GWSDAT - GroundWater Spatiotemporal Data Analysis Tool

Periodic monitoring of groundwater quality at industrial and commercial sites generates large volumes of spatiotemporal concentration data. Data modelling is typically restricted to either the analysis of monotonic trends in individual wells, or independent fitting of spatial concentration distributions (e.g. Kriging) to separate monitoring time periods. Neither of these techniques satisfactorily elucidate the interaction between spatial and temporal components of the data. Potential negative consequences include an incomplete understanding of groundwater plume dynamics, which can lead to the selection of inappropriate remedial strategies. The GroundWater Spatiotemporal Data Analysis Tool (GWSDAT) is a user friendly, open source, decision support tool that has been developed to address these issues. Uniquely, GWSDAT applies a spatiotemporal model for a more coherent and smooth interpretation of the interaction in spatial and time-series components of groundwater solute concentrations. GWSDAT has been designed to work with standard groundwater monitoring data sets, and has no special data requirements. Data entry is via a standardised Microsoft Excel input template. The underlying statistical modelling and graphical output are generated using R. This paper describes in detail the various plotting options available and how the graphical user interface can be used for rapid, rigorous and interactive trend analysis with facilitated report generation. GWSDAT has been used extensively in the assessment of soil and groundwater conditions at Shell's downstream assets and the discussion section describes the benefits of its applied use. These include rapid interpretation of complex data sets, early identification of new spills, detection of off-site plume migration and simplified preparation of groundwater monitoring reports - all of which facilitate expedited risk assessment and remediation.