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Denitrification and Nitrogen Burial in Swiss Lakes

Beat Müller, Joseph S. Meyer, René Gächter

2022Environmental Science & Technology18 citationsDOIOpen Access PDF

Abstract

Earth’s nitrogen (N) cycle is imbalanced because of excessive anthropogenic inputs. Freshwater lakes efficiently remove N from surface waters by transformation of NO3– to atmospheric N2 and/or N2O (denitrification; DN) and by burial of organic N in sediments (net sedimentation; NS). However, relatively little is known about the controlling environmental conditions, and few long-term measurements on individual lakes are available to quantify conversion rates. We report N-elimination rates in 21 Swiss lakes estimated from whole-lake N budgets covering up to ∼20 years of monitoring. The NO3– concentration in the bottom water was the main predictor of DN. Additionally, DN rates were positively correlated with external N load and the area-specific hydraulic loading rate (mean depth/water residence time; Qs). NS of N was strongly related to total phosphorus (P) concentration. Nitrogen removal efficiency (NRE), the fraction of the load of dissolved N to a lake removed by DN and NS, was strongly negatively related to Qs. This previously unconsidered variable improves the predictability of NRE and does not require knowledge of N and P loading rates or concentrations. We conclude that P management alone intended to oligotrophy lakes only slightly increases N export unless it is accompanied by N management.

Topics & Concepts

DenitrificationEnvironmental scienceSedimentationNitrogenResidence time (fluid dynamics)Geochemical cycleHydrology (agriculture)Biogeochemical cyclePhosphorusEnvironmental chemistrySedimentNitrogen cycleEcologyChemistryGeologyBiologyOrganic chemistryGeotechnical engineeringPaleontologySoil and Water Nutrient DynamicsAquatic Ecosystems and Phytoplankton DynamicsMarine and coastal ecosystems
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