Streaming Media
Presentation Abstract
Nutrient levels in an estuarine environment vary widely over geography and various input source points. They are important in understanding the overall health of an ecosystem due to their impact on primary production. The combined effects of seasonal changes, tidal patterns, and local manmade nutrient sources can cause nutrient levels in an estuary to vary. Unnaturally high nutrient levels can affect other water chemistry variables, and contribute to events such as harmful algal blooms, hypoxia, and ocean acidification. This study presents 13 years of nutrient data and analysis from three different sites in Possession Sound. Each site was analyzed for nutrients levels, chiefly nitrate values measured at the surface, but also including phosphates, nitrites, ammonium, and silicates. Figures isolating individual correlations, such as season, site, depth, and river discharge were analyzed to understand the nutrient dynamic within the wider ecosystem. Early analysis indicates that seasons play a large role in nutrient levels, likely due to the weather of the Pacific Northwest and runoff from the Snohomish River. Studies of this type can provide insight about specific characteristics of our local nutrient pathways and can provide context for changes in our ecosystem. For further research, oceanic parameters such as pH levels and plankton densities should be analyzed in comparison to nutrients in order to gain a better understanding of the relative impact of nutrient levels.
Session Title
Poster Session 3: Land - Water Connections
Conference Track
SSE14: Posters
Conference Name
Salish Sea Ecosystem Conference (2022 : Online)
Document Type
Event
SSEC Identifier
SSE-posters-63
Start Date
27-4-2022 4:00 PM
End Date
27-4-2022 4:30 PM
Type of Presentation
Poster
Genre/Form
conference proceedings; presentations (communicative events)
Contributing Repository
Digital content made available by University Archives, Heritage Resources, Western Libraries, Western Washington University.
Subjects – Topical (LCSH)
Nutrient cycles--Washington (State)--Possession Sound; Estuarine health--Washington (State)--Possession Sound; Stream measurements--Washington (State)--Possession Sound
Geographic Coverage
Salish Sea (B.C. and Wash.); Possession Sound (Wash.)
Rights
Copying of this document in whole or in part is allowable only for scholarly purposes. It is understood, however, that any copying or publication of this document for commercial purposes, or for financial gain, shall not be allowed without the author's written permission.
Type
Text
Language
English
Format
application/pdf
Included in
Fresh Water Studies Commons, Marine Biology Commons, Natural Resources and Conservation Commons, Terrestrial and Aquatic Ecology Commons
A 13-year temporal and spatial analysis of nutrient levels in Possession Sound and their seasonal relationship with river discharge
Nutrient levels in an estuarine environment vary widely over geography and various input source points. They are important in understanding the overall health of an ecosystem due to their impact on primary production. The combined effects of seasonal changes, tidal patterns, and local manmade nutrient sources can cause nutrient levels in an estuary to vary. Unnaturally high nutrient levels can affect other water chemistry variables, and contribute to events such as harmful algal blooms, hypoxia, and ocean acidification. This study presents 13 years of nutrient data and analysis from three different sites in Possession Sound. Each site was analyzed for nutrients levels, chiefly nitrate values measured at the surface, but also including phosphates, nitrites, ammonium, and silicates. Figures isolating individual correlations, such as season, site, depth, and river discharge were analyzed to understand the nutrient dynamic within the wider ecosystem. Early analysis indicates that seasons play a large role in nutrient levels, likely due to the weather of the Pacific Northwest and runoff from the Snohomish River. Studies of this type can provide insight about specific characteristics of our local nutrient pathways and can provide context for changes in our ecosystem. For further research, oceanic parameters such as pH levels and plankton densities should be analyzed in comparison to nutrients in order to gain a better understanding of the relative impact of nutrient levels.
