghamkhar, K; Harris, CA (2012) Temperate pasture legumes in Australia-their history, current use, and future prospectsTeakle, NL; Snell, A; Real, D; Barrett-Lennard, EG; Colmer, TD (2010) Variation in salinity tolerance, early shoot mass and shoot ion concentrations within Lotus tenuis: towards a perennial pasture legume for saline land
Previously was: empty
Distribution
Distribution (text)
  • Euro-Siberian region - east
  • Mediterranean region
  • Irano-Turanian region (casual)
  • Kamenínske Slanisko Nature Reserve in SW SlovakiaMeleckova et al (2013) Effect of experimental top soil removal on vegetation of Pannonian salt steppes
Miscellaneous notes A well researched species with agricultural value. There are more papers then referenced here. Synonym is Lotus glaber
Previously was: empty
References

Last Records approved
Submitted by Mohammed Al-azzawi
Apr 2nd 2020, 10:05 am

Approved by T J Flowers
Apr 3rd 2020, 4:23 pm
Submitted by Mohammed Al-azzawi
Mar 23rd 2020, 7:32 am

Approved by T J Flowers
Mar 25th 2020, 8:56 am
Submitted by T J Flowers
Mar 16th 2020, 6:07 am

Approved by T J Flowers
Mar 16th 2020, 6:07 am
Submitted by T J Flowers
Mar 13th 2020, 5:14 pm

Approved by T J Flowers
Mar 13th 2020, 5:14 pm
Submitted by T J Flowers
Mar 13th 2020, 5:07 pm

Approved by T J Flowers
Mar 13th 2020, 5:07 pm
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Contact email: halophytes@sussex.ac.uk
Credits – Tim Flowers, Joaquim Santos, Moritz Jahns, Brian Warburton, Peter Reed