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Nitrate isotopes reveal N-cycled waters in a spring-fed agricultural catchment.

Ioannis MatiatosLuis J Araguás-AraguásLeonard I WassenaarLucilena Rebêlo MonteiroAstrid HarjungCedric DouenceMartin Kralik
Published in: Isotopes in environmental and health studies (2022)
Nitrate stable isotopes provide information about nitrate contamination and cycling by microbial processes. The Fischa-Dagnitz (Austria) spring and river system in the agricultural catchment of the Vienna basin shows minor annual variance in nitrate concentrations. We measured nitrate isotopes ( δ 15 N, δ 18 O) in the source spring and river up to the confluence with the Danube River (2019-2020) with chemical and water isotopes to assess mixing and nitrate transformation processes. The Fischa-Dagnitz spring showed almost stable nitrate concentration (3.3 ± 1.0 mg/l as NO 3 - -N) year-round but surprisingly variable δ 15 N, δ 18 O-NO 3 - values ranging from +5.5 to +11.1‰ and from +0.5 to +8.1‰, respectively. The higher nitrate isotope values in summer were attributed to release of older denitrified water from the spring whose isotope signal was dampened downstream by mixing. A mixing model suggested denitrified groundwater contributed > 50 % of spring discharge at baseflow conditions. The isotopic composition of NO 3 - in the gaining streams was partly controlled by nitrification during autumn and winter months and assimilation during the growing season resulting in low and high δ 15 N-NO 3 - values, respectively. NO 3 - isotope variation helped disentangle denitrified groundwater inputs and biochemical cycling processes despite minor variation of NO 3 - concentration.
Keyphrases
  • drinking water
  • nitric oxide
  • health risk
  • water quality
  • risk assessment
  • human health
  • climate change
  • heavy metals
  • mass spectrometry
  • high intensity
  • health information
  • social media
  • heat stress
  • tandem mass spectrometry