About: Sulfur isotope biogeochemistry

An Entity of Type: Thing, from Named Graph: http://dbpedia.org, within Data Space: dbpedia.org

Sulfur isotope biogeochemistry is the study of the distribution of sulfur isotopes in biological and geological materials. In addition to its common isotope, 32S, sulfur has three rare stable isotopes: 34S, 36S, and 33S. The distribution of these isotopes in the environment is controlled by many biochemical and physical processes, including biological metabolisms, mineral formation processes, and atmospheric chemistry. Measuring the abundance of sulfur stable isotopes in natural materials, like bacterial cultures, minerals, or seawater, can reveal information about these processes both in the modern environment and over Earth history.

Property	Value
dbo:abstract	Sulfur isotope biogeochemistry is the study of the distribution of sulfur isotopes in biological and geological materials. In addition to its common isotope, 32S, sulfur has three rare stable isotopes: 34S, 36S, and 33S. The distribution of these isotopes in the environment is controlled by many biochemical and physical processes, including biological metabolisms, mineral formation processes, and atmospheric chemistry. Measuring the abundance of sulfur stable isotopes in natural materials, like bacterial cultures, minerals, or seawater, can reveal information about these processes both in the modern environment and over Earth history. (en)
dbo:thumbnail	wiki-commons:Special:FilePath/Sulfur_isotope_abundance.png?width=300
dbo:wikiPageID	64047800 (xsd:integer)
dbo:wikiPageLength	75473 (xsd:nonNegativeInteger)
dbo:wikiPageRevisionID	1118282625 (xsd:integer)
dbo:wikiPageWikiLink	dbr:Canyon_Diablo_(meteorite) dbr:Carbonyl_sulfide dbr:Precambrian dbr:Proton dbr:Pyrite dbr:Biotin dbr:Hydrogen_sulfide dbr:Per_mille dbr:Bulrush dbr:Deciduous dbr:Inductively_coupled_plasma_mass_spectrometry dbr:Δ34S dbr:Conifer dbr:Chemosynthesis dbr:Coenzyme dbr:Coenzyme_A dbr:Electron dbr:Galena dbr:Glycolysis dbr:Great_Oxidation_Event dbr:Thiamine dbr:Equilibrium_fractionation dbc:Sulfur dbr:Archaea dbr:Steroid dbr:Thermochemical_sulfate_reduction dbr:Transition_state dbr:Troilite dbr:Dissimilatory_sulfate_reduction dbr:Amino_acid dbr:Cysteine dbr:Dalton_(unit) dbr:Carbonate-associated_sulfate dbc:Isotopes_of_sulfur dbr:Cellular_respiration dbr:Isotope dbr:Isotope_analysis dbr:Isotope_geochemistry dbr:Isotopes_of_sulfur dbr:Primary_production dbr:Protein dbr:Gypsum dbr:HPLC dbr:International_Atomic_Energy_Agency dbr:Isotope_fractionation dbr:Hydrogen_isotope_biogeochemistry dbr:Kinetic_isotope_effect dbr:Biogeochemistry dbc:Biogeochemistry dbr:Sulfate dbr:Sulfur dbr:Sulfur_dioxide dbr:Diethyl_sulfide dbr:Dimethylsulfoniopropionate dbr:Disproportionation dbr:Meteor_Crater dbr:Methionine dbr:Neutron dbr:Radioactive_decay dbr:File:Pyrite_from_Ampliación_a_Victoria_Mine,_Navajún,_La_Rioja,_Spain_2.jpg dbr:Mass-independent_fractionation dbr:Secondary_ion_mass_spectrometry dbr:Lithotroph dbr:Stable_nuclide dbr:Stable_isotope_ratio dbr:Sulfide_mineral dbr:Evaporite dbr:Nanoscale_secondary_ion_mass_spectrometry dbr:Polysaccharide dbr:Sulfur_metabolism dbr:Assimilatory_sulfate_reduction dbr:EA-IRMS dbr:File:32S-34S_isotope_fractionation_in_plant_sulphur.pdf dbr:File:Assim_Sulfate_Reduction.png dbr:File:Canyon_Diablo_meteorite_(26186838044).jpg dbr:File:Dissimilatory_Sulfate_Reduction.svg dbr:File:EA-IRMS,_isotope_ratio_mass_spect...l_sweeteners,_in_CAFIA_laboratory.jpg dbr:File:Natural_sulfur_isotope_range.png dbr:File:Sulfur_cycle_illustration.png dbr:File:Sulfur_isotope_abundance.png
dbp:wikiPageUsesTemplate	dbt:Reflist
dcterms:subject	dbc:Sulfur dbc:Isotopes_of_sulfur dbc:Biogeochemistry
rdfs:comment	Sulfur isotope biogeochemistry is the study of the distribution of sulfur isotopes in biological and geological materials. In addition to its common isotope, 32S, sulfur has three rare stable isotopes: 34S, 36S, and 33S. The distribution of these isotopes in the environment is controlled by many biochemical and physical processes, including biological metabolisms, mineral formation processes, and atmospheric chemistry. Measuring the abundance of sulfur stable isotopes in natural materials, like bacterial cultures, minerals, or seawater, can reveal information about these processes both in the modern environment and over Earth history. (en)
rdfs:label	Sulfur isotope biogeochemistry (en)
owl:sameAs	wikidata:Sulfur isotope biogeochemistry https://global.dbpedia.org/id/C4DgW
prov:wasDerivedFrom	wikipedia-en:Sulfur_isotope_biogeochemistry?oldid=1118282625&ns=0
foaf:depiction	wiki-commons:Special:FilePath/Pyrite_from_Ampliació..._Mine,_Navajún,_La_Rioja,_Spain_2.jpg wiki-commons:Special:FilePath/Assim_Sulfate_Reduction.png wiki-commons:Special:FilePath/Canyon_Diablo_meteorite_(26186838044).jpg wiki-commons:Special:FilePath/Dissimilatory_Sulfate_Reduction.svg wiki-commons:Special:FilePath/EA-IRMS,_isotope_rati...l_sweeteners,_in_CAFIA_laboratory.jpg wiki-commons:Special:FilePath/Natural_sulfur_isotope_range.png wiki-commons:Special:FilePath/Sulfur_cycle_illustration.png wiki-commons:Special:FilePath/Sulfur_isotope_abundance.png
foaf:isPrimaryTopicOf	wikipedia-en:Sulfur_isotope_biogeochemistry
is dbo:wikiPageWikiLink of	dbr:Isotope_geochemistry dbr:Isotopes_of_sulfur dbr:Bioarchaeology dbr:Stable_isotope_composition_of_amino_acids dbr:Xenon_isotope_geochemistry
is foaf:primaryTopic of	wikipedia-en:Sulfur_isotope_biogeochemistry