Abstract

Abstract. Dissolved organic carbon (DOC) exports from many catchments in Europe and North-America are steadily increasing. Several studies have sought to explain this observation. As possible causes, a decrease in acid rain or sulfate deposition, concomitant reductions in ionic strength and increasing temperatures were identified. DOC often originates from riparian wetlands; but here, despite higher DOC concentrations, ionic strength in pore waters usually exceeds that in surface waters. In the catchment under study, DOC concentrations were synchronous with dissolved iron concentrations in pore and stream water. This study aims at testing the hypothesis that DOC exports are mediated by iron reduction/oxidation cycles. Following the observed hydrographs, δ18O of water and DOC fluorescence, the wetlands were identified as the main source of DOC. Antecedent biogeochemical conditions, i.e., water table levels in the wetlands, influenced the discharge patterns of nitrate, iron and DOC during an event. The correlation of DOC with pH was positive in pore waters, but negative in surface waters; it was negative for DOC with sulfate in pore waters, but only weak in surface waters. Though, the positive correlation of DOC with iron was universal for pore and surface water. The decline of DOC and iron concentrations in transition from anoxic wetland pore water to oxic stream water suggests a flocculation of DOC with oxidising iron, leading to a drop in pH in the stream during high DOC fluxes. The pore water did not per se differ in pH. There is, thus, a need to consider processes more thoroughly of DOC mobilisation in wetlands when interpreting DOC exports from catchments. The coupling of DOC with iron fluxes suggested that increased DOC exports could at least, in part, be caused by increasing activities in iron reduction, possibly due to increases in temperature, increasing wetness of riparian wetlands, or by a shift from sulfate dominated to iron reduction dominated biogeochemical regimes.

Highlights

  • Earth System Sciences centrations were synchronous with dissolved iron concentra- Dissolved organic carbon (DOC) plays an important role in tions in pore and stream water

  • This study aims at testing the acid-base chemistry of surface waters

  • DOC concentrations in pore and surface waters were strongly and linearly correlated with iron, supporting the hypothesis that iron redox dynamics exerts a major control on DOC mobilisation

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Summary

Introduction

Earth System Sciences centrations were synchronous with dissolved iron concentra- Dissolved organic carbon (DOC) plays an important role in tions in pore and stream water. Tive in pore waters, but negative in surface waters; it was neg- DOC represents a signifiScaontlcidontEribaurtitohn to overall carative for DOC with sulfate in pore waters, but only weak in bon fluxes (Limpens et al, 2008). The positive correlation of DOC with has been increasing concern about the observation that DOC iron was universal for pore and surface water. The decline of concentrations in the discharge of many temperate catch-

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