Sources of stream water sulfate during the spring snowmelt in boreal streams: Evidence from δ34S isotope measurements. Mörth, C., Laudon, H., Mellqvist, E., Torssander, P., & Giesler, R. Journal of Geophysical Research: Biogeosciences, 113(G1):G01005, March, 2008. ![Sources of stream water sulfate during the spring snowmelt in boreal streams: Evidence from δ34S isotope measurements [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper doi abstract bibtex Episodic hydrological events, such as snowmelt during spring, have a marked effect on stream water chemistry. Here we investigated how spring snowmelt affected δ34S values of sulfate in six streams situated in northern Sweden. Four streams had high δ34SSO4 values during base flow with values ranging from +11.9 to +8.6‰. During snowmelt the δ34SSO4 decreased to around +6‰. In one of the streams and in the forested upper reaches of a second stream, δ34SSO4 values were close to +5‰ during base flow and decreased to about +3.8‰ during the spring snowmelt. One stream, which drained cultivated postglacial sediments dominated by acid sulfuric soils, was differentiated from the other streams by low δ34SSO4 values (−5.0‰ to −0.5‰). We could identify two stream water SO4 sources: sedimentary sulfides and anthropogenic S. Bacterial dissimilatory sulfate reduction was identified as an important process affecting stream water δ34SSO4 values and suggests that in this boreal landscape, peatlands and possibly riparian zones have a large influence on the biogeochemistry of SO42− during base flow conditions. Our results suggest that during the spring snowmelt, snow S and desorbing SO4 of mainly anthropogenic origin are the two major S sources in four of the investigated streams. Two streams in forested areas also indicate that reoxidation of reduced S may be released during the spring flood. The stream in the cultivated area was found to be strongly influenced by the acid sulfuric soils independent of stream flow conditions.
@article{morth_sources_2008,
title = {Sources of stream water sulfate during the spring snowmelt in boreal streams: {Evidence} from δ{34S} isotope measurements},
volume = {113},
issn = {2156-2202},
shorttitle = {Sources of stream water sulfate during the spring snowmelt in boreal streams},
url = {http://onlinelibrary.wiley.com/doi/10.1029/2007JG000457/abstract},
doi = {10.1029/2007JG000457},
abstract = {Episodic hydrological events, such as snowmelt during spring, have a marked effect on stream water chemistry. Here we investigated how spring snowmelt affected δ34S values of sulfate in six streams situated in northern Sweden. Four streams had high δ34SSO4 values during base flow with values ranging from +11.9 to +8.6‰. During snowmelt the δ34SSO4 decreased to around +6‰. In one of the streams and in the forested upper reaches of a second stream, δ34SSO4 values were close to +5‰ during base flow and decreased to about +3.8‰ during the spring snowmelt. One stream, which drained cultivated postglacial sediments dominated by acid sulfuric soils, was differentiated from the other streams by low δ34SSO4 values (−5.0‰ to −0.5‰). We could identify two stream water SO4 sources: sedimentary sulfides and anthropogenic S. Bacterial dissimilatory sulfate reduction was identified as an important process affecting stream water δ34SSO4 values and suggests that in this boreal landscape, peatlands and possibly riparian zones have a large influence on the biogeochemistry of SO42− during base flow conditions. Our results suggest that during the spring snowmelt, snow S and desorbing SO4 of mainly anthropogenic origin are the two major S sources in four of the investigated streams. Two streams in forested areas also indicate that reoxidation of reduced S may be released during the spring flood. The stream in the cultivated area was found to be strongly influenced by the acid sulfuric soils independent of stream flow conditions.},
language = {en},
number = {G1},
urldate = {2017-02-07},
journal = {Journal of Geophysical Research: Biogeosciences},
author = {Mörth, Carl-Magnus and Laudon, Hjalmar and Mellqvist, Elin and Torssander, Peter and Giesler, Reiner},
month = mar,
year = {2008},
keywords = {\#nosource, Biogeochemical cycles, processes, and modeling, Catchment, Chemistry of fresh water, Stable isotope geochemistry, Sulfur cycling, boreal, spring snowmelt, stream water, sulfate, sulfur isotopes},
pages = {G01005},
}
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Four streams had high δ34SSO4 values during base flow with values ranging from +11.9 to +8.6‰. During snowmelt the δ34SSO4 decreased to around +6‰. In one of the streams and in the forested upper reaches of a second stream, δ34SSO4 values were close to +5‰ during base flow and decreased to about +3.8‰ during the spring snowmelt. One stream, which drained cultivated postglacial sediments dominated by acid sulfuric soils, was differentiated from the other streams by low δ34SSO4 values (−5.0‰ to −0.5‰). We could identify two stream water SO4 sources: sedimentary sulfides and anthropogenic S. Bacterial dissimilatory sulfate reduction was identified as an important process affecting stream water δ34SSO4 values and suggests that in this boreal landscape, peatlands and possibly riparian zones have a large influence on the biogeochemistry of SO42− during base flow conditions. Our results suggest that during the spring snowmelt, snow S and desorbing SO4 of mainly anthropogenic origin are the two major S sources in four of the investigated streams. Two streams in forested areas also indicate that reoxidation of reduced S may be released during the spring flood. The stream in the cultivated area was found to be strongly influenced by the acid sulfuric soils independent of stream flow conditions.","language":"en","number":"G1","urldate":"2017-02-07","journal":"Journal of Geophysical Research: Biogeosciences","author":[{"propositions":[],"lastnames":["Mörth"],"firstnames":["Carl-Magnus"],"suffixes":[]},{"propositions":[],"lastnames":["Laudon"],"firstnames":["Hjalmar"],"suffixes":[]},{"propositions":[],"lastnames":["Mellqvist"],"firstnames":["Elin"],"suffixes":[]},{"propositions":[],"lastnames":["Torssander"],"firstnames":["Peter"],"suffixes":[]},{"propositions":[],"lastnames":["Giesler"],"firstnames":["Reiner"],"suffixes":[]}],"month":"March","year":"2008","keywords":"#nosource, Biogeochemical cycles, processes, and modeling, Catchment, Chemistry of fresh water, Stable isotope geochemistry, Sulfur cycling, boreal, spring snowmelt, stream water, sulfate, sulfur isotopes","pages":"G01005","bibtex":"@article{morth_sources_2008,\n\ttitle = {Sources of stream water sulfate during the spring snowmelt in boreal streams: {Evidence} from δ{34S} isotope measurements},\n\tvolume = {113},\n\tissn = {2156-2202},\n\tshorttitle = {Sources of stream water sulfate during the spring snowmelt in boreal streams},\n\turl = {http://onlinelibrary.wiley.com/doi/10.1029/2007JG000457/abstract},\n\tdoi = {10.1029/2007JG000457},\n\tabstract = {Episodic hydrological events, such as snowmelt during spring, have a marked effect on stream water chemistry. 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