Aquifer response to recharge\u2013discharge phenomenon: inference from well hydrographs for genetic classification

Arunangshu Mukherjee,Ranjan Kumar Ray,Anita Gupta,Dinesh Tewari

doi:10.1007/s13201-015-0293-z

Arunangshu Mukherjee, Ranjan Kumar Ray + Show 2 more

Open Access

https://doi.org/10.1007/s13201-015-0293-z

Copy DOI

Journal: Applied Water Science	Publication Date: May 26, 2015
Citations: 8	License type: open-access

Affiliation: Central Ground Water Board

Abstract

The continuous groundwater level data emanating from a high-frequency automatic water level recorder installed in a purpose-built piezometer provides a true hydrograph. Analyses of such hydrographs fairly reflect the aquifer character and can be used to draw inference for genetic classification of hard rock aquifers. The signature shape of annual water level fluctuation curve (annual cycle) of a piezometer is due to the specific character of the aquifer and the way it responds to the recharge–discharge phenomenon. The pattern of annual cycle remains identical year after year, although its magnitude may vary with the annual quantum of recharge–discharge. Lithology of the aquifer does not control the shape of the curve. Based on the crest and trough shape, the hard rock aquifers of Peninsular India, where the monsoonal pattern of rainfall occurs, have been classified into genetic groups. It is also found that the nature of the aquifer can be determined by visual comparison of apparent line thickness of the hydrograph, where thin lines denote unconfined aquifer and the apparently thicker lines correspond to confining condition. The response of an aquifer to a pumping event can be identified and separated by its pattern. Thus, the aquifer classification can be automated by adopting the proposed classification scheme.

Highlights

The complex behavior of a hard rock aquifer is well appreciated (Singhal 2007) and its knowledge is under constant evolution
The aquifer character, in turn, is responsible for the aquifer’s response to recharge–discharge phenomenon, which can be interpreted by recording the water level fluctuations, using a high frequency water level recorder fitted in a purpose-built piezometer, in the form of a time series data ‘‘hydrograph’’
The true hydrographs obtained from the Peninsular India can be visually compared and classified into groups of identical classes

Summary

Introduction

The complex behavior of a hard rock aquifer is well appreciated (Singhal 2007) and its knowledge is under constant evolution. The aquifer character, in turn, is responsible for the aquifer’s response to recharge–discharge phenomenon, which can be interpreted by recording the water level fluctuations, using a high frequency water level recorder fitted in a purpose-built piezometer, in the form of a time series data ‘‘hydrograph’’ (the variation in groundwater level recorded systematically for a longer period can be plotted in the form of a graph called hydrograph). Analyses of such continuous hydrographs fairly reflect the aquifer character and can be used to draw inference for aquifers genetic classification.

Objectives

Results

Discussion

Conclusion