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Report for Halophila stipulacea (Forssk.) Asch.

updated: May 12th 2022, 5:41 am see all updates
Changed fields since previous approved record are highlighted


Family Hydrocharitaceae
Genus Halophila
Species stipulacea
Author (Forssk.) Asch.
Infraspecific
Infraspecfic Author
Pictures
Plant type
  • hydrohalophyte
Life form
  • Aquatic
  • Seagrass
Ecotypes unknown
Max. salinity
SW de la Hoz, CF; Ramos, E; Puente, A; Mendez, F; Menendez, M; Juanes, JA; Losada, IJ (2018) Ecological typologies of large areas. An application in the Mediterranean Sea
Germination YesMalm, T (2006) Reproduction and recruitment of the seagrass Halophila stipulacea
Salt glands and bladders unknown
Photosynthesis Pathway C4?McMillan, C., P. L. Parker and B. Fry (1980) 13C/12C ratios in seagrasses
Molecular data
  • DNA contentGargiulo, GM; Vilardo, I; Cambrea, G; Gemelli, F; Crosca, A (2018) Karyomorphology and DNA quantification in the marine angiosperm Halophila stipulacea (Forsskal) Ascherson from Mediterranean and Red Seas
  • DNA markersProcaccini, G., S. Acunto, P. Fama and F. Maltagliati (1999) Structural, morphological and genetic variability in Halophila stipulacea (Hydrocharitaceae) populations in the western Mediterranean
  • DNANguyen, XV; Kletschkus, E; Rupp-Schroder, SI; El Shaffai, A; Papenbrock, J (2018) rDNA analysis of the Red Sea seagrass, Halophila, reveals vicariant evolutionary diversificationRuggiero, M. V. and G. Procaccini (2004) The rDNA ITS region in the Lessepsian marine angiosperm Halophila stipulacea (Forssk.) aschers. (Hydrocharitaceae): Intragenomic variability and putative pseudogenic sequencesVarela-Alvarez, E; Rindi, F; Cavas, L; Serrao, EA; Duarte, CM; Marba, N (2011) Molecular identification of the tropical seagrass Halophila stipulacea from Turkey
Microbial interactions and mycorrhizal status YesCrump, BC; Koch, EW (2008) Attached bacterial populations shared by four species of aquatic angiospermsRotini, A; Mejia, AY; Costa, R; Migliore, L; Winters, G (2017) Ecophysiological Plasticity and Bacteriome Shift in the Seagrass Halophila stipulacea along a Depth Gradient in the Northern Red SeaWeidner, S; Arnold, W; Stackebrandt, E; Puhler, A (2000) Phylogenetic analysis of bacterial communities associated with leaves of the seagrass Halophila stipulacea by a culture-independent small-subunit rRNA gene approach
Bioremediation unknown
antioxidants
  • PhenolsRengasamy, RRK; Rajasekaran, A; Micheline, GD; Perumal, A (2012) Antioxidant activity of seagrasses of the Mandapam coast, India
Secondary Metabolites
  • SiphonosideGavagnin, Margherita; Carbone, Marianna; Amodeo, Pietro; Mollo, Ernesto; Vitale, Rosa Maria; Roussis, Vassilios; Cimino, Guido (2007) Structure and absolute stereochemistry of syphonoside, a unique macrocyclic glycoterpenoid from marine organisms
Previously was: empty
Compatible Solutes
Habitat
  • A2.61 Seagrass beds on littoral sediments
Economic use
  • 7160.0 AntibioticsEl-Rafie, H. M.; El-Rafie, M. H.; AbdElsalam, H. M.; El-Sayed, W. A. (2016) Antibacterial and anti-inflammatory finishing of cotton by microencapsulation using three marine organismsKannan, Rengasamy Ragupathi Raja; Arumugam, Rajasekaran; Anantharaman, Perumal (2010) Antibacterial potential of three seagrasses against human pathogens
  • 7000.0 MEDICALGavagnin, Margherita; Carbone, Marianna; Amodeo, Pietro; Mollo, Ernesto; Vitale, Rosa Maria; Roussis, Vassilios; Cimino, Guido (2007) Structure and absolute stereochemistry of syphonoside, a unique macrocyclic glycoterpenoid from marine organismsMabrouk, Sawssen Bel; Reis, Mariana; Sousa, Maria Ligia; Ribeiro, Tiago; Almeida, Joana R.; Pereira, Sandra; Antunes, Jorge; Rosa, Filipa; Vasconcelos, Vitor; Achour, Lotfi; Kacem, Adnen; Urbatzka, Ralph (2020) The Marine Seagrass Halophila stipulacea as a Source of Bioactive Metabolites against Obesity and Biofouling
  • 8300.0 Bioenergy/BiofuelAshraf, M. T., C. J. Fang, T. Bochenski, I. Cybulska, A. Alassali, A. Sowunmi, R. Farzanah, G. P. Brudecki, T. Chaturvedi, S. Haris, J. E. Schmidt and M. H. Thomsen (2016) Estimation of bioenergy potential for local biomass in the United Arab Emirates
  • 8000.0 CHEMICALS Hamdy, Abdel-Hamid A.; El-Fiky, Nabaweya M.; El-Beih, Ahmed A.; Mohammed, Magdy M. D.; Mettwally, Walaa S. A. (2020) Egyptian red sea seagrass as a source of biologically active secondary metabolites
Previously was: empty
Distribution
Distribution map provided by GBIF | Global Biodiversity Information Facility
Distribution (text)
  • Saharo-Arabian regionMcMillan, C., P. L. Parker and B. Fry (1980) 13C/12C ratios in seagrasses
  • Europe
  • Mediterranean Seade la Hoz, CF; Ramos, E; Puente, A; Mendez, F; Menendez, M; Juanes, JA; Losada, IJ (2018) Ecological typologies of large areas. An application in the Mediterranean Sea
  • Northern Gulf of Aqaba (North beach site; 29.546150N 34.964819E; IsraelOscar, MA; Barak, S; Winters, G (2018) The Tropical Invasive Seagrass, Halophila stipulacea, Has a Superior Ability to Tolerate Dynamic Changes in Salinity Levels Compared to Its Freshwater Relative, Vallisneria americana
Miscellaneous notes 217 references February 2019 in Web of Science
References

Last Records approved
Submitted by T J Flowers
Sep 10th 2022, 6:13 pm

Approved by T J Flowers
Sep 10th 2022, 6:13 pm
Submitted by T J Flowers
Sep 10th 2022, 5:53 pm

Approved by T J Flowers
Sep 10th 2022, 5:54 pm
Submitted by Mohammed Al-azzawi
Sep 9th 2022, 11:04 am

Approved by T J Flowers
Sep 9th 2022, 8:07 pm
Submitted by Mohammed Al-azzawi
Sep 9th 2022, 10:47 am

Approved by T J Flowers
Sep 9th 2022, 8:06 pm
Submitted by T J Flowers
Sep 8th 2022, 6:36 am

Approved by T J Flowers
Sep 8th 2022, 6:36 am
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Contact email: halophytes@sussex.ac.uk
Credits – Tim Flowers, Joaquim Santos, Moritz Jahns, Brian Warburton, Peter Reed