Joanna D. Stokes scite author profile

Traditionally, soil extraction techniques have been concerned with the determination of "total" organic contaminant concentrations, following an "exhaustive" extraction. However, in light of the increasing body of knowledge relating to organic contaminant availability and aging, such methods have little relevance to the amount of contaminant that may pose an ecological risk i.e., the "bioavailable" portion. Less exhaustive techniques have therefore been the subject of more recent approaches in the hope that they may access the "labile" or bioavailable pool. The use of an aqueous-based extraction technique utilizing hydroxypropyl-β-cyclodextrin (HPCD) is presented here for the extraction of PAHs from soil. The optimization of the method is described in terms of HPCD concentration, extraction time, and solution buffering. The procedure is then tested and validated for a range of 14 C-labeled PAHs (phenanthrene, pyrene, and benzo[a]pyrene) added at a range of concentrations to a range of soil types. The amounts of soilassociated phenanthrene mineralized by catabolically active microorganisms were correlated with total residual phenanthrene concentrations (r 2 ) 0.889; slope of best fit line ) 0.763; intercept ) -5.662; n ) 24), dichloromethane (DCM)-extractable phenanthrene concentrations (r 2 ) 0.986; slope of best fit line ) 0.648; intercept ) 0.340; n ) 24), butan-1-ol (BuOH)-extractable phenanthrene concentrations (r 2 ) 0.957; slope of best fit line ) 0.614; intercept ) 0.544; n ) 24), and HPCD-extractable phenanthrene concentrations (r 2 ) 0.964; slope of best fit line ) 0.997; intercept ) 0.162; n ) 24). Thus, in this study, the microbially bioavailable concentrations of soil-associated phenanthrene were best predicted using the optimized HPCD extraction technique. In contrast, the DCM Soxhlet extraction and the BuOH shake extraction both overestimated phenanthrene bioavailability by, on average, >60%.

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Prediction of polycyclic aromatic hydrocarbon biodegradation in contaminated soils using an aqueous hydroxypropyl‐β‐cyclodextrin extraction technique

Stokes

Wilkinson

Reid

et al. 2005

Enviro Toxic and Chemistry

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This study investigated the use of an aqueous hydroxypropyl-beta-cyclodextrin (HPCD) shake extraction to predict the degree of microbial degradation of polycyclic aromatic hydrocarbons (PAHs) in soils. Three different aged PAH-contaminated soils were studied: A soil from a former coke works (CW) and two artificially contaminated soils (AC1 and AC2). First, the catabolic activity of the indigenous soil microflora was assessed with 14C-respirometry, using a range of 14C-labeled aromatic compounds. Extensive mineralization of several compounds occurred in the CW and the AC2 soils, suggesting that both soils contained catabolically active microorganisms. No significant mineralization occurred in the AC1 soil, implying that either it did not contain an indigenous PAH-degrading microbial population or that degradation, but not mineralization, occurred. The soils then were subjected to three sets of analyses: dichloromethane (DCM) soxhlet extraction, six-week biodegradation assay followed by DCM extraction, and extraction with HPCD followed by DCM extraction. A general decrease in PAHs present in the soils occurred after the biodegradation assay. In the CW and the AC1 soils, strong correlations were observed between the amount of PAHs biodegraded and the fraction of PAHs removed from the soils using the HPCD extraction. However, the AC2 soil showed a more modest correlation between the biodegradable fraction and the HPCD extractable fraction, with the HPCD extraction slightly underestimating the extent of PAH biodegradation. The results of this study indicated that an aqueous HPCD extraction may be a useful tool in assessing the microbial availability of aged contaminant mixtures in soils, although further validation is required.

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Behaviour and assessment of bioavailability of organic contaminants in soil: relevance for risk assessment and remediation

Stokes¹,

Paton²,

Semple³

2005

Soil Use and Management

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Abstract. Soils contaminated with organic chemicals are now widespread in industrialized and developing countries, and the risk assessment and remediation of such contaminated sites is a priority. However, containment and remediation strategies are complicated in many cases by the range of contaminants present and the historical nature of the contamination. Research has increased our understanding of the behaviour of organic contaminants in soil and the factors that control their behaviour. There is a fundamental need to understand and, where possible, quantify the bioavailable fraction as well as the total concentration of contaminant present in soil: the bioavailable fraction is key to toxicity or biodegradation. To quantify these fractions, a large number of techniques have been employed, ranging from organic and aqueous based solvent extractions to the use of biota. Many studies have been carried out investigating the use of chemical techniques to describe bioavailability, which could be used in the assessment and remediation of contaminated land. The aim of this review is to consider the behaviour of organic contaminants in soil, highlighting issues of bioavailability, and then to discuss the relevance of the various methods for assessing risk and potential remediation of organic contaminants in soil.

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A simple¹⁴C-respirometric method for assessing microbial catabolic potential and contaminant bioavailability

et al. 2001

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This paper describes the validation and application of a simple flask-based (14)C-respirometer system designed to assess mineralisation of (14)C-labelled substrates under defined conditions. Validation of this respirometer system indicated stoichiometric CO(2) trapping up to a maximum of 400 micromol of CO(2) (in a single trap). Polycyclic aromatic hydrocarbon (PAH)-degrading bacteria were used to measure growth-linked biodegradation of [(14)C]naphthalene to (14)CO(2). A (14)C activity balance of 101.7+/-8.9% (n=6), after 74 h incubation time and 10 respirometer-opening events, indicated the suitability of the system for monitoring substrate mineralisation. This respirometric apparatus was then successfully applied to assess: (i) the PAH catabolism of microbes in a field contaminated soil, where naphthalene and phenanthrene were rapidly mineralised and (ii) soil-associated organic contaminant bioavailability, where increased soil-phenanthrene contact time resulted in a reduction in phenanthrene mineralisation in the soil. The described respirometer system differs from existing respirometer systems in that the CO(2) trap can be removed and replaced quickly and easily. The system is efficient, reproducible, adaptable to many situations, easy to construct and simple to use, it therefore affords advantages over existing systems.

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Joanna D. Stokes

Nonexhaustive Cyclodextrin-Based Extraction Technique for the Evaluation of PAH Bioavailability

Prediction of polycyclic aromatic hydrocarbon biodegradation in contaminated soils using an aqueous hydroxypropyl‐β‐cyclodextrin extraction technique

Behaviour and assessment of bioavailability of organic contaminants in soil: relevance for risk assessment and remediation

A simple¹⁴C-respirometric method for assessing microbial catabolic potential and contaminant bioavailability

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Joanna D. Stokes

Nonexhaustive Cyclodextrin-Based Extraction Technique for the Evaluation of PAH Bioavailability

Prediction of polycyclic aromatic hydrocarbon biodegradation in contaminated soils using an aqueous hydroxypropyl‐β‐cyclodextrin extraction technique

Behaviour and assessment of bioavailability of organic contaminants in soil: relevance for risk assessment and remediation

A simple14C-respirometric method for assessing microbial catabolic potential and contaminant bioavailability

Contact Info

Product

Resources

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A simple¹⁴C-respirometric method for assessing microbial catabolic potential and contaminant bioavailability