Assessing impacts of climate change, sea level rise, and drainage canals on saltwater intrusion to coastal aquifer

Rasmussen, Per; Sonnenborg, Torben O.; Goncear, G.; Hinsby, Klaus

doi:10.5194/hessd-9-7969-2012

Cited by 6 publications

(2 citation statements)

References 47 publications

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“…Climate changes are expected to adversely affect this balance in future and decrease the potential freshwater supply by salinisation although increasing precipitation on the island will partly counteract this development. A similar result was obtained by numerical simulations on a small island in the Baltic Sea (Rasmussen et al, 2012).…”

Section: Geological Background and Groundwater Situationsupporting

confidence: 73%

Numerical modelling of climate change impacts on freshwater lenses on the North Sea Island of Borkum using hydrological and geophysical methods

Sulzbacher

Wiederhold

Siemon

et al. 2012

Hydrol. Earth Syst. Sci.

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Abstract.A numerical, density dependent groundwater model is set up for the North Sea Island of Borkum to estimate climate change impacts on coastal aquifers and especially the situation of barrier islands in the Wadden Sea. The database includes information from boreholes, a seismic survey, a helicopter-borne electromagnetic (HEM) survey, monitoring of the freshwater-saltwater boundary by vertical electrode chains in two boreholes, measurements of groundwater table, pumping and slug tests, as well as water samples. Based on a statistical analysis of borehole columns, seismic sections and HEM, a hydrogeological model is set up. The groundwater model is developed using the finite-element programme FEFLOW. The density dependent groundwater model is calibrated on the basis of hydraulic, hydrological and geophysical data, in particular spatial HEM and local monitoring data. Verification runs with the calibrated model show good agreement between measured and computed hydraulic heads. A good agreement is also obtained between measured and computed density or total dissolved solids data for both the entire freshwater lens on a large scale and in the area of the well fields on a small scale.For simulating future changes in this coastal groundwater system until the end of the current century, we use the climate scenario A2, specified by the Intergovernmental Panel on Climate Change and, in particular, the data for the German North Sea coast. Simulation runs show proceeding salinisation with time beneath the well fields of the two waterworks Waterdelle and Ostland.The modelling study shows that the spreading of well fields is an appropriate protection measure against excessive salinisation of the water supply until the end of the current century.

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Section: Geological Background and Groundwater Situationsupporting

confidence: 73%

Numerical modelling of climate change impacts on freshwater lenses on the North Sea Island of Borkum using hydrological and geophysical methods

Sulzbacher

Wiederhold

Siemon

et al. 2012

Hydrol. Earth Syst. Sci.

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“…Burschil et al, 2012;Gunnink et al, 2012;Jørgensen et al, 2012) and for setting up groundwater models (e.g. de Louw et al, 2011;Faneca Sànchez et al, 2012;Rasmussen et al, 2012;Sulzbacher et al, 2012). However, previous geophysical studies do not estimate all of the relevant aquifer properties since hydraulic conductivity or specific yield are not included.…”

Section: Introductionmentioning

confidence: 99%

Quantifying aquifer properties and freshwater resource in coastal barriers: a hydrogeophysical approach applied at Sasihithlu (Karnataka state, India)

Vouillamoz

Hoareau

Grammare

et al. 2012

Hydrol. Earth Syst. Sci.

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Abstract. Many human communities living in coastal areas in Africa and Asia rely on thin freshwater lenses for their domestic supply. Population growth together with change in rainfall patterns and sea level will probably impact these vulnerable groundwater resources. Spatial knowledge of the aquifer properties and creation of a groundwater model are required for achieving a sustainable management of the resource. This paper presents a ready-to-use methodology for estimating the key aquifer properties and the freshwater resource based on the joint use of two non-invasive geophysical tools together with common hydrological measurements.We applied the proposed methodology in an unconfined aquifer of a coastal sandy barrier in South-Western India. We jointly used magnetic resonance and transient electromagnetic soundings and we monitored rainfall, groundwater level and groundwater electrical conductivity. The combined interpretation of geophysical and hydrological results allowed estimating the aquifer properties and mapping the freshwater lens. Depending on the location and season, we estimate the freshwater reserve to range between 400 and 700 L m −2 of surface area (± 50 %). We also estimate the recharge using time lapse geophysical measurements with hydrological monitoring. After a rainy event close to 100 % of the rain is reaching the water table, but the net recharge at the end of the monsoon is less than 10 % of the rain. Thus, we conclude that a change in rainfall patterns will probably not impact the groundwater resource since most of the rain water recharging the aquifer is flowing towards the sea and the river. However, a change in sea level will impact both the groundwater reserve and net recharge.

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Numerical modelling assessment of climate-change impacts and mitigation measures on the Querença-Silves coastal aquifer (Algarve, Portugal)

Hugman

Stigter²,

Costa

et al. 2017

Hydrogeol J

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Assessing impacts of climate change, sea level rise, and drainage canals on saltwater intrusion to coastal aquifer

Cited by 6 publications

References 47 publications

Numerical modelling of climate change impacts on freshwater lenses on the North Sea Island of Borkum using hydrological and geophysical methods

Numerical modelling of climate change impacts on freshwater lenses on the North Sea Island of Borkum using hydrological and geophysical methods

Quantifying aquifer properties and freshwater resource in coastal barriers: a hydrogeophysical approach applied at Sasihithlu (Karnataka state, India)

Numerical modelling assessment of climate-change impacts and mitigation measures on the Querença-Silves coastal aquifer (Algarve, Portugal)

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