Salvato in:
Dettagli Bibliografici
Autori principali: van Geldern, Robert, Schulte, Peter, Mader, Michael, Baier, Alfons, Barth, Johannes A C, Juhlke, Tobias René, Lee, Kern Y
Natura: Dataset Open Access
Lingua:en
Pubblicazione: PANGAEA 2018
Soggetti:
Accesso online:https://doi.org/10.1594/PANGAEA.885224
Tags: Aggiungi Tag
Nessun Tag, puoi essere il primo ad aggiungerne!!
_version_ 1867170472530018304
author van Geldern, Robert
Schulte, Peter
Mader, Michael
Baier, Alfons
Barth, Johannes A C
Juhlke, Tobias René
Lee, Kern Y
author_facet van Geldern, Robert
Schulte, Peter
Mader, Michael
Baier, Alfons
Barth, Johannes A C
Juhlke, Tobias René
Lee, Kern Y
collection Datos científicos de ciencias marinas y ambientales
contents Karst areas and their catchments pose a great challenge for protection because fast conduit flow results in low natural attenuation of anthropogenic contaminants. Studies of the hydrochemistry of karst sources and river solutes are an important tool for securing and managing water resources. A study of the geochemical downriver evolution of the Wiesent River and its tributaries, located in a typical karst terrain, revealed unexpected downstream decreases of nitrate with maximum mean values of 30 mg/L at the source to minimum values of 18 mg/L near the river mouth. This trend persisted over the length of the river even though increased agricultural activities are evident in the downstream section of the catchment. This pattern is caused by fertilizer inputs via diffusive and fast conduits flow from karst lithology in the upstream area that may have reached the river's source even from beyond the hydrological catchment boundaries. Further downstream, these influences became diluted by tributary inputs that drain subcatchments dominated by claystone and sandstone lithologies that increased potassium and sulphate concentrations. Our findings indicate that bedrock geology remains the dominant control on the major ion chemistry of the Wiesent River and that agricultural influences are strongest near the headwaters despite increased land use further downstream, due to long‐term storage and accumulation in karst aquifers. This feature may not be unique to the Wiesent River system, as carbonates cover significant portions of the Earth's surface and subsequent work in other river systems could establish whether such patterns are ubiquitous worldwide.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_885224
institution PANGAEA
language en
publishDate 2018
publisher PANGAEA
record_format pangaea
spellingShingle Major ion patterns of the Wiesent River catchment (Germany) measured in 2010
van Geldern, Robert
Schulte, Peter
Mader, Michael
Baier, Alfons
Barth, Johannes A C
Juhlke, Tobias René
Lee, Kern Y

Karst areas and their catchments pose a great challenge for protection because fast conduit flow results in low natural attenuation of anthropogenic contaminants. Studies of the hydrochemistry of karst sources and river solutes are an important tool for securing and managing water resources. A study of the geochemical downriver evolution of the Wiesent River and its tributaries, located in a typical karst terrain, revealed unexpected downstream decreases of nitrate with maximum mean values of 30 mg/L at the source to minimum values of 18 mg/L near the river mouth. This trend persisted over the length of the river even though increased agricultural activities are evident in the downstream section of the catchment. This pattern is caused by fertilizer inputs via diffusive and fast conduits flow from karst lithology in the upstream area that may have reached the river's source even from beyond the hydrological catchment boundaries. Further downstream, these influences became diluted by tributary inputs that drain subcatchments dominated by claystone and sandstone lithologies that increased potassium and sulphate concentrations. Our findings indicate that bedrock geology remains the dominant control on the major ion chemistry of the Wiesent River and that agricultural influences are strongest near the headwaters despite increased land use further downstream, due to long‐term storage and accumulation in karst aquifers. This feature may not be unique to the Wiesent River system, as carbonates cover significant portions of the Earth's surface and subsequent work in other river systems could establish whether such patterns are ubiquitous worldwide.
title Major ion patterns of the Wiesent River catchment (Germany) measured in 2010
topic
url https://doi.org/10.1594/PANGAEA.885224