SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3087982678> ?p ?o ?g. }

Showing items 1 to 100 of ±150 with 100 items per page.

W3087982678 endingPage "2802" @default.
W3087982678 startingPage "2779" @default.
W3087982678 abstract "Abstract In three-dimensional (3-D) implicit geological modeling, the bounding surfaces between geological units are automatically constructed from lithological contact data (position and orientation) and the location and orientation of potential faults. This approach was applied to conceptualize a karst aquifer in the Middle Triassic Muschelkalk Formation in southwest Germany, using digital elevation data, geological maps, borehole logs, and geological interpretation. Dip and strike measurements as well as soil-gas surveys of mantel-borne CO 2 were conducted to verify the existence of an unmapped fault. Implicit geological modeling allowed the straightforward assessment of the geological framework and rapid updates with incoming data. Simultaneous 3-D visualizations of the sedimentary units, tectonic features, hydraulic heads, and tracer tests provided insights into the karst-system hydraulics and helped guide the formulation of the conceptual hydrogeological model. The 3-D geological model was automatically translated into a numerical single-continuum steady-state groundwater model that was calibrated to match measured hydraulic heads, spring discharge rates, and flow directions observed in tracer tests. This was possible only by introducing discrete karst conduits, which were implemented as high-conductivity features in the numerical model. The numerical groundwater flow model was applied to initially assess the risk from limestone quarrying to local water supply wells with the help of particle tracking." @default.
W3087982678 created "2020-10-01" @default.
W3087982678 creator A5013417229 @default.
W3087982678 creator A5077093441 @default.
W3087982678 creator A5090336889 @default.
W3087982678 date "2020-09-15" @default.
W3087982678 modified "2023-10-16" @default.
W3087982678 title "Combining implicit geological modeling, field surveys, and hydrogeological modeling to describe groundwater flow in a karst aquifer" @default.
W3087982678 cites W119541301 @default.
W3087982678 cites W1511269951 @default.
W3087982678 cites W1545117950 @default.
W3087982678 cites W1592335202 @default.
W3087982678 cites W1631009898 @default.
W3087982678 cites W1827740926 @default.
W3087982678 cites W1879541490 @default.
W3087982678 cites W1910108838 @default.
W3087982678 cites W1920057949 @default.
W3087982678 cites W1942735527 @default.
W3087982678 cites W1971910334 @default.
W3087982678 cites W1981077785 @default.
W3087982678 cites W1986460566 @default.
W3087982678 cites W1988045831 @default.
W3087982678 cites W1988473795 @default.
W3087982678 cites W1988608581 @default.
W3087982678 cites W1988730065 @default.
W3087982678 cites W2006995585 @default.
W3087982678 cites W2009129752 @default.
W3087982678 cites W2019258434 @default.
W3087982678 cites W2023941937 @default.
W3087982678 cites W2028962562 @default.
W3087982678 cites W2032077843 @default.
W3087982678 cites W2035484618 @default.
W3087982678 cites W2041296110 @default.
W3087982678 cites W2046180871 @default.
W3087982678 cites W2048296563 @default.
W3087982678 cites W2058009823 @default.
W3087982678 cites W2062949324 @default.
W3087982678 cites W2065321758 @default.
W3087982678 cites W2066650496 @default.
W3087982678 cites W2069544398 @default.
W3087982678 cites W2070078317 @default.
W3087982678 cites W2074491622 @default.
W3087982678 cites W2079332491 @default.
W3087982678 cites W2079638646 @default.
W3087982678 cites W2080721391 @default.
W3087982678 cites W2081965388 @default.
W3087982678 cites W2083108049 @default.
W3087982678 cites W2085641185 @default.
W3087982678 cites W2115341450 @default.
W3087982678 cites W2115481049 @default.
W3087982678 cites W2116210504 @default.
W3087982678 cites W2124156992 @default.
W3087982678 cites W2134892623 @default.
W3087982678 cites W2146130035 @default.
W3087982678 cites W2154179976 @default.
W3087982678 cites W2155709488 @default.
W3087982678 cites W2160961863 @default.
W3087982678 cites W2173790969 @default.
W3087982678 cites W2221196450 @default.
W3087982678 cites W2255553901 @default.
W3087982678 cites W228264550 @default.
W3087982678 cites W2287830199 @default.
W3087982678 cites W2403568222 @default.
W3087982678 cites W2410179287 @default.
W3087982678 cites W2503791294 @default.
W3087982678 cites W2516246019 @default.
W3087982678 cites W2520772518 @default.
W3087982678 cites W2529450291 @default.
W3087982678 cites W2548843730 @default.
W3087982678 cites W2584490967 @default.
W3087982678 cites W2593837076 @default.
W3087982678 cites W2599603244 @default.
W3087982678 cites W2632447849 @default.
W3087982678 cites W2665107969 @default.
W3087982678 cites W2789954659 @default.
W3087982678 cites W2795398442 @default.
W3087982678 cites W2897913994 @default.
W3087982678 cites W2904018226 @default.
W3087982678 cites W2905904549 @default.
W3087982678 cites W4237822089 @default.
W3087982678 cites W81172625 @default.
W3087982678 doi "https://doi.org/10.1007/s10040-020-02220-z" @default.
W3087982678 hasPublicationYear "2020" @default.
W3087982678 type Work @default.
W3087982678 sameAs 3087982678 @default.
W3087982678 citedByCount "19" @default.
W3087982678 countsByYear W30879826782020 @default.
W3087982678 countsByYear W30879826782021 @default.
W3087982678 countsByYear W30879826782022 @default.
W3087982678 countsByYear W30879826782023 @default.
W3087982678 crossrefType "journal-article" @default.
W3087982678 hasAuthorship W3087982678A5013417229 @default.
W3087982678 hasAuthorship W3087982678A5077093441 @default.
W3087982678 hasAuthorship W3087982678A5090336889 @default.
W3087982678 hasBestOaLocation W30879826781 @default.
W3087982678 hasConcept C114793014 @default.
W3087982678 hasConcept C127313418 @default.
W3087982678 hasConcept C131227075 @default.