Water diversion structures and river discharge dictate salinity dynamics on tidal flats of the Fraser River delta, British Columbia
Water diversion structures and river discharge dictate salinity dynamics on tidal flats of the Fraser River delta, British Columbia
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Full item details
- dc.contributor.author
- Drever, Mark C.
- Douglas, Tristan J.
- Domalik, Alice D.
- Balke, Eric
- Scott, David C.
- Johnson, Mark S.
- Gurd, D. Brent
- dc.date.accepted
- 2023-07-13
- dc.date.accessioned
- 2024-06-26T15:38:11Z
- dc.date.available
- 2024-06-26T15:38:11Z
- dc.date.issued
- 2023-09-30
- dc.date.submitted
- 2022-07-25
- dc.description.abstract - en
- Salinity in estuaries affects numerous ecological processes, and is strongly driven by river outflow interacting with the tide. We used an exponential decay function to model the relationship between salinity and freshwater flow (i.e., river discharge) to characterize and map salinity dynamics over the tidal flats of the Fraser River delta, British Columbia, Canada. The model has three parameters: the horizontal asymptote <i>Asym</i> that represents the average weekly salinity at very high river flows; the theoretical intercept <i>R<sub>0</sub></i> that represents salinity conditions during very low river flows; and the natural log of the rate constant <i>lrc</i> that reflects the relationship between river discharge into the estuary and resultant average salinity. Using data from 47 salinity-monitoring stations deployed from 2015 to 2021, we found that Fraser River discharge had a strong and inverse relationship with average weekly salinity on the outlying tidal mudflats, which is expressed by the <i>lrc</i> value of -8.56. Model estimates indicate that weekly salinity (on the Practical Salinity Scale) at very low discharge rates (<i>R<sub>0</sub></i>) had a value of 22.4, which decreased at high discharge rates (<i>Asym</i>) to a value of 3.7. This predictable decrease in salinity for increasing river discharge means that the salinity regime of the Fraser River delta tidal flats is poikilohaline, and undergoes a regular and biologically relevant transition from brackish to nearly fresh water as the river outflow increases and abates seasonally. The resulting spatial gradients in salinity dynamics were associated with distance to river outflows and existing water diversion structures (i.e., jetties and causeways), meaning the timing and extent of this transition varied across the tidal flats. As estuaries become increasingly modified by coastal development and climate change, this simple model can be used to evaluate management interventions and river discharge scenarios that affect salinity gradients over tidal flats.
- dc.identifier.issn
- 1096-0015
- 0272-7714
- dc.identifier.uri
- https://open-science.canada.ca/handle/123456789/2639
- dc.language.iso
- en
- dc.publisher
- Elsevier
- dc.relation.isreplacedby
- https://doi.org/10.1016/j.ecss.2023.108436
- dc.rights - en
- Open Government Licence - Canada
- dc.rights - fr
- Licence du gouvernement ouvert - Canada
- dc.rights.openaccesslevel - en
- Green
- dc.rights.openaccesslevel - fr
- Vert
- dc.rights.uri - en
- https://open.canada.ca/en/open-government-licence-canada
- dc.rights.uri - fr
- https://ouvert.canada.ca/fr/licence-du-gouvernement-ouvert-canada
- dc.subject - en
- Nature and environment
- Science and technology
- dc.subject - fr
- Nature et environnement
- Sciences et technologie
- dc.subject.en - en
- Nature and environment
- Science and technology
- dc.subject.fr - fr
- Nature et environnement
- Sciences et technologie
- dc.title - en
- Water diversion structures and river discharge dictate salinity dynamics on tidal flats of the Fraser River delta, British Columbia
- dc.type - en
- Submitted manuscript
- dc.type - fr
- Manuscrit soumis
- local.acceptedmanuscript.articlenum
- 108436
- local.article.journaltitle
- Estuarine, Coastal and Shelf Science
- local.article.journalvolume
- 291
- local.pagination
- 38 pages
- local.peerreview - en
- No
- local.peerreview - fr
- Non
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