Abstract
AbstractThe Indo‐Gangetic foreland basin has some of the highest rates of groundwater extraction in the world, focused in the states of Punjab and Haryana in northwest India. Any assessment of the effects of extraction on groundwater variation requires understanding of the geometry and sedimentary architecture of the alluvial aquifers, which in turn are set by their geomorphic and depositional setting. To assess the overall architecture of the aquifer system, we used satellite imagery and digital elevation models to map the geomorphology of the Sutlej and Yamuna fan systems, while aquifer geometry was assessed using 243 wells that extend to ∼200 m depth. Aquifers formed by sandy channel bodies in the subsurface of the Sutlej and Yamuna fans have a median thickness of 7 and 6 m, respectively, and follow heavy‐tailed thickness distributions. These distributions, along with evidence of persistence in aquifer fractions as determined from compensation analysis, indicate persistent reoccupation of channel positions and suggest that the major aquifers consist of stacked, multistoried channel bodies. The percentage of aquifer material in individual boreholes decreases down fan, although the exponent on the aquifer body thickness distribution remains similar, indicating that the total number of aquifer bodies decreases down fan but that individual bodies do not thin appreciably, particularly on the Yamuna fan. The interfan area and the fan marginal zone have thinner aquifers and a lower proportion of aquifer material, even in proximal locations. We conclude that geomorphic setting provides a first‐order control on the thickness, geometry, and stacking pattern of aquifer bodies across this critical region.
Highlights
Rivers entering sedimentary basins distribute their sediment and water in major sediment fans which have been recognized in stratigraphic records around the world [DeCelles and Cavazza, 1999; Leier et al, 2005; Hartley et al, 2010; Weissmann et al, 2010; Fontana et al, 2014]
These fans are bounded by the faults of the Himalayan Frontal Thrust (HFT) to the northwest and by the deposits of the Thar desert and crystalline bedrock of the Indian craton to the southwest and south, respectively (Figure 3)
Perpendicular to the mountain front, the slope of the Sutlej fan decreases from 0.066% near the apex to 0.027% at 150 km from the mountain front, whereas the slope of the Yamuna fan decreases from 0.057% near the apex to 0.017% at 150 km from the mountain front
Summary
Rivers entering sedimentary basins distribute their sediment and water in major sediment fans which have been recognized in stratigraphic records around the world [DeCelles and Cavazza, 1999; Leier et al, 2005; Hartley et al, 2010; Weissmann et al, 2010; Fontana et al, 2014]. The development of alluvial stratigraphy is controlled by river avulsion, sedimentation rate, and the stacking pattern of fluvial channel-belt sand bodies [Leeder, 1978; Allen, 1978; Bridge and Leeder, 1979]. We must first understand the spatial pattern and organization of aquifer bodies in order to predict aquifer performance, evolution, and sustainability It is, difficult to do this for most sedimentary basins, due to the very limited subsurface data available in most parts of the world
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