2017
DOI: 10.5194/bg-14-3275-2017
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Organic carbon mass accumulation rate regulates the flux of reduced substances from the sediments of deep lakes

Abstract: Abstract. The flux of reduced substances, such as methane and ammonium, from the sediment to the bottom water (F red ) is one of the major factors contributing to the consumption of oxygen in the hypolimnia of lakes and thus crucial for lake oxygen management. This study presents fluxes based on sediment porewater measurements from different water depths of five deep lakes of differing trophic states. In mesoto eutrophic lakes F red was directly proportional to the total organic carbon mass accumulation rate (… Show more

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Cited by 38 publications
(61 citation statements)
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“…Standards were made using ICP-multi element standards (solution IV, MERCK, Certipur). Dissolved Fe 2+ was also determined spectrophotometrically (Plate Reader Biotek, Synergy HT) at 562 nm absorption using a ferrozine assay (Stookey, 1970;Braunschweig et al, 2012). Standards were made from FeCl 2 (Sigma, analytical quality) and verified using ICP-OES.…”
Section: [Fe 2+ ] and [Mn 2+ ]mentioning
confidence: 99%
“…Standards were made using ICP-multi element standards (solution IV, MERCK, Certipur). Dissolved Fe 2+ was also determined spectrophotometrically (Plate Reader Biotek, Synergy HT) at 562 nm absorption using a ferrozine assay (Stookey, 1970;Braunschweig et al, 2012). Standards were made from FeCl 2 (Sigma, analytical quality) and verified using ICP-OES.…”
Section: [Fe 2+ ] and [Mn 2+ ]mentioning
confidence: 99%
“…Standard deviations of all measurements were < 5%. The setup is described in detail by Torres et al (2013) and Steinsberger et al (2017).…”
Section: Sediment Coresmentioning
confidence: 99%
“…A one-dimensional balance model originally developed by Epping and Helder (1997) for oxygen and adapted to other dissolved substances was used to estimate species fluxes. The model, a reactiondiffusion model based on the assumption of steady-state conditions in the sediment, is described in detail in M€ uller et al (2003) and Steinsberger et al (2017). The modeled fluxes of reduced substances were then converted to oxygen equivalents based on redox stoichiometry (Matzinger et al 2010) by:…”
Section: Sediment Coresmentioning
confidence: 99%
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