Groundwater dynamics in subterranean estuaries of coastal unconfined aquifers: Controls on submarine groundwater discharge and chemical inputs to the ocean

•Driving forces on flow and transport, and chemical behavior in subterranean estuaries reviewed.•Need for better understanding of interactions between physical and biogeochemical processes.•Need to consider influence of real work complexities such aquifer heterogeneities. Sustainable coastal resourc...

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Bibliographic Details
Published in:Advances in water resources 2018-05, Vol.115, p.315-331
Main Authors: Robinson, Clare E., Xin, Pei, Santos, Isaac R., Charette, Matthew A., Li, Ling, Barry, D.A.
Format: Article
Language:English
Subjects:
Analytical chemistry
Anthropogenic factors
Aquifer systems
Aquifers
Biogeochemistry
Climate change
Coastal aquifers
Coastal management
Coastal morphology
Coastal waters
Coastal zone management
Contaminants
Discharge
Dynamical systems
Dynamics
Estuaries
Estuarine dynamics
Fluxes
Forces (mechanics)
Geology
Greenhouse effect
Greenhouse gases
Groundwater
Groundwater discharge
Groundwater resources
Groundwater-ocean interactions
Human influences
Hydrology
Interacting effects
Interactions
Marine pollution
Marine resources management
Metals
Mineral nutrients
Multidisciplinary research
Nutrients
Oceans
Organic chemistry
Organic contaminants
Resource management
Salt advection
Submarines
Sustainability
Tides
Unconfined aquifers
Water resources
Waves
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Summary:•Driving forces on flow and transport, and chemical behavior in subterranean estuaries reviewed.•Need for better understanding of interactions between physical and biogeochemical processes.•Need to consider influence of real work complexities such aquifer heterogeneities. Sustainable coastal resource management requires sound understanding of interactions between coastal unconfined aquifers and the ocean as these interactions influence the flux of chemicals to the coastal ocean and the availability of fresh groundwater resources. The importance of submarine groundwater discharge in delivering chemical fluxes to the coastal ocean and the critical role of the subterranean estuary (STE) in regulating these fluxes is well recognized. STEs are complex and dynamic systems exposed to various physical, hydrological, geological, and chemical conditions that act on disparate spatial and temporal scales. This paper provides a review of the effect of factors that influence flow and salt transport in STEs, evaluates current understanding on the interactions between these influences, and synthesizes understanding of drivers of nutrient, carbon, greenhouse gas, metal and organic contaminant fluxes to the ocean. Based on this review, key research needs are identified. While the effects of density and tides are well understood, episodic and longer-period forces as well as the interactions between multiple influences remain poorly understood. Many studies continue to focus on idealized nearshore aquifer systems and future work needs to consider real world complexities such as geological heterogeneities, and non-uniform and evolving alongshore and cross-shore morphology. There is also a significant need for multidisciplinary research to unravel the interactions between physical and biogeochemical processes in STEs, as most existing studies treat these processes in isolation. Better understanding of this complex and dynamic system can improve sustainable management of coastal water resources under the influence of anthropogenic pressures and climate change.
ISSN:0309-1708
1872-9657
DOI:10.1016/j.advwatres.2017.10.041