Jeremy T. White Christian D. Langevin Joseph D. Hughes 2010 <p>A synthetic two‐dimensional model of a horizontally and vertically heterogeneous confined coastal aquifer system, based on the Upper Floridan aquifer in south Florida, USA, subjected to constant recharge and a complex tidal signal was used to generate 15‐minute water‐level data at select locations over a 7‐day simulation period.&nbsp;&nbsp; &ldquo;Observed&rdquo; water‐level data were generated by adding noise, representative of typical barometric pressure variations and measurement errors, to 15‐minute data from the synthetic model. Permeability was calibrated using a non‐linear gradient‐based parameter inversion approach with preferred‐value Tikhonov regularization and 1) &ldquo;observed&rdquo; water‐level data, 2) harmonic constituent data, or 3) a combination of &ldquo;observed&rdquo; water‐level and harmonic constituent data.&nbsp; &nbsp; In all cases, high‐frequency data used in the parameter inversion process were able to characterize broad‐scale heterogeneities; the ability to discern fine‐scale heterogeneity was greater when harmonic constituent data were used.&nbsp;&nbsp;These results suggest that the combined use of highly parameterized‐inversion techniques and high frequency time and/or processed‐harmonic constituent water‐level data could be a useful approach to better characterize aquifer heterogeneities in coastal aquifers influenced by ocean tides.</p> application/pdf en Wechselnde Verlagsorte Use of time series and harmonic constituents of tidal propagation to enhance estimation of coastal aquifer heterogeneity text