Determination of deployment specific chemical uptake rates for SDB-RPD Empore disk using a passive flow monitor (PFM) |
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Authors: | O'Brien Dominique Bartkow Michael Mueller Jochen F |
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Institution: | a The University of Queensland, National Research Centre for Environmental Toxicology (Entox), 39 Kessels Rd., Coopers Plains, QLD 4108, Australia b Queensland Bulk Water Supply Authority Trading as Seqwater, Level 3, 240 Margaret St., Brisbane City QLD 4000, PO Box 16146, City East QLD 4002, Australia |
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Abstract: | The use of the adsorbent styrenedivinylbenzene-reverse phase sulfonated (SDB-RPD) Empore disk in a chemcatcher type passive sampler is routinely applied in Australia when monitoring herbicides in aquatic environments. One key challenge in the use of passive samplers is mitigating the potentially confounding effects of varying flow conditions on chemical uptake by the passive sampler. Performance reference compounds (PRCs) may be applied to correct sampling rates (Rs) for site specific changed in flow and temperature however evidence suggests the use of PRCs is unreliable when applied to adsorbent passive samplers. The use of the passive flow monitor (PFM) has been introduced for the assessment of site-specific changes in water flow. In the presented study we have demonstrated that the Rs at which both atrazine and prometryn are accumulated within the SDB-RPD-Empore disk is dependent on the flow conditions. Further, the calibration of the measured Rs for chemical uptake by the SDB-RPD-Empore disk to the mass lost from the PFM has shown that the PFM provides an accurate measure of Rs for flow velocities from 0 to 16 cm s−1. Notably, for flow rates >16 cm s−1, a non linear increase in the Rs of both herbicides was observed which indicates that the key resistance to uptake into the SDB-RPD Empore disk is associated with the diffusion through the overlying diffusion limiting membrane. Overall the greatest uncertainty remains at very low flow conditions, which are unlikely to often occur in surface waters. Validation of the PFM use has also been undertaken in a limited field study. |
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Keywords: | Herbicide Passive sampling SDB-Empore Chemcatcher |
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