Simulation of submarine groundwater discharge salinity and temperature variations: Implications for remote detection
By: A.M. Dausman, C.D. Langevin, and M.C. Sukop
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Abstract
A hydrological analysis using a numerical simulation was done to identify the transient response of the salinity and temperature of submarine groundwater discharge (SGD) and utilize the results to guide data collection. Results indicate that the amount of SGD fluctuates depending on the ocean stage and geology, with the greatest amount of SGD delivered at low tide when the aquifer is in direct hydraulic contact with the ocean. The salinity of SGD remains lower than the ocean throughout the year; however, the salinity difference between the aquifer and ocean is inversely proportional to the ocean stage. The temperature difference between the ocean and SGD fluctuates seasonally, with the greatest temperature differences occurring in summer and winter. The outcome of this research reveals that numerical modelling could potentially be used to guide data collection including aerial surveys using electromagnetic (EM) resistivity and thermal imagery.
| Publication type | Conference Paper |
|---|---|
| Publication Subtype | Conference Paper |
| Title | Simulation of submarine groundwater discharge salinity and temperature variations: Implications for remote detection |
| ISBN | 9781901502046 |
| Issue | 312 |
| Year Published | 2007 |
| Language | English |
| Larger Work Title | IAHS-AISH Publication |
| First page | 272 |
| Last page | 280 |
| Conference Title | International Symposium: A New Focus on Groundwater - Seawater Interactions - 24th General Assembly of the In |
| Conference Location | Perugia |
| Conference Date | 2 July 2007 through 13 July 2007 |
| Google Analytic Metrics | Metrics page |