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Dissolved organic matter export from a forested watershed during Hurricane Irene
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| Zeitschriftentitel: | Geophysical Research Letters |
|---|---|
| Personen und Körperschaften: | , |
| In: | Geophysical Research Letters, 39, 2012, 18 |
| Format: | E-Article |
| Sprache: | Englisch |
| veröffentlicht: |
American Geophysical Union (AGU)
|
| Schlagwörter: |
| author_facet |
Yoon, Byungman Raymond, Peter A. Yoon, Byungman Raymond, Peter A. |
|---|---|
| author |
Yoon, Byungman Raymond, Peter A. |
| spellingShingle |
Yoon, Byungman Raymond, Peter A. Geophysical Research Letters Dissolved organic matter export from a forested watershed during Hurricane Irene General Earth and Planetary Sciences Geophysics |
| author_sort |
yoon, byungman |
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Yoon, Byungman Raymond, Peter A. 0094-8276 1944-8007 American Geophysical Union (AGU) General Earth and Planetary Sciences Geophysics http://dx.doi.org/10.1029/2012gl052785 <jats:p>We incorporate high‐resolution time‐series data to calculate the total amount of dissolved organic carbon (DOC) and dissolved organic nitrogen (DON) transported during Hurricane Irene in Esopus Creek in New York (August 2011). During this 200‐yr event the Esopus Creek experienced a 330‐fold discharge increase and a 4‐fold increase in concentration, resulting in the export of roughly 43% and 31% of its average annual DOC and DON fluxes, respectively, in just 5 days. The source of this large dissolved organic matter (DOM) flux also shifted during its course and showed an increased contribution of aromatic organic matter. We conclude that more frequent large events due to climate change will increase the export of terrigenous dissolved organic matter, and potentially impact the water quality and biogeochemistry of lakes and coastal systems. In addition, we show that the use of conventional models for extreme events lead to erroneous flux calculations, unless supported by high resolution data collected during the events.</jats:p> Dissolved organic matter export from a forested watershed during Hurricane Irene Geophysical Research Letters |
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| title |
Dissolved organic matter export from a forested watershed during Hurricane Irene |
| title_unstemmed |
Dissolved organic matter export from a forested watershed during Hurricane Irene |
| title_full |
Dissolved organic matter export from a forested watershed during Hurricane Irene |
| title_fullStr |
Dissolved organic matter export from a forested watershed during Hurricane Irene |
| title_full_unstemmed |
Dissolved organic matter export from a forested watershed during Hurricane Irene |
| title_short |
Dissolved organic matter export from a forested watershed during Hurricane Irene |
| title_sort |
dissolved organic matter export from a forested watershed during hurricane irene |
| topic |
General Earth and Planetary Sciences Geophysics |
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http://dx.doi.org/10.1029/2012gl052785 |
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2012 |
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<jats:p>We incorporate high‐resolution time‐series data to calculate the total amount of dissolved organic carbon (DOC) and dissolved organic nitrogen (DON) transported during Hurricane Irene in Esopus Creek in New York (August 2011). During this 200‐yr event the Esopus Creek experienced a 330‐fold discharge increase and a 4‐fold increase in concentration, resulting in the export of roughly 43% and 31% of its average annual DOC and DON fluxes, respectively, in just 5 days. The source of this large dissolved organic matter (DOM) flux also shifted during its course and showed an increased contribution of aromatic organic matter. We conclude that more frequent large events due to climate change will increase the export of terrigenous dissolved organic matter, and potentially impact the water quality and biogeochemistry of lakes and coastal systems. In addition, we show that the use of conventional models for extreme events lead to erroneous flux calculations, unless supported by high resolution data collected during the events.</jats:p> |
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| author | Yoon, Byungman, Raymond, Peter A. |
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| description | <jats:p>We incorporate high‐resolution time‐series data to calculate the total amount of dissolved organic carbon (DOC) and dissolved organic nitrogen (DON) transported during Hurricane Irene in Esopus Creek in New York (August 2011). During this 200‐yr event the Esopus Creek experienced a 330‐fold discharge increase and a 4‐fold increase in concentration, resulting in the export of roughly 43% and 31% of its average annual DOC and DON fluxes, respectively, in just 5 days. The source of this large dissolved organic matter (DOM) flux also shifted during its course and showed an increased contribution of aromatic organic matter. We conclude that more frequent large events due to climate change will increase the export of terrigenous dissolved organic matter, and potentially impact the water quality and biogeochemistry of lakes and coastal systems. In addition, we show that the use of conventional models for extreme events lead to erroneous flux calculations, unless supported by high resolution data collected during the events.</jats:p> |
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| series | Geophysical Research Letters |
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| spelling | Yoon, Byungman Raymond, Peter A. 0094-8276 1944-8007 American Geophysical Union (AGU) General Earth and Planetary Sciences Geophysics http://dx.doi.org/10.1029/2012gl052785 <jats:p>We incorporate high‐resolution time‐series data to calculate the total amount of dissolved organic carbon (DOC) and dissolved organic nitrogen (DON) transported during Hurricane Irene in Esopus Creek in New York (August 2011). During this 200‐yr event the Esopus Creek experienced a 330‐fold discharge increase and a 4‐fold increase in concentration, resulting in the export of roughly 43% and 31% of its average annual DOC and DON fluxes, respectively, in just 5 days. The source of this large dissolved organic matter (DOM) flux also shifted during its course and showed an increased contribution of aromatic organic matter. We conclude that more frequent large events due to climate change will increase the export of terrigenous dissolved organic matter, and potentially impact the water quality and biogeochemistry of lakes and coastal systems. In addition, we show that the use of conventional models for extreme events lead to erroneous flux calculations, unless supported by high resolution data collected during the events.</jats:p> Dissolved organic matter export from a forested watershed during Hurricane Irene Geophysical Research Letters |
| spellingShingle | Yoon, Byungman, Raymond, Peter A., Geophysical Research Letters, Dissolved organic matter export from a forested watershed during Hurricane Irene, General Earth and Planetary Sciences, Geophysics |
| title | Dissolved organic matter export from a forested watershed during Hurricane Irene |
| title_full | Dissolved organic matter export from a forested watershed during Hurricane Irene |
| title_fullStr | Dissolved organic matter export from a forested watershed during Hurricane Irene |
| title_full_unstemmed | Dissolved organic matter export from a forested watershed during Hurricane Irene |
| title_short | Dissolved organic matter export from a forested watershed during Hurricane Irene |
| title_sort | dissolved organic matter export from a forested watershed during hurricane irene |
| title_unstemmed | Dissolved organic matter export from a forested watershed during Hurricane Irene |
| topic | General Earth and Planetary Sciences, Geophysics |
| url | http://dx.doi.org/10.1029/2012gl052785 |