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Stable oxygen and sulfur isotopes applied to tracing seepage from mine tailingsRies, Kimberly Sue. January 1982 (has links) (PDF)
Thesis (M.S. - Hydrology and Water Resources)--University of Arizona, 1982. / Includes bibliographical references (leaves 110-116).
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The influence of particle size on sand-pack properties and drying profileGothoskar, C. S. January 2000 (has links)
Thesis (M.S.)--West Virginia University, 2000. / Title from document title page. Document formatted into pages; contains xi, 65 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 63-65).
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Hydrogeological control on spatial patterns of groundwater seepage in peatlandsHare, Danielle K 18 March 2015 (has links)
Groundwater seepage to surface water is an important process to peatland ecosystems; however, the processes controlling seepage zone distribution and magnitude are not well understood. This lack of process-based understanding makes degraded peatland ecosystems difficult to restore and problematic for resource managers developing a sustainable design. Degraded peatlands, particularly abandoned cranberry farms, often have drainage ditches, applied surface sand, and decreased stream sinuosity to artificially lower the water table and support agriculture. These modifications disconnect the surface and groundwater continuum, which decreases thermal buffering of surface water significantly. The combination of a decreased influx of thermally buffered groundwater, a naturally low surface gradient, minimal canopy, and strong solar input causes surface water temperature extremes that degrade ecosystem health. Through strategically incorporating the natural processes to restore groundwater discharge to restored surface streams, surface water temperature extremes will be buffered promoting a healthy, resilient wetland ecosystem. Therefore, it is critical to understand the spatial hydrogeologic constraints that induce groundwater seepage. Here we examine the spatial relationship between surficial groundwater seepage and the subsurface hydrogeologic structure within a mineraltrophic peatland environment. We use multiple field methods to develop a process-based conceptual model of the ground water seepage development at the site; these methods include geophysical, thermal, and isotopic techniques. The results indicate that there are two distinct forms of groundwater discharge to the peatland platform: diffuse lower-flux marginal seepage and discrete higher-flux interior seepage. Both types of groundwater discharge develop through interactions with subsurface peatland basin structure, specifically when the basin slope is perpendicular to the regional groundwater gradient. These observations also allow insight into the formation of the groundwater discharge through time. The strong correlation between the subsurface basin structure and surficial groundwater expression will allow resource managers to more efficiently locate groundwater seepage on large, complex sites, and develop comprehensive management and restoration strategies for these critical ecosystems.
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Μελέτη της επίδρασης της εκφόρτισης του Υπόγειου υδροφόρου ορίζοντα στο σχηματισμό υποθαλάσσιων κρατήρων (pockmarks) στον Κόλπο του Ελαιώνα, με τη χρήση υδροχημικών και ισοτοπικών αναλύσεων / The study of the effect of groundwater seepage to pockmarks formation at Eleonas Bay, using hydrochemical and isotopic analysesΤαβλά, Χριστίνα 14 May 2007 (has links)
Στο πεδίο κρατήρων του Κόλπου του Ελαιώνα, παρατηρήθηκε διαφυγή γλυκού νερού (Christodoulou et al., 2002). Προκειμένου να διαπιστωθεί αν ο παράκτιος υδροφόρος εκφορτίζεται στη θάλασσα, έγινε δειγματοληψία νερού σε πηγές και γεωτρήσεις στη χέρσο και πραγματοποιήθηκαν υδροχημικές και ισοτοπικές αναλύσεις. / Groundwater seepage was observed in the pockmark field in Eleonas Bay (Christodoulou et al., 2002). In order to find out if the coastal aquifer seeps through the seafloor, water samples were taken from springs and boreholes and hydrochemical and isotopic analyses took place.
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