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Salinity Barriers to Manage Saltwater Intrusion in Coastal Zone Aquifers During Global Climate Change: A Review and New Perspective

Thomas M. Missimer, Robert G. Maliva

2025Water10 citationsDOIOpen Access PDF

Abstract

Climate change will have a significant impact on saltwater intrusion in coastal aquifers between now and 2150. Global sea levels are predicted to rise somewhere between 0.5 and 1.8 m. To mitigate sea level rise, coastal aquifers will require intensive management to avoid inland migration of seawater that could impact water supplies. In addition to reducing pumping of freshwater, the construction and operation of salinity barriers will be required in many locations. Eleven types of salinity barriers were investigated, including physical barriers (curtain wall and grout curtains), infiltration canals filled with freshwater paralleling the coastline, injection of freshwater (treated surface water or wastewater), pumping or abstraction barriers, mixed injection and abstraction barriers, combined abstraction, desalination, and recharge (ADR), ADR hybrid barriers using various water sources including desalinated water and treated wastewater, compressed air barriers, aquifer storage and recovery dual use systems, biofilm barriers, and clay swelling or dispersion barriers. Feasibility of the use of each salinity barrier type was evaluated within the context of the most recent projections of sea level changes. Key factors used in the evaluation included local hydrogeology, land surface slope, water use, the rate of sea level rise, technical feasibility (operational track record), and economics.

Topics & Concepts

Saltwater intrusionClimate changeAquiferSalinityEnvironmental sciencePerspective (graphical)OceanographyGlobal warmingSea level riseHydrology (agriculture)Water resource managementGeologyGroundwaterGeotechnical engineeringComputer scienceArtificial intelligenceGroundwater and Isotope Geochemistry
Salinity Barriers to Manage Saltwater Intrusion in Coastal Zone Aquifers During Global Climate Change: A Review and New Perspective | Litcius