The protection of groundwater resources in coastal aquifers is an increasingly important
issue worldwide. To establish threshold values and remediation objectives, it is essential to know the
natural background concentrations of relevant ions in groundwater. The rationale is to define the
Natural Background Level (NBL) of chemical species determined by atmospheric and lithological
forces. In many coastal aquifers, this evaluation worsens since atmospheric and lithological salinity
combines with many other anthropogenic sources of salinity, including exogenous salinity induced by
seawater intrusion (SWI). This paper presents a combination of six well-known statistical techniques
and a new methodology (i.e., SITE index) in eight GWBs affected by SWI in Eastern Spain. The
chloride ion was the selected conservative chemical specie to assess the qualitative status due to the
variable SWI affection. The Natural Chloride Background (NCB) obtained from these methodologies
at the GWB scale was compared with regional NCB data calculated with the Atmospheric Chloride
Mass Balance (CMB) method in Continental Spain. The CMB method provides atmospherically
derived NCB data that are not influenced by SWI or anthropogenic activities or lithological forces.
This external evaluation can be considered the atmospheric fraction of NCB, which serves as a
regional criterion to validate the more detailed statistical methodologies applied at the GWB scale. As
a result, a conceptualization of NCB is obtained by means of a range of values between 115 mg L1
and 261 mg L1 in the studied coastal GWBs affected by SWI in Eastern Spain.