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  • 1
    Book
    Book
    Quantifizierung des Austausches zwischen Fluss- und Grundwasser im Hessischen Ried mittels hochauflösender tiefenorientierter Messungen der Temperatur und natürlicher Tracer (2008)
    Darmstadt
    Details
    UID:
    (DE-603)221604235
    Format: VI, 107 S. , Ill., graph. Darst., Kt. , 1 CD
    Note: Darmstadt, TUD, Diplomarbeit, 2008
    Language: German
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    HeBIS
  • 2
    Online Resource
    Online Resource
    Flow and reactive transport modeling at the stream-groundwater interface : effects of hydrological conditions and streambed morphology (2015)
    Potsdam
    Details
    UID:
    (DE-627)856996343
    Format: 1 Online-Ressource (xv, 103 Seiten) , Illustrationen, Diagramme
    Content: Stream water and groundwater are important fresh water resources but their water quality is deteriorated by harmful solutes introduced by human activities. The interface between stream water and the subsurface water is an important zone for retention, transformation and attenuation of these solutes. Streambed structures enhance these processes by increased water and solute exchange across this interface, denoted as hyporheic exchange. This thesis investigates the influence of hydrological and morphological factors on hyporheic water and solute exchange as well as redox-reactions in fluvial streambed structures on the intermediate scale (10–30m). For this purpose, a three-dimensional numerical modeling approach for coupling stream water flow with porous media flow is used. Multiple steady state stream water flow scenarios over different generic pool-riffle morphologies and a natural in-stream gravel bar are simulated by a computational fluid dynamics code that provides the hydraulic head distribution at the streambed. These heads are subsequently used as the top boundary condition of a reactive transport groundwater model of the subsurface beneath the streambed. Ambient groundwater that naturally interacts with the stream water is considered in scenarios of different magnitudes of downwelling stream water (losing case) and upwelling groundwater (gaining case). Also, the neutral case, where stream stage and groundwater levels are balanced is considered. Transport of oxygen, nitrate and dissolved organic carbon and their reaction by aerobic respiration and denitrification are modeled. The results show that stream stage and discharge primarily induce hyporheic exchange flux and solute transport with implications for specific residence times and reactions at both the fully and partially submerged structures. Gaining and losing conditions significantly diminish the extent of the hyporheic zone, the water exchange flux, and shorten residence times for both the fully and partially submerged structures. With increasing magnitude of gaining or losing conditions, these metrics exponentially decrease. Stream water solutes are transported mainly advectively into the hyporheic zone and hence their influx corresponds directly to the infiltrating water flux. Aerobic respiration takes place in the shallow streambed sediments, coinciding to large parts with the extent of the hyporheic exchange flow. Denitrification occurs mainly as a “reactive fringe” surrounding the aerobic zone, where oxygen concentration is low and still a sufficient amount of stream water carbon source is available. The solute consumption rates and the efficiency of the aerobic and anaerobic reactions depend primarily on the available reactive areas and the residence times, which are both controlled by the interplay between hydraulic head distribution at the streambed and the gradients between stream stage and ambient groundwater. Highest solute consumption rates can be expected under neutral conditions, where highest solute flux, longest residence times and largest extent of the hyporheic exchange occur. The results of this thesis show that streambed structures on the intermediate scale have a significant potential to contribute to a net solute turnover that can support a healthy status of the aquatic ecosystem.
    Note: kumulative Dissertation , Dissertation Universität Potsdam 2015
    Additional Edition: Erscheint auch als Druck-Ausgabe Trauth, Nico Flow and reactive transport modeling at the stream-groundwater interface
    Additional Edition: Erscheint auch als Druck-Ausgabe Trauth, Nico Flow and reactive transport modeling at the stream-groundwater interface 2015
    Language: English , German
    Keywords: Flussbett ; Flusswasser ; Grundwasser ; Grundwasserstrom ; Stoffübertragung ; Modellierung ; Oberflächengewässer ; Grundwasserleiter ; Hydraulik ; Hydrogeologie ; Flussinsel ; Numerisches Modell ; Hochschulschrift
    URN: urn:nbn:de:kobv:517-opus4-82748
    URL: Volltext  (kostenfrei)
    URL: https://nbn-resolving.org/urn:nbn:de:kobv:517-opus4-82748
    URL: https://d-nb.info/1218601884/34
    URL: kostenfrei
    URL: Volltext  (kostenfrei)
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  • 3
    Book
    Book
    Flow and reactive transport modeling at the stream-groundwater interface : effects of hydrological conditions and streambed morphology (2015)
    Details
    UID:
    (DE-627)1532653433
    Format: xv, 103 Seiten , Illustrationen, Diagramme
    Note: enthält eine Kurzfassung in Deutsch , Dissertation Universität Potsdam 2015
    Additional Edition: Erscheint auch als Online-Ausgabe Trauth, Nico Flow and reactive transport modeling at the stream-groundwater interface Potsdam, 2015
    Language: English , German
    Keywords: Flussbett ; Flusswasser ; Grundwasser ; Grundwasserstrom ; Stoffübertragung ; Modellierung ; Oberflächengewässer ; Grundwasserleiter ; Hydraulik ; Hydrogeologie ; Flussinsel ; Numerisches Modell ; Hochschulschrift
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  • 4
    Online Resource
    Online Resource
    Flow and reactive transport modeling at the stream-groundwater interface : effects of hydrological conditions and streambed morphology (2015)
    Potsdam : Universität Potsdam
    Details
    UID:
    (DE-603)470310308
    Format: Online-Ressource
    Note: Dissertation Potsdam, Universität Potsdam 2015
    Language: English
    Keywords: Hochschulschrift
    URN: urn:nbn:de:kobv:517-opus4-82748
    URL: https://nbn-resolving.org/urn:nbn:de:kobv:517-opus4-82748
    URL: kostenfrei
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  • 5
    Online Resource
    Online Resource
    Flow and reactive transport modeling at the stream-groundwater interface : effects of hydrological conditions and streambed morphology (2015)
    Potsdam : Universität Potsdam
    Details
    UID:
    (DE-101)1218601884
    Format: Online-Ressource
    Note: Dissertation Potsdam, Universität Potsdam 2015
    Language: English
    URN: urn:nbn:de:kobv:517-opus4-82748
    URL: https://nbn-resolving.org/urn:nbn:de:kobv:517-opus4-82748
    URL: https://d-nb.info/1218601884/34
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  • 6
    Article
    Article
    Niedrigwasser in Thüringen : Zeitreihenanalyse von Abflüssen an Fließgewässerpegeln (2022)
    Show associated volumes
    Details
    UID:
    (DE-627)1818792486
    Format: Karten, Diagramme
    ISSN: 1439-1783
    Note: Literaturverzeichnis: Seite 188 , Enthält Zusammenfassungen auf Deutsch und Englisch
    In: Hydrologie und Wasserbewirtschaftung, Koblenz : Bundesanst. für Gewässerkunde, BfG, 1999, 66(2022), 4, Seite 178-188, 1439-1783
    In: volume:66
    In: year:2022
    In: number:4
    In: pages:178-188
    Language: German
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    BSZ
  • 7
    Book
    Book
    Flow and reactive transport modeling at the stream-groundwater interface : effects of hydrological conditions and streambed morphology (2015)
    Potsdam
    Details
    UID:
    (DE-627)845986651
    Format: xv, 103 Seiten , Illustrationen
    Content: Stream water and groundwater are important fresh water resources but their water quality is deteriorated by harmful solutes introduced by human activities. The interface between stream water and the subsurface water is an important zone for retention, transformation and attenuation of these solutes. Streambed structures enhance these processes by increased water and solute exchange across this interface, denoted as hyporheic exchange. This thesis investigates the influence of hydrological and morphological factors on hyporheic water and solute exchange as well as redox-reactions in fluvial streambed structures on the intermediate scale (10–30m). For this purpose, a three-dimensional numerical modeling approach for coupling stream water flow with porous media flow is used. Multiple steady state stream water flow scenarios over different generic pool-riffle morphologies and a natural in-stream gravel bar are simulated by a computational fluid dynamics code that provides the hydraulic head distribution at the streambed. These heads are subsequently used as the top boundary condition of a reactive transport groundwater model of the subsurface beneath the streambed. Ambient groundwater that naturally interacts with the stream water is considered in scenarios of different magnitudes of downwelling stream water (losing case) and upwelling groundwater (gaining case). Also, the neutral case, where stream stage and groundwater levels are balanced is considered. Transport of oxygen, nitrate and dissolved organic carbon and their reaction by aerobic respiration and denitrification are modeled. The results show that stream stage and discharge primarily induce hyporheic exchange flux and solute transport with implications for specific residence times and reactions at both the fully and partially submerged structures. Gaining and losing conditions significantly diminish the extent of the hyporheic zone, the water exchange flux, and shorten residence times for both the fully and partially submerged structures. With increasing magnitude of gaining or losing conditions, these metrics exponentially decrease. Stream water solutes are transported mainly advectively into the hyporheic zone and hence their influx corresponds directly to the infiltrating water flux. Aerobic respiration takes place in the shallow streambed sediments, coinciding to large parts with the extent of the hyporheic exchange flow. Denitrification occurs mainly as a “reactive fringe” surrounding the aerobic zone, where oxygen concentration is low and still a sufficient amount of stream water carbon source is available. The solute consumption rates and the efficiency of the aerobic and anaerobic reactions depend primarily on the available reactive areas and the residence times, which are both controlled by the interplay between hydraulic head distribution at the streambed and the gradients between stream stage and ambient groundwater. Highest solute consumption rates can be expected under neutral conditions, where highest solute flux, longest residence times and largest extent of the hyporheic exchange occur. The results of this thesis show that streambed structures on the intermediate scale have a significant potential to contribute to a net solute turnover that can support a healthy status of the aquatic ecosystem.
    Note: kumulative Dissertation , Dissertation Mathematisch-Naturwissenschaftliche Fakultät der Universität Potsdam 2015
    Additional Edition: Erscheint auch als Online-Ausgabe Trauth, Nico Flow and reactive transport modeling at the stream-groundwater interface
    Language: English , German
    Keywords: Flussbett ; Flusswasser ; Grundwasser ; Grundwasserstrom ; Stoffübertragung ; Modellierung ; Oberflächengewässer ; Grundwasserleiter ; Hydraulik ; Hydrogeologie ; Flussinsel ; Numerisches Modell ; Hochschulschrift
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  • 8
    Online Resource
    Online Resource
    Flow and reactive transport modeling at the stream-groundwater interface : effects of hydrological conditions and streambed morphology (2015)
    Potsdam
    Details
    UID:
    (DE-602)gbv_856996343
    Format: 1 Online-Ressource (xv, 103 Seiten) , Illustrationen, Diagramme
    Content: Stream water and groundwater are important fresh water resources but their water quality is deteriorated by harmful solutes introduced by human activities. The interface between stream water and the subsurface water is an important zone for retention, transformation and attenuation of these solutes. Streambed structures enhance these processes by increased water and solute exchange across this interface, denoted as hyporheic exchange. This thesis investigates the influence of hydrological and morphological factors on hyporheic water and solute exchange as well as redox-reactions in fluvial streambed structures on the intermediate scale (10–30m). For this purpose, a three-dimensional numerical modeling approach for coupling stream water flow with porous media flow is used. Multiple steady state stream water flow scenarios over different generic pool-riffle morphologies and a natural in-stream gravel bar are simulated by a computational fluid dynamics code that provides the hydraulic head distribution at the streambed. These heads are subsequently used as the top boundary condition of a reactive transport groundwater model of the subsurface beneath the streambed. Ambient groundwater that naturally interacts with the stream water is considered in scenarios of different magnitudes of downwelling stream water (losing case) and upwelling groundwater (gaining case). Also, the neutral case, where stream stage and groundwater levels are balanced is considered. Transport of oxygen, nitrate and dissolved organic carbon and their reaction by aerobic respiration and denitrification are modeled. The results show that stream stage and discharge primarily induce hyporheic exchange flux and solute transport with implications for specific residence times and reactions at both the fully and partially submerged structures. Gaining and losing conditions significantly diminish the extent of the hyporheic zone, the water exchange flux, and shorten residence times for both the fully and partially submerged structures. With increasing magnitude of gaining or losing conditions, these metrics exponentially decrease. Stream water solutes are transported mainly advectively into the hyporheic zone and hence their influx corresponds directly to the infiltrating water flux. Aerobic respiration takes place in the shallow streambed sediments, coinciding to large parts with the extent of the hyporheic exchange flow. Denitrification occurs mainly as a “reactive fringe” surrounding the aerobic zone, where oxygen concentration is low and still a sufficient amount of stream water carbon source is available. The solute consumption rates and the efficiency of the aerobic and anaerobic reactions depend primarily on the available reactive areas and the residence times, which are both controlled by the interplay between hydraulic head distribution at the streambed and the gradients between stream stage and ambient groundwater. Highest solute consumption rates can be expected under neutral conditions, where highest solute flux, longest residence times and largest extent of the hyporheic exchange occur. The results of this thesis show that streambed structures on the intermediate scale have a significant potential to contribute to a net solute turnover that can support a healthy status of the aquatic ecosystem.
    Note: kumulative Dissertation , Dissertation Universität Potsdam 2015
    Additional Edition: Erscheint auch als Druck-Ausgabe Trauth, Nico Flow and reactive transport modeling at the stream-groundwater interface
    Additional Edition: Erscheint auch als Druck-Ausgabe Trauth, Nico Flow and reactive transport modeling at the stream-groundwater interface 2015
    Language: English , German
    Keywords: Flussbett ; Flusswasser ; Grundwasser ; Grundwasserstrom ; Stoffübertragung ; Modellierung ; Oberflächengewässer ; Grundwasserleiter ; Hydraulik ; Hydrogeologie ; Flussinsel ; Numerisches Modell ; Hochschulschrift
    URN: urn:nbn:de:kobv:517-opus4-82748
    URL: Volltext  (kostenfrei)
    URL: https://nbn-resolving.org/urn:nbn:de:kobv:517-opus4-82748
    URL: https://d-nb.info/1218601884/34
    URL: kostenfrei
    URL: Volltext  (kostenfrei)
    Library Location Call Number Volume/Issue/Year Availability
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    Online Resource
    Fulltext
    Fulltext
    UB Potsdam
    KOBV
  • 9
    Book
    Book
    Flow and reactive transport modeling at the stream-groundwater interface : effects of hydrological conditions and streambed morphology (2015)
    Potsdam
    Details
    UID:
    (DE-602)gbv_845986651
    Format: xv, 103 Seiten , Illustrationen
    Content: Stream water and groundwater are important fresh water resources but their water quality is deteriorated by harmful solutes introduced by human activities. The interface between stream water and the subsurface water is an important zone for retention, transformation and attenuation of these solutes. Streambed structures enhance these processes by increased water and solute exchange across this interface, denoted as hyporheic exchange. This thesis investigates the influence of hydrological and morphological factors on hyporheic water and solute exchange as well as redox-reactions in fluvial streambed structures on the intermediate scale (10–30m). For this purpose, a three-dimensional numerical modeling approach for coupling stream water flow with porous media flow is used. Multiple steady state stream water flow scenarios over different generic pool-riffle morphologies and a natural in-stream gravel bar are simulated by a computational fluid dynamics code that provides the hydraulic head distribution at the streambed. These heads are subsequently used as the top boundary condition of a reactive transport groundwater model of the subsurface beneath the streambed. Ambient groundwater that naturally interacts with the stream water is considered in scenarios of different magnitudes of downwelling stream water (losing case) and upwelling groundwater (gaining case). Also, the neutral case, where stream stage and groundwater levels are balanced is considered. Transport of oxygen, nitrate and dissolved organic carbon and their reaction by aerobic respiration and denitrification are modeled. The results show that stream stage and discharge primarily induce hyporheic exchange flux and solute transport with implications for specific residence times and reactions at both the fully and partially submerged structures. Gaining and losing conditions significantly diminish the extent of the hyporheic zone, the water exchange flux, and shorten residence times for both the fully and partially submerged structures. With increasing magnitude of gaining or losing conditions, these metrics exponentially decrease. Stream water solutes are transported mainly advectively into the hyporheic zone and hence their influx corresponds directly to the infiltrating water flux. Aerobic respiration takes place in the shallow streambed sediments, coinciding to large parts with the extent of the hyporheic exchange flow. Denitrification occurs mainly as a “reactive fringe” surrounding the aerobic zone, where oxygen concentration is low and still a sufficient amount of stream water carbon source is available. The solute consumption rates and the efficiency of the aerobic and anaerobic reactions depend primarily on the available reactive areas and the residence times, which are both controlled by the interplay between hydraulic head distribution at the streambed and the gradients between stream stage and ambient groundwater. Highest solute consumption rates can be expected under neutral conditions, where highest solute flux, longest residence times and largest extent of the hyporheic exchange occur. The results of this thesis show that streambed structures on the intermediate scale have a significant potential to contribute to a net solute turnover that can support a healthy status of the aquatic ecosystem.
    Note: kumulative Dissertation , Dissertation Mathematisch-Naturwissenschaftliche Fakultät der Universität Potsdam 2015
    Additional Edition: Erscheint auch als Online-Ausgabe Trauth, Nico Flow and reactive transport modeling at the stream-groundwater interface
    Language: English , German
    Keywords: Flussbett ; Flusswasser ; Grundwasser ; Grundwasserstrom ; Stoffübertragung ; Modellierung ; Oberflächengewässer ; Grundwasserleiter ; Hydraulik ; Hydrogeologie ; Flussinsel ; Numerisches Modell ; Hochschulschrift
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  • 10
    Online Resource
    Online Resource
    Noble gases in groundwater reflect wet-season temperature in an arid, monsoonal, and mountainous environment (15)
    Show associated volumes
    Details
    UID:
    (DE-627)188333702X
    Format: 9 , Illustrationen
    ISSN: 1385-013X
    Content: Comparing directly measured soil temperatures with noble gas recharge temperatures (NGTs) inferred from noble gas concentrations indicates that the infiltrating soil water equilibrates with soil air near the soil surface during the rainy season. Therefore, NGTs of groundwater recently recharged by the Indian Summer Monsoon (ISM) in the Dhofar Mountains in southern Oman reflect the soil temperatures of the 3-month period and do not represent an annual mean. This finding highlights the need to account for seasonality when interpreting NGT data in regions with pronounced dry and wet seasons. We extend the observations from the southern flank of the Dhofar Mountains to three wells situated on the northern flank of the Dhofar Mountains. Two of these wells yield water of Holocene age that was recharged by the monsoon, their NGT signals are therefore classified as seasonal. The NGT calculated from a third well for recharge conditions during the Last Glacial Maximum (LGM), when the ISM was absent, is approximately 3 °C lower than that of the two Holocene wells. The lower LGM noble gas temperature corresponds well with the lower annual Sea Surface Temperature (SST) in the nearby Arabian Sea. NGTs from published studies from northern Oman are 1-3 °C higher when compared with our data of the same period in the southern Oman. We explain this regional difference of reconstructed temperatures for the LGM and Holocene groundwater with a more continental climatic influence on the infiltration conditions further to the north. The published NGTs from northern Oman show a large temperature difference between the late Holocene and the LGM. In view of our finding of seasonal NGT signals under monsoonal climate, part of this difference may reflect a change in the precipitation regime rather than in air temperature.
    Note: Online verfügbar: 12. Dezember 2023 , Gesehen am 13.03.2024
    In: Earth and planetary science letters, Amsterdam [u.a.] : Elsevier, 1966, 626(2024), Artikel-ID 118534, Seite 1-9, 1385-013X
    In: volume:626
    In: year:2024
    In: elocationid:118534
    In: pages:1-9
    In: extent:9
    Language: English
    DOI: 10.1016/j.epsl.2023.118534
    URL: Volltext  (kostenfrei)
    URL: Volltext  (kostenfrei)
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