Quantification of submarine/intertidal groundwater discharge and nutrient loading from a lowland karst catchment

Citation

Material Information

Title:
Quantification of submarine/intertidal groundwater discharge and nutrient loading from a lowland karst catchment
Series Title:
Journal of Hydrology
Creator:
McCormack, T.
Gill, L. W.
Naughton, O.
Johnston, P.M.
Publication Date:
Language:
English

Subjects

Subjects / Keywords:
Submarine Groundwater Discharge ( local )
Karst ( local )
Modelling ( local )
Salinity ( local )
Nutrient Loading ( local )
Ireland ( local )
Genre:
serial ( sobekcm )

Notes

Abstract:
Submarine groundwater discharge (SGD) is now recognised to be a process of significant importance to coastal systems and is of increasing interest within oceanographic and hydrologic research communities. However, due to the inherent difficulty of measuring SGD accurately, its quantification at any particular location is a relatively slow process often involving multiple labour intensive methods. In this paper, the SGD occurring at Kinvara Bay, the outlet of a lowland karst catchment in Western Ireland, is estimated using a hydrological model of the karst aquifer and then further verified by means of a relatively simple salinity survey. Discharge at Kinvara predominantly occurs via two springs, Kinvara West (KW) which serves as the outlet of a major, primarily allogenically fed, karst conduit network and Kinvara East (KE) which discharges water from more diffuse/autogenic sources. Discharge from these springs occurs intertidally and as such, their flow rates cannot be measured using traditional methods. Using the hydrological model, flow rates from KW were seen to vary between 5 and 16 m3/s with a mean value of 8.7 m3/s. Through hydrochemical analysis, this estimated discharge was found to be supplemented by an additional 14–18% via sources not accounted for by the model. Mean discharge at KE was also estimated as approximately 2 m3/s, thus the total mean discharge from both Kinvara Springs was determined to be 11.9–12.3 m3/s. Overall, the range of discharge was found to be lower than previous studies have estimated (as these studies had no means of quantifying attenuation within the conduit network). Combining this discharge with nutrient concentrations from the springs, the nutrient loading from the springs into the bay was estimated as 1230 kg/day N and 24.3 kg/day P. This research illustrates the benefits of a numerical modelling approach to the quantification of SGD when used in the appropriate hydrological scenario.
Original Version:
Journal of Hydrology, Vol. 519, no. Part B (2014-11-27).

Record Information

Source Institution:
University of South Florida Library
Holding Location:
University of South Florida
Rights Management:
This object is protected by copyright, and is made available here for research and educational purposes. Permission to reuse, publish, or reproduce the object beyond the bounds of Fair Use or other exemptions to copyright law must be obtained from the copyright holder.

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