Potential Impacts of Climate Change on Hood Canal Hypoxia
31 pages Puget Sound can be found nestled in the northwestern corner of the United States. Puget Sound is the only home I have ever known. It is a place of expansive natural heritage with its evergreen forests, mountain ranges, rocky coastlines, rivers, and waterfalls. With this myriad of habitats,...
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University of Oregon
2015
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| Online Access: | http://hdl.handle.net/1794/22019 |
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ftunivoregonsb:oai:scholarsbank.uoregon.edu:1794/22019 |
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ftunivoregonsb:oai:scholarsbank.uoregon.edu:1794/22019 2023-05-15T17:52:07+02:00 Potential Impacts of Climate Change on Hood Canal Hypoxia Schandl, Maria 2015 application/pdf http://hdl.handle.net/1794/22019 en_US eng University of Oregon http://hdl.handle.net/1794/22019 Creative Commons BY-NC-ND 4.0-US CC-BY-NC-ND Hypoxia Puget Sound Hood Canal Human impacts Ocean acidification Snowmelt Streamflow Sea level Salinity Thesis / Dissertation 2015 ftunivoregonsb 2022-12-19T13:53:58Z 31 pages Puget Sound can be found nestled in the northwestern corner of the United States. Puget Sound is the only home I have ever known. It is a place of expansive natural heritage with its evergreen forests, mountain ranges, rocky coastlines, rivers, and waterfalls. With this myriad of habitats, Puget Sound sustains thousands of wildlife species. However, the human impact is encroaching on the Sound and the natural processes that occur in the region. Over the past two centuries, human activities such as land clearance and fossil fuel burning have spurred an altered global climatic regime for the 21st century. Model forecasts suggest that global climate change will spur increases in ocean temperature and sea level as well as changes in freshwater flow magnitude and timing. Models also suggest that these changes in physical processes will impact biological processes. In particular, primary production in marine settings is expected to increase (Rabalais et al., 2009). This means that phytoplankton populations will expand, potentially leading to intensified hypoxia occurrences both in frequency and scope. Hood Canal is one of the multiple estuaries that comprise the Sound. I have chosen to focus exclusively on Hood Canal when available data exists because this region of the Sound experiences the most intense hypoxic conditions relative to the Sound’s other estuaries. Estuaries can be characterized as areas where fresh river flows meet ocean waters (Newton, 2003). Some data and information discussed is specific to Puget Sound as a whole rather than exclusively to Hood Canal. I include data and/or analyses specific to the broader context of Puget Sound since this is the existing data most closely related to Hood Canal when Hood Canalspecific data is unavailable and/or nonexistent. Additionally, an information gap exists in terms of the future Schandl 3 outlook of Hood Canal hypoxia. There is a lack of quantitative projections of the frequency and magnitude of Hood Canal hypoxia. Past and current studies have yet ... Other/Unknown Material Ocean acidification University of Oregon Scholars' Bank |
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Open Polar |
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University of Oregon Scholars' Bank |
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ftunivoregonsb |
| language |
English |
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Hypoxia Puget Sound Hood Canal Human impacts Ocean acidification Snowmelt Streamflow Sea level Salinity |
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Hypoxia Puget Sound Hood Canal Human impacts Ocean acidification Snowmelt Streamflow Sea level Salinity Schandl, Maria Potential Impacts of Climate Change on Hood Canal Hypoxia |
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Hypoxia Puget Sound Hood Canal Human impacts Ocean acidification Snowmelt Streamflow Sea level Salinity |
| description |
31 pages Puget Sound can be found nestled in the northwestern corner of the United States. Puget Sound is the only home I have ever known. It is a place of expansive natural heritage with its evergreen forests, mountain ranges, rocky coastlines, rivers, and waterfalls. With this myriad of habitats, Puget Sound sustains thousands of wildlife species. However, the human impact is encroaching on the Sound and the natural processes that occur in the region. Over the past two centuries, human activities such as land clearance and fossil fuel burning have spurred an altered global climatic regime for the 21st century. Model forecasts suggest that global climate change will spur increases in ocean temperature and sea level as well as changes in freshwater flow magnitude and timing. Models also suggest that these changes in physical processes will impact biological processes. In particular, primary production in marine settings is expected to increase (Rabalais et al., 2009). This means that phytoplankton populations will expand, potentially leading to intensified hypoxia occurrences both in frequency and scope. Hood Canal is one of the multiple estuaries that comprise the Sound. I have chosen to focus exclusively on Hood Canal when available data exists because this region of the Sound experiences the most intense hypoxic conditions relative to the Sound’s other estuaries. Estuaries can be characterized as areas where fresh river flows meet ocean waters (Newton, 2003). Some data and information discussed is specific to Puget Sound as a whole rather than exclusively to Hood Canal. I include data and/or analyses specific to the broader context of Puget Sound since this is the existing data most closely related to Hood Canal when Hood Canalspecific data is unavailable and/or nonexistent. Additionally, an information gap exists in terms of the future Schandl 3 outlook of Hood Canal hypoxia. There is a lack of quantitative projections of the frequency and magnitude of Hood Canal hypoxia. Past and current studies have yet ... |
| format |
Other/Unknown Material |
| author |
Schandl, Maria |
| author_facet |
Schandl, Maria |
| author_sort |
Schandl, Maria |
| title |
Potential Impacts of Climate Change on Hood Canal Hypoxia |
| title_short |
Potential Impacts of Climate Change on Hood Canal Hypoxia |
| title_full |
Potential Impacts of Climate Change on Hood Canal Hypoxia |
| title_fullStr |
Potential Impacts of Climate Change on Hood Canal Hypoxia |
| title_full_unstemmed |
Potential Impacts of Climate Change on Hood Canal Hypoxia |
| title_sort |
potential impacts of climate change on hood canal hypoxia |
| publisher |
University of Oregon |
| publishDate |
2015 |
| url |
http://hdl.handle.net/1794/22019 |
| genre |
Ocean acidification |
| genre_facet |
Ocean acidification |
| op_relation |
http://hdl.handle.net/1794/22019 |
| op_rights |
Creative Commons BY-NC-ND 4.0-US |
| op_rightsnorm |
CC-BY-NC-ND |
| _version_ |
1766159458434547712 |