The effect of pH, dissolved humic substances, and ionic composition on the transfer of iron and phosphate to particulate size fractions in epilimnetic lake water

Shaw, Peter

doi:10.4319/lo.1994.39.7.1734

Cited by 28 publications

(15 citation statements)

References 14 publications

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“…Although they present a high heterogeneity, they have properties in common: their propensity to aggregate (Ghosh & Schnitzer, 1980; Leppard et al ., 1986); and their complexation properties towards cations (Stumm & Morgan, 1996). Amongst others, they are known to stabilize iron cations (HA‐Fe 2+ , HA‐Fe 3+ ) in solution (Luther et al ., 1992; Shaw, 1994). In our study, analytical electron microscopy shows that humic substances also act as nucleation sites for the formation of iron oxy(hydr)oxide.…”

Section: Discussionmentioning

confidence: 99%

Analytical electron microscopy as a tool for accessing colloid formation process in natural waters

Mondi

Leifer

Mavrocordatos

et al. 2002

Journal of Microscopy

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SummaryAnalytical electron microscopy was used to characterize aquatic iron-rich colloids. We focused our attention on a redox transition medium in the drainage water of a peat soil. In the anoxic peat water, observations by transmission electron microscopy and associated energy dispersive analyses (TEM-EDS) highlight the presence of spherical entities ( ∼ 100-600 nm), containing only traces of iron. The increase of dissolved oxygen concentration favours the formation of iron oxy(hydr)oxides. In the oxygenated drain, particles with the same morphology and size range are present. Statistical TEM-EDS analyses show that they represent the only colloidal form of iron in the drain samples. Nevertheless, although Fe-K peaks appear clearly on EDS spectra, the proportion of iron in these colloids reaches at most 4% at. (whereas C + O > 90% at.). Structural information completes this study. Both electron spectroscopic imaging (ESI) and electron energyloss spectroscopy (EELS) reveal the disparity between element distributions within the drain entities. Iron and calcium are preferably distributed on the outer sphere of the particle, whereas carbon and oxygen follow the theoretical variation of the signal intensity within a plain sphere. The implication of organic matter as nucleation site for iron precipitation is spectacularly demonstrated by the presence of nanometre-sized iron-rich phases highlighted by EELS line scans.

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Section: Discussionmentioning

confidence: 99%

Analytical electron microscopy as a tool for accessing colloid formation process in natural waters

Mondi

Leifer

Mavrocordatos

et al. 2002

Journal of Microscopy

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“…So, in flooded forests, the control of nutrient bioavailability is rather complex. The water saturation of soils causes a decrease of redox potential that favours the P bioavailability (Fardeau and Dorioz 2000;Patrick et al 1985;Shaw 1994), but leads to the removal of nitrate nitrogen by denitrification (Haycock and Pinay 1993;Lowrance et al 1984;Lowrance et al 1995;Pinay et al 1993).…”

Section: Introductionmentioning

confidence: 98%

Phosphorus and nitrogen allocation in Allium ursinum on an alluvial floodplain (Eastern France). Is there an effect of flooding history?

2009

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The change in phosphorus and nitrogen content in a common geophyte spring species, Allium ursinum, is studied in alluvial forests in relation to three flooding histories related to river regulation: (1) annually flooded, (2) unflooded for 30 years, and (3) unflooded for 200 years. Flood suppression leads to a reduction of available P soil content as well as decreasing the biomass and the amount of phosphorus in plants, but has no significant effect on N plant content. Plant N:P ratio increases with the suppression of floods and is primarily driven by soil N:P ratios, in turn markedly linked to the total nitrogen in the soil. We highlighted a lower nutrient accumulation in leaves during plant growth in unflooded forests. Overall, our results suggest that P was the main limiting factor in unflooded forests while nitrogen was the main limiting factor in annually flooded forests. Flood suppression strongly affects the morphology and nutrient uptake by Allium ursinum and thus nutrient cycling in riverine forests.

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“…Humic acids are the mixture of polyelectrolytes covering a wide range of molecular weight and containing carboxyl and hydroxyl functional groups [5,6]. They bind many inorganic ions such as aluminum [7,8] and iron [9]. Investigation of copper ion adsorption on biowaste containing humic acids showed [10,11] that the concentration of copper ions bound by humic acid decreases when the pH of the mixture increases.…”

Section: Introductionmentioning

confidence: 99%

Treatment of humic acids with ferric, aluminum, and chromium ions in water

Kislenko¹,

Оliynyk²

2004

Journal of Colloid and Interface Science

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The effect of pH, dissolved humic substances, and ionic composition on the transfer of iron and phosphate to particulate size fractions in epilimnetic lake water

Cited by 28 publications

References 14 publications

Analytical electron microscopy as a tool for accessing colloid formation process in natural waters

Analytical electron microscopy as a tool for accessing colloid formation process in natural waters

Phosphorus and nitrogen allocation in Allium ursinum on an alluvial floodplain (Eastern France). Is there an effect of flooding history?

Treatment of humic acids with ferric, aluminum, and chromium ions in water

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