Landscape variations in stream water SO42- and delta S-34(SO4) in a boreal stream network. Bjorkvald, L., Giesler, R., Laudon, H., Humborg, C., & Morth, C. Geochimica Et Cosmochimica Acta, 73(16):4648–4660, August, 2009. 00000doi abstract bibtex Despite reduced anthropogenic deposition during the last decades, deposition sulphate may still play an important role in the biogeochemical cycles of S and many catchments may act as net sources of S that may remain for several decades. The aim of this study is to elucidate the temporal and spatial dynamics of both SO42- and delta S-34(SO4) in stream water from catchments with varying percentage of wetland and forest coverage and to determine their relative importance for catchment losses of S. Stream water samples were collected from 15 subcatchments ranging in size from 3 to 6780 ha, in a boreal stream network, northern Sweden. In forested catchments (\textless2% wetland cover) S-SO42- concentrations in stream water averaged 1.7 mg L-1 whereas in wetland dominated catchments (\textgreater30% wetland cover) the concentrations averaged 0.3 mg L-1. A significant negative relationship was observed between S-SO42- and percentage wetland coverage (r(2) = 0.77, p \textless 0.001) and the annual export of stream water SO42- and wetland coverage (r(2) = 0.76 p \textless 0.001). The percentage forest coverage was on the other hand positively related to stream water SO42- concentrations and the annual export of stream water SO42- (r(2) = 0.77 and r(2) = 0.79, respectively). The annual average delta S-34(SO4) value in wetland dominated streams was +7.6%omicron. and in streams of forested catchments +6.7%omicron. At spring flood the delta S-34(SO4) values decreased in all streams by 1%omicron to 5%omicron. The delta S-34(SO4) values in all streams were higher than the delta S-34(SO4) value of +4.7%omicron in precipitation (snow). The export of S ranged from 0.5 kg S ha(-1) yr(-1) (wetland headwater stream) to 3.8 kg S ha(-1) yr(-1) (forested headwater stream). With an average S deposition in open field of 1.3 kg S ha(-1) yr(-1) (2002-2006) the mass balance results in a net export of S from all catchments, except in catchments with \textgreater30% wetland. The high temporal and spatial resolution of this study demonstrates that the reducing environments of wetlands play a key role for the biogeochemistry of S in boreal landscapes and are net sinks of S. Forested areas, on the other hand were net sources of S. (C) 2009 Elsevier Ltd. All rights reserved.
@article{bjorkvald_landscape_2009,
title = {Landscape variations in stream water {SO42}- and delta {S}-34({SO4}) in a boreal stream network},
volume = {73},
issn = {0016-7037},
doi = {10.1016/j.gca.2009.05.052},
abstract = {Despite reduced anthropogenic deposition during the last decades, deposition sulphate may still play an important role in the biogeochemical cycles of S and many catchments may act as net sources of S that may remain for several decades. The aim of this study is to elucidate the temporal and spatial dynamics of both SO42- and delta S-34(SO4) in stream water from catchments with varying percentage of wetland and forest coverage and to determine their relative importance for catchment losses of S. Stream water samples were collected from 15 subcatchments ranging in size from 3 to 6780 ha, in a boreal stream network, northern Sweden. In forested catchments ({\textless}2\% wetland cover) S-SO42- concentrations in stream water averaged 1.7 mg L-1 whereas in wetland dominated catchments ({\textgreater}30\% wetland cover) the concentrations averaged 0.3 mg L-1. A significant negative relationship was observed between S-SO42- and percentage wetland coverage (r(2) = 0.77, p {\textless} 0.001) and the annual export of stream water SO42- and wetland coverage (r(2) = 0.76 p {\textless} 0.001). The percentage forest coverage was on the other hand positively related to stream water SO42- concentrations and the annual export of stream water SO42- (r(2) = 0.77 and r(2) = 0.79, respectively). The annual average delta S-34(SO4) value in wetland dominated streams was +7.6\%omicron. and in streams of forested catchments +6.7\%omicron. At spring flood the delta S-34(SO4) values decreased in all streams by 1\%omicron to 5\%omicron. The delta S-34(SO4) values in all streams were higher than the delta S-34(SO4) value of +4.7\%omicron in precipitation (snow). The export of S ranged from 0.5 kg S ha(-1) yr(-1) (wetland headwater stream) to 3.8 kg S ha(-1) yr(-1) (forested headwater stream). With an average S deposition in open field of 1.3 kg S ha(-1) yr(-1) (2002-2006) the mass balance results in a net export of S from all catchments, except in catchments with {\textgreater}30\% wetland. The high temporal and spatial resolution of this study demonstrates that the reducing environments of wetlands play a key role for the biogeochemistry of S in boreal landscapes and are net sinks of S. Forested areas, on the other hand were net sources of S. (C) 2009 Elsevier Ltd. All rights reserved.},
language = {English},
number = {16},
journal = {Geochimica Et Cosmochimica Acta},
author = {Bjorkvald, Louise and Giesler, Reiner and Laudon, Hjalmar and Humborg, Christoph and Morth, Carl-Magnus},
month = aug,
year = {2009},
note = {00000},
keywords = {\#nosource, atmospheric deposition, brook experimental forest, hubbard-brook, long-term, northern sweden, oxygen-isotope ratios, s-isotope, south-central ontario, sulfate deposition, sulfur dynamics},
pages = {4648--4660},
}
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Stream water samples were collected from 15 subcatchments ranging in size from 3 to 6780 ha, in a boreal stream network, northern Sweden. In forested catchments (\\textless2% wetland cover) S-SO42- concentrations in stream water averaged 1.7 mg L-1 whereas in wetland dominated catchments (\\textgreater30% wetland cover) the concentrations averaged 0.3 mg L-1. A significant negative relationship was observed between S-SO42- and percentage wetland coverage (r(2) = 0.77, p \\textless 0.001) and the annual export of stream water SO42- and wetland coverage (r(2) = 0.76 p \\textless 0.001). The percentage forest coverage was on the other hand positively related to stream water SO42- concentrations and the annual export of stream water SO42- (r(2) = 0.77 and r(2) = 0.79, respectively). The annual average delta S-34(SO4) value in wetland dominated streams was +7.6%omicron. and in streams of forested catchments +6.7%omicron. At spring flood the delta S-34(SO4) values decreased in all streams by 1%omicron to 5%omicron. The delta S-34(SO4) values in all streams were higher than the delta S-34(SO4) value of +4.7%omicron in precipitation (snow). The export of S ranged from 0.5 kg S ha(-1) yr(-1) (wetland headwater stream) to 3.8 kg S ha(-1) yr(-1) (forested headwater stream). With an average S deposition in open field of 1.3 kg S ha(-1) yr(-1) (2002-2006) the mass balance results in a net export of S from all catchments, except in catchments with \\textgreater30% wetland. The high temporal and spatial resolution of this study demonstrates that the reducing environments of wetlands play a key role for the biogeochemistry of S in boreal landscapes and are net sinks of S. Forested areas, on the other hand were net sources of S. (C) 2009 Elsevier Ltd. All rights reserved.","language":"English","number":"16","journal":"Geochimica Et Cosmochimica Acta","author":[{"propositions":[],"lastnames":["Bjorkvald"],"firstnames":["Louise"],"suffixes":[]},{"propositions":[],"lastnames":["Giesler"],"firstnames":["Reiner"],"suffixes":[]},{"propositions":[],"lastnames":["Laudon"],"firstnames":["Hjalmar"],"suffixes":[]},{"propositions":[],"lastnames":["Humborg"],"firstnames":["Christoph"],"suffixes":[]},{"propositions":[],"lastnames":["Morth"],"firstnames":["Carl-Magnus"],"suffixes":[]}],"month":"August","year":"2009","note":"00000","keywords":"#nosource, atmospheric deposition, brook experimental forest, hubbard-brook, long-term, northern sweden, oxygen-isotope ratios, s-isotope, south-central ontario, sulfate deposition, sulfur dynamics","pages":"4648–4660","bibtex":"@article{bjorkvald_landscape_2009,\n\ttitle = {Landscape variations in stream water {SO42}- and delta {S}-34({SO4}) in a boreal stream network},\n\tvolume = {73},\n\tissn = {0016-7037},\n\tdoi = {10.1016/j.gca.2009.05.052},\n\tabstract = {Despite reduced anthropogenic deposition during the last decades, deposition sulphate may still play an important role in the biogeochemical cycles of S and many catchments may act as net sources of S that may remain for several decades. The aim of this study is to elucidate the temporal and spatial dynamics of both SO42- and delta S-34(SO4) in stream water from catchments with varying percentage of wetland and forest coverage and to determine their relative importance for catchment losses of S. Stream water samples were collected from 15 subcatchments ranging in size from 3 to 6780 ha, in a boreal stream network, northern Sweden. In forested catchments ({\\textless}2\\% wetland cover) S-SO42- concentrations in stream water averaged 1.7 mg L-1 whereas in wetland dominated catchments ({\\textgreater}30\\% wetland cover) the concentrations averaged 0.3 mg L-1. A significant negative relationship was observed between S-SO42- and percentage wetland coverage (r(2) = 0.77, p {\\textless} 0.001) and the annual export of stream water SO42- and wetland coverage (r(2) = 0.76 p {\\textless} 0.001). The percentage forest coverage was on the other hand positively related to stream water SO42- concentrations and the annual export of stream water SO42- (r(2) = 0.77 and r(2) = 0.79, respectively). The annual average delta S-34(SO4) value in wetland dominated streams was +7.6\\%omicron. and in streams of forested catchments +6.7\\%omicron. At spring flood the delta S-34(SO4) values decreased in all streams by 1\\%omicron to 5\\%omicron. The delta S-34(SO4) values in all streams were higher than the delta S-34(SO4) value of +4.7\\%omicron in precipitation (snow). The export of S ranged from 0.5 kg S ha(-1) yr(-1) (wetland headwater stream) to 3.8 kg S ha(-1) yr(-1) (forested headwater stream). With an average S deposition in open field of 1.3 kg S ha(-1) yr(-1) (2002-2006) the mass balance results in a net export of S from all catchments, except in catchments with {\\textgreater}30\\% wetland. The high temporal and spatial resolution of this study demonstrates that the reducing environments of wetlands play a key role for the biogeochemistry of S in boreal landscapes and are net sinks of S. Forested areas, on the other hand were net sources of S. (C) 2009 Elsevier Ltd. 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