Utilization and Transformation of Aquatic Humic Substances by Autochthonous Microorganisms

Hertkorn, Norbert; Claus, H.; Schmitt‐Kopplin, Philippe; Perdue, Edward M.; Filip, Z.

doi:10.1021/es010336o

Cited by 100 publications

(71 citation statements)

References 38 publications

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“…Mass balances computed from hydrogeological data showed mineralization of 50-60% of FAs in the deeper part of the shallow aquifer (Heinrichs, 1987). These data suggest that FAs contribute with increasing proportions to the deeper groundwater DOC whereas HAs, with a structure more closely related to biomolecules, probably degrade at a higher rate (Hertkorn et al, 2002a). Alternative mechanisms of removal such as sorption to the mineral soil (Feng et al, 2005) and coagulation by metal ions such as Ca 2+ ,Fe 3+ and Al 3+ (Christl and Kretzschmar, 2007) operate more effectively for HAs than FAs.…”

Section: Resultsmentioning

confidence: 89%

“…Microbial utilization and transformation of humic substances (HS) as confirmed by laboratory studies and observed in surface waters and marine environments (Bianchi et al, 1996;Krumholz et al, 1997;Lovley et al, 1999;Ogawa et al, 1999;Hertkorn et al, 2002a;Hansell et al, 2004;Qualls, 2004;Koch et al, 2005) may also occur in groundwater systems, in which microorganisms use ancient organic material trapped within shales as electron donors (Krumholz et al, 1997). In contrast to other aquatic environments, hitherto few studies have addressed molecular characterization and turnover dynamics of groundwater HS on the basis of natural samples (Leenheer et al, 2003).…”

Section: Introductionmentioning

confidence: 96%

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Rapid biotic molecular transformation of fulvic acids in a karst aquifer

Einsiedl

Hertkorn

Wolf

et al. 2007

Geochimica et Cosmochimica Acta

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The study of molecular transformation processes of dissolved organic carbon (DOC) in the environment significantly contributes to a better understanding of the global biogeochemical organic matter cycle. In an oxic karst groundwater system, in which the most powerful abiotic DOC degradative reactions, photodegradation and metal-mediated redox chemistry, are at best marginal contributors, a near complete turnover of fulvic acids (FAs) has been observed within decades ($60 years). Depletion of oxygen for a very extensive range of aliphatic and aromatic carbon chemical environments has been confirmed as well as the formation of novel classes of compounds, suggesting a major contribution from biotic processes. From these results we infer that FAs must be perceived as a rather active participant in the global carbon cycle. Molecular-level alterations of such magnitude and rapidity on such short-time scales ought to be considered as widespread in the processing of ''refractory'' DOC in the environment.

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Section: Resultsmentioning

confidence: 89%

Section: Introductionmentioning

confidence: 96%

Rapid biotic molecular transformation of fulvic acids in a karst aquifer

Einsiedl

Hertkorn

Wolf

et al. 2007

Geochimica et Cosmochimica Acta

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“…The interest in studying HS from shallow to deep aquifers has increased recently Buckau et al, 2000;Hertkorn et al, 2002;McIntyre et al, 2005;Einsiedl et al, 2008). Most geochemical studies of thermal waters are focused on isotope composition of the water as well as major and minor dissolved ions or trace elements (Varsányi et al, 1997;Kralj, 2004;Yalcin, 2007;Parello et al, 2008;Fekete et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

Comparative study on humic substances isolated in thermal groundwaters from deep aquifers below 700 m

et al. 2012

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“…An increased level of humic substances increases bacterial abundance in humic lakes (Vrede et al, 2003). Autochthonous bacteria utilise and transform aquatic humic substances (HS), decreasing particle size and aromaticity, aliphatic carbon in HS, and increasing the nitrogen content of HS, probably due to some constituents of microbial biomass, such as proteins and amino sugars (Hertkorn et al, 2002). Reduced humic substances (HS) can be reoxidised by anaerobic bacteria, and in general microbial oxidation of HS is a ubiquitous metabolism in the environment (Coates et al, 2002).…”

Section: Discussionmentioning

confidence: 99%

Water quality in cutaway peatland lakes in Seda mire, Latvia

Kļaviņš¹,

Kokorìte²,

Spriņģe³

et al. 2011

Proceedings of the Latvian Academy of Sciences. Section B. Natural, Exact, and Applied Sciences.

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Transformation into shallow lakes can be a major post-harvesting land-use option for cutaway peatlands. The aim of our study was to analyse factors influencing water quality and communities on lakes created in a cutaway bog in the Seda Mire, Latvia. The residual peat amount and the lake feeding conditions (the balance between ground water and inflow from adjacent river during the spring season) were found to be major factors influencing aquatic chemistry and studied habitats. The studied cutaway lakes cannot be considered as typical bog lakes regarding hydrochemical composition (especially regarding concentrations of major dissolved ions, pH and water colour) and hydrobiological features (metabolic activity, biomass and number of species of phytoplankton and zoobenthos). Considering aquatic chemistry and community structure of the cutaway lakes, a recommendation was made in respect to peat excavation to transform peat mining sites to lakes.

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Utilization and Transformation of Aquatic Humic Substances by Autochthonous Microorganisms

Cited by 100 publications

References 38 publications

Rapid biotic molecular transformation of fulvic acids in a karst aquifer

Rapid biotic molecular transformation of fulvic acids in a karst aquifer

Comparative study on humic substances isolated in thermal groundwaters from deep aquifers below 700 m

Water quality in cutaway peatland lakes in Seda mire, Latvia

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