2021
DOI: 10.1016/j.scitotenv.2020.143418
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Variations of sedimentary Fe and Mn fractions under changing lake mixing regimes, oxygenation and land surface processes during Late-glacial and Holocene times

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Cited by 36 publications
(21 citation statements)
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“…We have shown that sedimentary Mn, Fe, and P contents can be laterally highly variable within a lake, and therefore the analysis of a depth transect of sediment cores allows much better‐informed insights into geochemical processes in the lakes sediments. Our results underline that the interpretation of paleo‐redox conditions using sedimentary Mn and Fe should consider geochemical focusing and potential depletion or enrichment of these elements as authigenic minerals in sediments, corroborating earlier work of Naeher et al (2013) and Makri et al (2020). We think that geochemical focusing of Mn and Fe is a common process that is characteristic of aquatic systems, where an oxic water column is underlain by sediments with a redox potential that allows for reduction and subsequent diffusion of dissolved Mn and Fe across the benthic interface.…”
Section: Discussionsupporting
confidence: 91%
“…We have shown that sedimentary Mn, Fe, and P contents can be laterally highly variable within a lake, and therefore the analysis of a depth transect of sediment cores allows much better‐informed insights into geochemical processes in the lakes sediments. Our results underline that the interpretation of paleo‐redox conditions using sedimentary Mn and Fe should consider geochemical focusing and potential depletion or enrichment of these elements as authigenic minerals in sediments, corroborating earlier work of Naeher et al (2013) and Makri et al (2020). We think that geochemical focusing of Mn and Fe is a common process that is characteristic of aquatic systems, where an oxic water column is underlain by sediments with a redox potential that allows for reduction and subsequent diffusion of dissolved Mn and Fe across the benthic interface.…”
Section: Discussionsupporting
confidence: 91%
“…The Mn/Fe ratio, often used to track past O 2 content in bottom waters and changing redox conditions, was used as a proxy for water-column oxygen concentration 46 . The Mn/Fe ratios display highest values at depths of 200, 150 and 60 cm, suggesting periods of permanent anoxia during warmer conditions and excessive nutrient inputs 47 . The Fe/Ti ratio provides information about fluvial sediment sources.…”
Section: Resultsmentioning
confidence: 99%
“…The decrease in the Fe/Mn ratio since ∼1990 (Figure 7) may be indicative of redox‐controlled Fe mobilization and more reducing conditions in the hydrologically connected soils around Lake Bolmen. Since Mn is more readily reduced than Fe, a selective transport of Mn in relation to Fe has been interpreted to reflect reducing conditions in catchment soils (Engstrom & Wright, 1984), although the sedimentary Fe/Mn ratio as a proxy for past redox conditions should be interpreted with care as Fe and Mn accumulation are not solely redox driven (Makri et al., 2021). Moreover, the baseline shifts of Fe and color around 1999 (Figure 2) were likely triggered by a very wet period, and were observed also in lakes in Norway (Haaland et al., 2010; Riise et al., 2018).…”
Section: Discussionmentioning
confidence: 99%