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A field study (Massachusetts, USA) of the factors controlling the depth of groundwater flow systems in crystalline fractured-rock terrain |
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| Authors: | David F Boutt Patrick Diggins Stephen Mabee |
| Institution: | 1. Department of Geosciences, University of Massachusetts-Amherst, 611 N. Pleasant St., 233 Morrill Science Center, Amherst, MA, 01002, USA 2. Environmental Resources Management (ERM), 399 Boylston St., Boston, MA, 02116, USA 3. Office of the State Geologist, University of Massachusetts-Amherst, 611 N. Pleasant St., 233 Morrill Science Center, Amherst, MA, 01002, USA |
| Abstract: | Groundwater movement and availability in crystalline and metamorphosed rocks is dominated by the secondary porosity generated through fracturing. The distributions of fractures and fracture zones determine permeable pathways and the productivity of these rocks. Controls on how these distributions vary with depth in the shallow subsurface (<300 m) and their resulting influence on groundwater flow is not well understood. The results of a subsurface study in the Nashoba and Avalon terranes of eastern Massachusetts (USA), which is a region experiencing expanded use of the fractured bedrock as a potable-supply aquifer, are presented. The study logged the distribution of fractures in 17 boreholes, identified flowing fractures, and hydraulically characterized the rock mass intersecting the boreholes. Of all fractures encountered, 2.5% are hydraulically active. Boreholes show decreasing fracture frequency up to 300 m depth, with hydraulically active fractures showing a similar trend; this restricts topographically driven flow. Borehole temperature profiles corroborate this, with minimal hydrologically altered flow observed in the profiles below 100 m. Results from this study suggest that active flow systems in these geologic settings are shallow and that fracture permeability outside of the influence of large-scale structures will follow a decreasing trend with depth. |
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