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Category:fragrance agents
US / EU / FDA / JECFA / FEMA / FLAVIS / Scholar / Patent Information:
Physical Properties:
| Food Chemicals Codex Listed: | No |
| Soluble in: |
| | alcohol |
| Insoluble in: |
| | water |
Organoleptic Properties:
| Odor and/or flavor descriptions from others (if found). |
Cosmetic Information:
Suppliers:
Safety Information:
| |
| Hazards identification |
| |
| Classification of the substance or mixture |
| GHS Classification in accordance with 29 CFR 1910 (OSHA HCS) |
| None found. |
| GHS Label elements, including precautionary statements |
| |
| Pictogram | |
| |
| Hazard statement(s) |
| None found. |
| Precautionary statement(s) |
| None found. |
| Oral/Parenteral Toxicity: |
|
Not determined
|
| Dermal Toxicity: |
|
Not determined
|
| Inhalation Toxicity: |
|
Not determined
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Safety in Use Information:
| Category: | | fragrance agents |
| RIFM Fragrance Material Safety Assessment: Search |
| IFRA Code of Practice Notification of the 49th Amendment to the IFRA Code of Practice |
| IFRA Critical Effect: | | Dermal sensitization |
| IFRA Other Specification: | < 10 mmoles / liter peroxides |
| IFRA fragrance material specification: | | | Essential oils (e.g. turpentine oil) and isolates (e.g. delta-3-carene) derived from the Pinacea family, including Pinus and Abies genera, should only be used when the level of peroxides is kept to the lowest practicable level, for instance by adding antioxidants at the time of production. Such products should have a peroxide value of less than 10 millimoles peroxide per liter, determined according to the FMA method, which can be downloaded from the IFRA website (see Analytical Methods). |
| | View the IFRA Standard |
| |
| Recommendation for cedrus atlantica bark oil flavor usage levels up to: |
| | not for flavor use.
|
Safety References:
| Toxicology Citations:Search |
| EPA Substance Registry Services (TSCA):8023-85-6 |
| EPA ACToR:Toxicology Data |
| EPA Substance Registry Services (SRS):Registry |
| National Institute of Allergy and Infectious Diseases:Data |
| cedrus atlantica bark oil |
| Chemidplus:008023856 |
References:
| | cedrus atlantica bark oil |
| Pubchem (sid): | 135350485 |
Other Information:
Potential Blenders and core components note
Potential Uses:
Occurrence (nature, food, other): note
Synonyms:
| atlas | cedar bark oil | | | cedrus libani subsp. atlantica bark oil | | | cedrus libani var. atlantica bark oil | | | pinus atlantica bark oil | | | volatile oil obtained from the bark of cedrus atlantica, pinaceae |
Articles:
| PubMed:"Singing in the Tube"-audiovisual assay of plant oil repellent activity against mosquitoes (Culex pipiens). |
| PubMed:Crystal structure of 1-isopropyl-4,7-dimethyl-3-nitro-naphthalene. |
| PubMed:Crystal structure of (1S,3R,8R,9R,10S)-2,4,6-tris-(2,2-di-chloro-3,7,7,10-tetra-methyl-tri-cyclo-[6.4.0.0(1,3)]dodec-9-yl)cyclo-triboroxane. |
| PubMed:Inhalation of Cedrus atlantica essential oil alleviates pain behavior through activation of descending pain modulation pathways in a mouse model of postoperative pain. |
| PubMed:Vibrational microspectroscopy enables chemical characterization of single pollen grains as well as comparative analysis of plant species based on pollen ultrastructure. |
| PubMed:[Diagnostic workup of fragrance allergy]. |
| PubMed:Crystal structure of (1S,3R,8R,9S,10R)-10-bromo-methyl-2,2-di-chloro-9,10-ep-oxy-3,7,7-tri-methyl-tri-cyclo-[6.4.0.0(1,3)]dodeca-ne. |
| PubMed:Fungal Planet description sheets: 281-319. |
| PubMed:Genomic exploration and molecular marker development in a large and complex conifer genome using RADseq and mRNAseq. |
| PubMed:(1S,2R,3S,6S,7R)-3,7,11,11-Tetra-methyl-6,7-epoxybi-cyclo-[5.4.0]undecane-2-ol. |
| PubMed:(1R,4R,6S,7R)-5,5-Di-bromo-1,4,8,8-tetra-methyl-tri-cyclo-[5.4.1.0(4,6)]dodecan-12-one. |
| PubMed:1-[(1S,6R,7S,9R)-8,8-Di-bromo-5,5,9-tri-methyl-tri-cyclo-[4.4.0.1(7,9)]decan-1-yl]ethanone. |
| PubMed:WGDB: Wood Gene Database with search interface. |
| PubMed:(1S,3R,8R,10R)-2,2-Di-bromo-3,7,7,10-tetra-methyl-tri-cyclo-[6.4.0.0(1,3)]dodecan-9-one. |
| PubMed:(1R,4R,6S,7S)-5,5-Di-chloro-1,4,8,8-tetra-methyl-tri-cyclo-[5.4.1(1,7).0(4,6)]dodecan-12-one. |
| PubMed:(1S,3S,8R,10R,11R)-3,7,7,10-Tetra-methyl-tri-cyclo-[6.4.0.0(1,3)]dodecan-11-ol. |
| PubMed:(1S,3R,8R,11S)-11-Bromo-10-bromo-methyl-2,2-di-chloro-3,7,7-tri-methyl-tricyclo-[6.4.0.0(1,3)]dodec-9-ene. |
| PubMed:(1S,3S,8R,9S,11R)-10,10-Di-bromo-3,7,7,11-tetra-methyl-tetra-cyclo-[6.5.0.0(1,3).0(9,11)]trideca-ne. |
| PubMed:(1S,2R,7R,8S,10R)-9,9-Di-bromo-2,6,6,10-tetra-methyl-1α,2α-ep-oxy-tri-cyclo-[5.5.0.0(8,10)]dodeca-ne. |
| PubMed:Inhibitory effect of essential oils against Trichosporon ovoides causing Piedra Hair Infection. |
| PubMed:(1S,3S,8R,9S,11R)-10,10-Di-chloro-3,7,7,11-tetra-methyl-tetra-cyclo[6.5.0.0(1,3).0(9,11)]trideca-ne. |
| PubMed:(1S,3R,8R)-2,2-Di-chloro-3,7,7,10-tetra-methyl-tri-cyclo-[6.4.0.0(1,3)]dodec-9-en-11-one. |
| PubMed:(1S,3R,8R,9S,11R)-10,10-Di-bromo-2,2-di-chloro-3,7,7,11-tetra-methyl-tetra-cyclo-[6.5.0.0(1,3).0(9,11)]trideca-ne. |
| PubMed:(1S,3R,8R,9S,11R)-2,2-Di-bromo-10,10-di-chloro-3,7,7,11-tetra-methyl-tetra-cyclo-[6.5.0.0(1,3).0(9,11)]trideca-ne. |
| PubMed:2,2-Dichloro-3,7,7,11-tetra-methyl-10-aza-tetra-cyclo-[6.5.0.0(1,3).0(9,11)]trideca-ne. |
| PubMed:(1S,3R,8R,9R,10S)-2,2-Dibromo-3,7,7,10-tetra-methyl-9β,10β-ep-oxy-3,7,7,10-tetra-methyl-tricyclo-[6.4.0.0(1,3)]dodeca-ne. |
| PubMed:(1S,3R,8R)-2,2-Dibromo-10-bromo-methyl-3,7,7-trimethyl-tricyclo-[6.4.0.0(1,3)]dodec-9-ene. |
| PubMed:(1S,3R,8R)-2,2-Dibromo-3,7,7,10-tetra-methyltricyclo-[6.4.0.0(1,3)]dodec-9-en-11-one. |
| PubMed:(1S,3R,8R,9S,11R)-2,2,10,10-Tetra-chloro-3,7,7,11-tetra-methyl-tetra-cyclo-[6.5.0.0(1,3).0(9,11)]trideca-ne. |
| PubMed:(1S,3R,8R)-2,2-Dibromo-3,7,7,10-tetra-methyl-tricyclo-[6.4.0.0(1,3)]dodec-9-ene. |
| PubMed:1-Isopropyl-4,7-dimethyl-2,8-dinitro-naphthalene. |
| PubMed:In vitro evaluation of the anti-proliferative activities of the wood essential oils of three Cedrus species against K562 human chronic myelogenous leukaemia cells. |
| PubMed:(1S,3R,8R)-9-(1-Amino-ethyl-idene)-2,2-dichloro-3,7,7-trimethyl-tricyclo-[6.4.0.0]undecan-10-one. |
| PubMed:(1S,3R,8R,11S)-2,2-Dichloro-3,7,7,10-tetra-methyl-tricyclo-[6.4.0.0]dodec-9-en-11-ol. |
| PubMed:Identification and quantitative determination of lignans in Cedrus atlantica resins using 13C NMR spectroscopy. |
| PubMed:Chemical variability of the wood essential oil of Cedrus atlantica Manetti from Corsica. |
| PubMed:Male Phyllotreta striolata (F.) produce an aggregation pheromone: identification of male-specific compounds and interaction with host plant volatiles. |
| PubMed:(1S,3R,8S,9R,10S)-2,2-Dichloro-3,7,7,10-tetra-methyl-9,10-ep-oxy-tricyclo-[6.4.0.0]dodeca-ne. |
| PubMed:(1S,2R,8R)-2,2-Dichloro-3,7,7,10-tetra-methyltricyclo-[6.4.0.0]dodec-10-en-9-one. |
| PubMed:(1S,2S,4R)-3,3-Dichloro-4,8,12,12-tetra-methyl-tricyclo-[5.5.0.0]dodeca-6,8-diene. |
| PubMed:2α,8α-Diacet-oxy-cis-himachalane. |
| PubMed:2-Acetyl-3,5,5,9-tetra-methyl-6,7,8,9-tetra-hydro-5H-benzocyclo-hepten-7-one. |
| PubMed:N-[4-Acetyl-5-(2-methylprop-1-enyl)-5-(2-p-tolyl-prop-yl)-4,5-dihydro-1,3,4-thia-diazol-2-yl]acetamide. |
| PubMed:N-[4-Acetyl-5-methyl-5-(2-p-tolyl-prop-yl)-4,5-dihydro-1,3,4-thia-diazol-2-yl]acetamide. |
| PubMed:Phylogeography of North African Atlas cedar (Cedrus atlantica, Pinaceae): Combined molecular and fossil data reveal a complex Quaternary history. |
| PubMed:Modelling the impact of an invasive insect via reaction-diffusion. |
| PubMed:N-[4-Acetyl-5-isobutyl-5-(2-p-tolyl-prop-yl)-4,5-dihydro-1,3,4-thia-diazol-2-yl]acetamide ethyl acetate hemisolvate. |
| PubMed:(±)-N-[4-Acetyl-5-methyl-5-(4-methyl-cyclo-hex-3-en-yl)-4,5-dihydro-1,3,4-thia-diazol-2-yl]acetamide. |
| PubMed:Effect of polystimulin growth regulators and scion clones on graft success and subsequent growth in Atlantic cedar (Cedrus atlantica Manetti). |
| PubMed:Growth and plant diversity in a man-made thinned Cedrus atlantica stand. |
| PubMed:Local NO3- or NH4+ supply modifies the root system architecture of Cedrus atlantica seedlings grown in a split-root device. |
| PubMed:Genetic diversity and population structure in natural populations of Moroccan Atlas cedar (Cedrus atlantica; Pinaceae) determined with cpSSR markers. |
| PubMed:In vitro storage of cedar shoot cultures under minimal growth conditions. |
| PubMed:Antibacterial diterpenoids from Cedrus atlantica. |
| PubMed:Drought effects on hydraulic conductivity and xylem vulnerability to embolism in diverse species and provenances of Mediterranean cedars. |
| PubMed:Genetic diversity and structure of natural and managed populations of Cedrus atlantica (Pinaceae) assessed using random amplified polymorphic DNA. |
| PubMed:Factors influencing axillary shoot proliferation and adventitious budding in cedar. |
| PubMed:Abietane diterpenes from the cones of Cedrus atlantica. |
| PubMed:Impact of founder population, drift and selection on the genetic diversity of a recently translocated tree population. |
| PubMed:[Anti-Candida albicans activity of essential oils including Lemongrass (Cymbopogon citratus) oil and its component, citral]. |
| PubMed:Gene flow among different taxonomic units: evidence from nuclear and cytoplasmic markers in Cedrus plantation forests. |
| PubMed:Anti-Aspergillus activities of plant essential oils and their combination effects with ketoconazole or amphotericin B. |
| PubMed:Evidence of variation in segregation patterns within a Cedrus population. |
| PubMed:Root system architecture and receptivity to mycorrhizal infection in seedlings of Cedrus atlantica as affected by nitrogen source and concentration. |
| PubMed:Electrophoretic analysis of seed storage proteins from gymnosperms. |
| PubMed:Vulnerability of several conifers to air embolism. |
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