Offshore freshened groundwater reservoirs controlled by submarine faults with a complex dependency on antecedent hydrogeological conditions

Journal article

Offshore Freshened Groundwater (OFG) reservoirs are gaining attention, as evidence suggests they are more prevalent worldwide than previously thought. OFG systems are generally classified as either passive, a relic of ancient, lower sea levels, or as active, with an onshore-offshore hydrogeologic connection and associated discharge offshore. Previous studies on the mechanisms of OFG were conducted in various hydrogeologic settings, but the role of faults remains understudied. Based on geologic data, we apply hydrogeologic modeling of a faulted submarine confined aquifer in the Levant basin (eastern Mediterranean), to study the impact of faults on OFG. We find that faults that are close to the coastline and within the brackish zone that would have developed without a fault control the offshore salinities regardless of initial conditions. The influence of distal faults, in contrast, depends on antecedent conditions. When initial salinities are such that the distal fault lies in the fresh part of the aquifer, the saline wedge migrates landward toward the fault with sea-level rise, and the fault dictates the steady-state salinity distribution. If the fault is initially within the saline part of the aquifer, freshwater never reaches the fault, likely due to the density-driven flow barrier that the underlying saline wedge generates. These findings suggest a new mode of OFG in which the same geologic system can be either active or passive depending on the hydrologic history. This should be considered in future studies of OFG systems, the functioning of which has implications for marine ecosystems, seafloor geomorphology, and coastal water resources.

Authors: Paldor, A; Bertoni, C; Penny, B; Michael, HA

• Publication status: Published
• Peer review status: Peer reviewed
• Publisher: Elsevier
• Journal: Science of The Total Environment
• Volume: 952
• Article number: 175834
• Place of publication: Netherlands
• Publication date: 2024-08-26
• Acceptance date: 2024-08-25
• DOI: 10.1016/j.scitotenv.2024.175834
• EISSN: 1879-1026
• ISSN: 0048-9697
• Pmid: 39197771
• Language: English
• Keywords: confined aquifers; land-sea connectivity; saltwater intrusion; submarine faults; offshore freshened groundwater