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Publication Date

2-18-2021

Publication Title

Hydrogeology Journal

Volume Number

29

Abstract

Over the past decades, fractured and karst groundwater systems have been studied intensively due to their high vulnerability to nitrate (NO3 − ) contamination, yet nitrogen (N) turnover processes within the recharge area are still poorly understood. This study investigated the role of the karstified recharge area in NO3 − transfer and turnover by combining isotopic analysis of NO3 − and nitrite (NO2 − ) with time series data of hydraulic heads and specific electrical conductivity from groundwater monitoring wells and a karstic spring in Germany. A large spatial variability of groundwater NO3 − concentrations (0.1–0.8 mM) was observed, which cannot be explained solely by agricultural land use. Natural-abundance N and O isotope measurements of NO3 − (δ15N and δ18O) confirm that NO3 − derives mainly from manure or fertilizer applications. Fractional N elimination by denitrification is indicated by relatively high δ15N- and δ18O-NO3 − values, elevated NO2 − concentrations (0.05–0.14 mM), and δ15N-NO2 − values that were systematically lower than the corresponding values of δ15N-NO3 − . Hydraulic and chemical response patterns of groundwater wells suggest that rain events result in the displacement of water from transient storage compartments such as the epikarst or the fissure network of the phreatic zone. Although O2 levels of the investigated groundwaters were close to saturation, local denitrification might be promoted in microoxic or anoxic niches formed in the ferrous iron-bearing carbonate rock formations. The results revealed that (temporarily) saturated fissure networks in the phreatic zone and the epikarst may play an important role in N turnover during the recharge of fractured aquifers.

Document Type

Article

Digital Object Identifier (DOI)

https://doi.org/10.1007/s10040-021-02314-2

Language

English

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