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Novel evaluations of sources and sinks of dissolved oxygen via stable isotopes in lentic water bodies

Marlene Dordoni, Michael Seewald, Karsten Rinke, Jakob Schmidmeier, Johannes A. C. Barth

SCIENCE OF THE TOTAL ENVIRONMENT(2022)

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Abstract
Dissolved oxygen (DO) dynamics of a temperate drinking water reservoir in the Harz Mountains (Germany) were investigated over a time period of 18 months. Via depth profiles in a fortnightly sampling resolution we were able to trace DO and temperature dynamics including the formation and breakdown of a Metalimnetic Oxygen Minimum (MOM) by means of DO concentration, saturation patterns and stable isotope ratios of dissolved oxygen (expressed as delta O-18(DO)). Over the evaluation period, 19.4 % of the samples collected had delta O-18(DO) values compatible with atmospheric equilibration ( + 24.6 parts per thousand +/- 0.4 parts per thousand). With values smaller and larger than this threshold, the remaining delta O-18(DO), values showed that 40.8 % of our samples were dominated by photosynthesis and 39.8 % by respiration. From December to April the reservoir was mixed and DO consumption by respiration exceeded production via photosynthesis. During stratification period, quantification of respiration/photosynthesis rates (R/P) confirmed the epilimnion as a photosynthetic (i.e. net-autotrophic) environment while the hypolimnion was heterotrophic and dominated by respiration at various degrees. Samples of the MOM zone showed the highest R/P ratios and had among the most positive delta O-18(DO) signals caused by respiration. This study showed that combinations of DO concentrations and their isotope ratios are promising to quantify critical zones of respiration and photosynthesis in aquatic environments.
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Key words
Lentic water bodies,Atmospheric influence,Respiration,Photosynthesis,Metalimnetic Oxygen Minimum (MOM),R/P ratios
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