Macromolecular Characteristics of Natural Organic Matter. 2. Sorption and Desorption Behavior

LeBoeuf, Eugene J.; Weber, Walter J.

doi:10.1021/es991104g

Cited by 127 publications

(127 citation statements)

References 45 publications

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“…The Phen sorption on the LG fractions did not exhibit strong nonlinearity, due in part to its aliphatic component. In contrast, nonlinear sorption (n = 0.80, 0.63) by an extracted lignin and a degraded lignin had been found in other studies (Chefetz et al, 2000;LeBoeuf and Weber, 2000). The variation in the nonlinearity of Phen sorption by lignin could be due in part to the different lignin sources, extraction methods, and sorption experiment approaches.…”

Section: Sorption Parameters On the Som Fractionsmentioning

confidence: 71%

Role of extractable and residual organic matter fractions on sorption of phenanthrene in sediments

2013

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h i g h l i g h t s" Riverine sediments were fractionated into five fractions using new methods. " A dioxane extraction procedure was applied to the separation of lignin in sediments. " Free lipid and lignin were much higher than previously reported values. " The Phen sorption for the lipid and lignin fractions was linear, whereas that for the residual fractions was nonlinear. . The sorption isotherms of phenanthrene (Phen) were examined to evaluate the importance of various fractions on sorption. A lignin extraction procedure was for the first time applied to separate the lignin or degraded lignin fraction from sediment organic matter (SOM). The extracted LG was similar to model lignin in terms of elemental ratios and sorption behavior. FL and LG fractions were quite important, as their contents were much higher than reported values. Phen sorption for the extracted fractions was almost linear, whereas that for the residual fractions was nonlinear, especially for LGF with n 0.56-0.63. As the different organic fractions were removed sequentially, sorption energy distribution on the residual sediment organic matter (SOM) became more heterogeneous. In addition, increasing sorption capacity for the residual fractions, except for BLF with its high polarity, suggested that more sorption sites on the SOM matrix became accessible to Phen. The sorption capacity for LGF was comparable to that of condensed SOM. The residual fraction LGF generally controlled the overall sorption at low Phen concentration, but the extractable fraction FL surpassed the former fraction at high Phen concentration, demonstrating the importance of condensed SOM in the sorption of hydrophobic organic compounds (HOCs) in sediments.

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Section: Sorption Parameters On the Som Fractionsmentioning

confidence: 71%

Role of extractable and residual organic matter fractions on sorption of phenanthrene in sediments

2013

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“…h [48]. i [25]. j Argonne Premium Coal Program, Argonne, IL, USA k Approximate, from Lucht et al [26].…”

Section: Sorbatesmentioning

confidence: 99%

“…First, the models are unable to predict nonlinear sorption behavior for HOC-SOM-based sorption where specific interactions between the sorbate and sorbent are not expected (i.e., beyond simple van der Waals or possible dipole-induced dipole interactions) [5,9,25]. Spurlock and Biggar [7,8] only provide evidence of the nonlinear behavior of ureas on humic acid, where dipole-dipole or greater interactions may occur, and nonlinear sorption may be expected, as noted by a number of studies of herbicides on soils [42,43].…”

Section: Concentration Dependence Ofmentioning

confidence: 99%

Reevaluation of general partitioning model for sorption of hydrophobic organic contaminants by soil and sediment organic matter

LeBoeuf

Weber

1999

Enviro Toxic and Chemistry

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Abstract-This evaluation of the polymer-based Flory-Huggins sorption theory has shown that the model predicts relatively concentration-independent values for rubbery matrices, concentration-dependent values for more glassy matrices, and highly concentration-dependent, largely negative interaction parameters for sorption of phenanthrene onto Green River kerogen, Ohio Shale II kerogen, Illinois No. 6 and Wyoming coals, and poly(phenyl methacrylate). These greatly negative enthalpic contributions to the interaction parameter are only to be expected where specific sorbate-sorbent interactions exist, such as in polar sorbatepolar sorbent systems. The failure of the nonlinear partitioning model is explained in terms of its inability to predict these increased interactions of sorbing solutes within microvoids present within glassy matrices. Calculations of sorbent solubility parameters through use of this model do, however, provide good agreement with literature solubility parameter values for specific sorbents; it may thus prove useful for partial characterization of sorbents for which solubility parameters are unknown.

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“…The study of the binding of pyrene to organic matters has revealed correlations between binding capacities, the concentrations of humic substances, specific organic matter structures, categories of organic matters, and pH [3][4][5][6][7]. The sorption capacity of pyrene to HAs and FAs differed by more than one order of magnitude.…”

Section: Introductionmentioning

confidence: 99%

Binding of pyrene to fulvic acid fractions isolated by polarity‐based sequential elution

Wang

2011

Enviro Toxic and Chemistry

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Binding between pyrene and four fulvic acid factions sequentially eluted by 0.01 M HCl (F1), 0.01 M HCl + 20% methanol (F2), 0.01 M HCl + 40% methanol (F3), and 0.01 M HCl + 100% methanol (F4) was measured by fluorescence quenching. The influences of the functional groups of the fractions under different pH conditions on the binding behavior are discussed. The results showed that the binding coefficient (log K(DOC) ) of pyrene for F1 to F4 increased from 4.19 to 5.3. Log K(DOC) was positively correlated with the aromaticity of fulvic acid fractions but negatively correlated with the ratio of (O + N)/C and the ratio of UV absorption at 250 nm and 365 nm (E₂/E₃). As an indicator of polarity around the pyrene molecule, the ratio of intensity of pyrene at 374 nm and 384 nm (I₁/I₃) decreased with the increase of fulvic acid fraction concentrations. All fractions decreased in ability to quench as the pH increased. For a given pH value, the quenching ability followed the order of F1 < F2 < F3 < F4. The differences in the effects of pH on the quenching ability of fulvic acid fractions could be attributed mainly to the conformation of the fulvic acid fractions. Hydrophobic effect and the interactions of π-electrons from the aromatic regions of the fulvic acid and pyrene played dominant roles in the binding process.

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Macromolecular Characteristics of Natural Organic Matter. 2. Sorption and Desorption Behavior

Cited by 127 publications

References 45 publications

Role of extractable and residual organic matter fractions on sorption of phenanthrene in sediments

Role of extractable and residual organic matter fractions on sorption of phenanthrene in sediments

Reevaluation of general partitioning model for sorption of hydrophobic organic contaminants by soil and sediment organic matter

Binding of pyrene to fulvic acid fractions isolated by polarity‐based sequential elution

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