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Identification of groundwater nitrogen point source contribution through combined distribute temperature sensing and in-situ UV photometry

Description: Das Projekt "Identification of groundwater nitrogen point source contribution through combined distribute temperature sensing and in-situ UV photometry" wird vom Umweltbundesamt gefördert und von Universität Gießen, Institut für Landschaftsökologie und Ressourcenmanagement, Professur für Landschafts-, Wasser- und Stoffhaushalt durchgeführt. Agriculture is the major contributor of nitrogen to ecosystems, both by organic and inorganic fertilizers. Percolation of nitrate to groundwater and further transport to surface waters is assumed to be one of the major pathways in the fate of this nitrogen. The quantification of groundwater and associated nitrate flux to streams is still challenging. In particular because we lack understanding of the spatial distribution and temporal variability of groundwater and associated NO3- fluxes. In this preliminary study we will focus on the identification and quantification of groundwater and associated nitrate fluxes by combining high resolution distributed fiber-optic temperature sensing (DTS) with in situ UV photometry (ProPS). DTS is a new technique that is capable to measure temperature over distances of km with a spatial resolution of ca1 m and an accuracy of 0.01 K. It has been applied successfully to identify and quantify sources of groundwater discharge to streams. ProPS is a submersible UV process photometer, which uses high precision spectral analyses to provide single substance concentrations, in our case NO3-, at minute intervals and a detection limit of less than 0.05 mg l-1 (ca.0.01 mg NO3--Nl-1). We will conduct field experiments using artificial point sources of lateral inflow to test DTS and ProPS based quantification approaches and estimate their uncertainty. The selected study area is the Schwingbach catchment in Hessen, Germany, which has a good monitoring infrastructure. Preliminary research on hydrological fluxes and field observations indicate that the catchment favors the intended study.

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Origin: /Bund/UBA/UFORDAT

Tags: Gießen ? Landschaftsökologie ? Mineraldünger ? Zufluss ? Nitrat ? Lack ? Fluss ? Hessen ? Nitratauswaschung ? Düngemittel ? Skigebiet ? Stickstoff ? Bundesrepublik Deutschland ? Grundwasserverunreinigung ? Hydrogeologie ? Photometrie ? Temperatur ? Limnologie ? Perkolation ? Ackerland ? Bewässerung ? Einzugsgebiet ? Hydrochemie ? Monitoring ? Nachweisgrenze ? Oberflächengewässer ? Siedlungswasserwirtschaft ? Stoffbilanz ? Studie ? Technik ? Wasserspeicher ? Grundwasser ? Wasser ? Punktquelle ? Stoff ? Faser ? Forschung ? Freilandversuch ? Hydrologie ? in situ ? Infrastruktur ? Landwirtschaft ? Ökosystem ? Versickerung ? Verkehr ? Maßnahme ? EINZELSTOFF ? VERBLEIB ? BEITRAG ? GUETER ? BEREICH ? VERFRACHTUNG ? Grundwasserspende ? Integrierte Wasser-Ressourcen Bewirtschaftung ? Konzentrat ? EIN ? NEU ? AUSGEWAEHLT ? BETRACHTUNG ? FAEHIG ? GEMISCHT ? ANGEWANDT ? EINSATZ ? OBERFLAECHE ? PFAD ? RAEUMLICHE VERTEILUNG ? UNTERSUCHUNG ?

Region: Hessen

Bounding box: 9° .. 9° x 50.55° .. 50.55°

License: cc-by-nc-nd/4.0

Language: Deutsch

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Time ranges: 2011-01-01 - 2024-11-29

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