Water (Apr 2018)

A Modified Water-Table Fluctuation Method to Characterize Regional Groundwater Discharge

  • Lihong Yang,
  • Yongqiang Qi,
  • Chunmiao Zheng,
  • Charles B. Andrews,
  • Shenghua Yue,
  • Sijie Lin,
  • Yu Li,
  • Chengjian Wang,
  • Yaqin Xu,
  • Haitao Li

DOI
https://doi.org/10.3390/w10040503
Journal volume & issue
Vol. 10, no. 4
p. 503

Abstract

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A modified Water-Table Fluctuation (WTF) method is developed to quantitatively characterize the regional groundwater discharge patterns in stressed aquifers caused by intensive agricultural pumping. Two new parameters are defined to express the secondary information in the observed data. One is infiltration efficiency and the other is discharge modulus (recurring head loss due to aquifer discharge). An optimization procedure is involved to estimate these parameters, based on continuous groundwater head measurements and precipitation records. Using the defined parameters and precipitation time series, water level changes are calculated for individual wells with fidelity. The estimated parameters are then used to further address the characterization of infiltration and to better quantify the discharge at the regional scale. The advantage of this method is that it considers recharge and discharge simultaneously, whereas the general WTF methods mostly focus on recharge. In the case study, the infiltration efficiency reveals that the infiltration is regionally controlled by the intrinsic characteristics of the aquifer, and locally distorted by engineered hydraulic structures that alter surface water-groundwater interactions. The seasonality of groundwater discharge is characterized by the monthly discharge modulus. These results from individual wells are clustered into groups that are consistent with the local land use pattern and cropping structures.

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