# methane

> simplest organic molecule with one carbon atom and four hydrogen

**Wikidata**: [Q37129](https://www.wikidata.org/wiki/Q37129)  
**Wikipedia**: [English](https://en.wikipedia.org/wiki/Methane)  
**Source**: https://4ort.xyz/entity/methane


## References

1. [Source](https://www.actu-environnement.com/ae/dictionnaire_environnement/definition/methane_ch4.php4)
2. [Source](https://www.europeana.eu/en/item/9200332/BibliographicResource_3000123618397)
3. [Source](https://www.e-rara.ch/zut/content/zoom/6521357)
4. methane. ChEBI
5. [CAS Common Chemistry](https://commonchemistry.cas.org/detail?cas_rn=74-82-8)
6. methane. Global Substance Registration System
7. methane. PubChem
8. ChEBI release 2020-09-01
9. [Nuovo soggettario](https://thes.bncf.firenze.sbn.it/termine.php?id=31236)
10. Gene Ontology release 2019-11-16
11. Gene Ontology release 2020-05-02
12. [Source](http://geneontology.org/external2go/rhea2go)
13. [Source](http://www.engineeringtoolbox.com/gas-density-d_158.html)
14. Nuovo soggettario
15. METHANE. ChEMBL
16. Methane. ChemSpider
17. Three Novel C21Polyacetylenes from the Marine SpongeCallyspongiasp.
18. Polyacetylenes from a red sea sponge Callyspongia species
19. Seven New Polyacetylene Derivatives, Showing Both Potent Metamorphosis-Inducing Activity in Ascidian Larvae and Antifouling Activity Against Barnacle Larvae, from the Marine SpongeCallyspongiatruncata
20. Further Petroformynes from Both Atlantic and Mediterranean Populations of the Sponge Petrosia ficiformis
21. Cytotoxic Polyacetylenic Alcohols from the Marine Sponge Petrosia Species
22. Additional cytotoxic polyacetylenes from the marine sponge Petrosia species
23. Two new acetylenic derivatives and a new meroditerpenoid from a Taiwanese marine sponge Strongylophora durissima
24. Sesquiterpene acids from Dittrichia viscosa
25. Dihydroisocoumarin Derivatives from Marine-Derived Fungal Isolates and Their Anti-inflammatory Effects in Lipopolysaccharide-Induced BV2 Microglia
26. Substances isolated from Mandragora species
27. The magical and medicinal usage of Stangeria eriopus in South Africa
28. Azoxyglycoside contents in seeds of several cycad species and various parts of Japanese cycad.
29. Formation of cycasin from methylazoxymethanol by UDP-glucosyltransferase from leaves of Japanese cycad.
30. Simultaneous determination of azoxyglycosides by high performance liquid chromatography and their contents in growing leaves of Japanese cycad
31. Inhibitory effects of cycasin on germination, growth and .ALPHA.-amylase biosynthesis in rice plants.
32. Cycasin formation in tissue cultures of Japanese cycad
33. Cycasin in the endangered butterfly Eumaeus atala florida
34. The alkaloids of Datura meteloides D.C.
35. The Isolation and Structural Elucidation of Two Novel Sesquiterpenoid Tumor Inhibitors from Elephantopus elatus1,2
36. Composition of Secondary Metabolites in Various Parts of 'Seolhyang' Strawberry Plants
37. FR-900130, a novel amino acid antibiotic. I. Discovery, taxonomy, isolation, and properties.
38. [Source](https://www.unep.org/fr/actualites-et-recits/recit/les-emissions-de-methane-sont-lorigine-du-changement-climatique-voici)
39. Integrated Authority File
40. BBC Things
41. [Source](https://encyclopedia.airliquide.com/methane?GasID=41)
42. METHANE. Hazardous Substances Data Bank. 2019
43. CRC Handbook of Chemistry and Physics (78th edition)
44. Basic laboratory and industrial chemicals: A CRC quick reference handbook
45. Introduction to chemical engineering thermodynamics
46. [Source](https://www.bfs-kaelte-klima.de/fileadmin/DATEIEN/Download/Einlegeblatt_fuer_die_Betriebshandbuecher-Broschuerendruck.pdf)
47. [Source](https://sites.google.com/site/ellesmerealevelchemistry/module-3-periodic-table-energy/3-2-physical-chemistry-1/3-2-1-enthalpy-changes/3-2-1-d-enthalpy-change-definitions)
48. YSO-Wikidata mapping project
49. [Source](https://archive.ipcc.ch/pdf/assessment-report/ar5/wg1/WG1AR5_Chapter08_FINAL.pdf)
50. Methane. ECHA Substance Infocard database