{"_id":"2R3qdoEnef6EdeDAA","bibbaseid":"fitzgerald-formationoforganicsulfurinforestsoilsabiologicallymediatedprocess-1983","downloads":0,"creationDate":"2018-08-10T13:53:08.493Z","title":"Formation of organic sulfur in forest soils: a biologically mediated process.","author_short":["Fitzgerald, J. W."],"year":1983,"bibtype":"article","biburl":"https://utexas.box.com/shared/static/1aa39ptglchcfuw9c04ozm0pqjlxu4rw.bib","bibdata":{"bibtype":"article","type":"article","title":"Formation of organic sulfur in forest soils: a biologically mediated process.","volume":"13","url":"http://cwt33.ecology.uga.edu/publications/998.pdf","abstract":"The ability of forest soils to incorporate sulfur from added inorganic sulfate into salt-extractable and non salt-extractable forms was investigated. At least 65 percent of the added sulfate was adsorbed while 8 to 27 percent of the sulfate added was recovered only after treatment of salt-extracted samples with acid and base. The incorporation of sulfur into this latter fraction was incubation time, temperature and depth dependent, and exhibited both spatial as well as seasonal variation in samples taken along a transect of one of the watersheds. Sulfur incorporation was inhibited by sodium azide, erythromycin and candicidin, suggesting that the incorporation of sulfur into the non salt-extractable fraction is mediated by bacteria and fungi.","journal":"Canadian Journal of Forest Research","author":[{"propositions":[],"lastnames":["Fitzgerald"],"firstnames":["J.","W."],"suffixes":[]}],"year":"1983","keywords":"CWT","bibtex":"@article{fitzgerald_formation_1983,\n\ttitle = {Formation of organic sulfur in forest soils: a biologically mediated process.},\n\tvolume = {13},\n\turl = {http://cwt33.ecology.uga.edu/publications/998.pdf},\n\tabstract = {The ability of forest soils to incorporate sulfur from added inorganic sulfate into salt-extractable and non salt-extractable forms was investigated. At least 65 percent of the added sulfate was adsorbed while 8 to 27 percent of the sulfate added was recovered only after treatment of salt-extracted samples with acid and base. The incorporation of sulfur into this latter fraction was incubation time, temperature and depth dependent, and exhibited both spatial as well as seasonal variation in samples taken along a transect of one of the watersheds. Sulfur incorporation was inhibited by sodium azide, erythromycin and candicidin, suggesting that the incorporation of sulfur into the non salt-extractable fraction is mediated by bacteria and fungi.},\n\tjournal = {Canadian Journal of Forest Research},\n\tauthor = {Fitzgerald, J. W.},\n\tyear = {1983},\n\tkeywords = {CWT}\n}\n\n","author_short":["Fitzgerald, J. W."],"key":"fitzgerald_formation_1983","id":"fitzgerald_formation_1983","bibbaseid":"fitzgerald-formationoforganicsulfurinforestsoilsabiologicallymediatedprocess-1983","role":"author","urls":{"Paper":"http://cwt33.ecology.uga.edu/publications/998.pdf"},"keyword":["CWT"],"downloads":0},"search_terms":["formation","organic","sulfur","forest","soils","biologically","mediated","process","fitzgerald"],"keywords":["cwt"],"authorIDs":[],"dataSources":["gCjo799mKWJtJmSdX"]}