Abstract
The “pharmaceutical” polar organic integrative sampler (POCIS) is a passive sampler composed of an outer polyethersulfone (PES) membrane and an inner receiving Hydrophilic-Lipophilic Balance (HLB) phase. Target micropollutants can accumulate in the POCIS HLB phase following different uptake patterns. Two of the most common ones are a first-order kinetic uptake (Chemical Reaction Kinetic 1, CRK1 model), and a first-order kinetic uptake with an inflexion point (CRK2 model). From a previous study, we identified 30 and 13 micropollutants following CRK1 and CRK2 accumulation model in the POCIS HLB phase, respectively. We hypothesized that uptake in the outer PES membrane of POCIS may influence the uptake pathway. Thus, novel measurements of uptake in PES membrane were performed for these micropollutants to characterise kinetic accumulation in the membrane with and without the HLB phase. We determined, for the first time, the membrane-water distribution coefficient for 31 micropolluants. Moreover, the lag times for molecules to breakthrough the POCIS membrane increased with increasing hydrophobicity, defined by the octanol-water dissociation constant Dow. However, Dow alone was insufficient to predict whether uptake followed a CRK1 or CRK2 model in the POCIS HLB phase. Thus, we performed a factorial discriminant analysis considering several molecular physico-chemical properties, and the model of accumulation for the studied micropollutants can be predicted with >90% confidence. The most influent properties to predict the accumulation model were the log Dow and the polar surface area of the molecule (>70% confidence with just these two properties). Molecules exhibiting a CRK1 uptake model for the POCIS HLB phase tended to have log Dow>2.5 and polar surface area <50Ǻ2.
Highlights
Passive samplers are useful tools for the measurement of organic micropollutant concentrations in surface waters
Polar Organic Chemical Integrative Sampler (POCIS) is made of a solid receiving phase sandwiched between 2 polyethersulfone (PES) membranes (0.1 μm pore size)
The CFHLB uptake curves obtained previously (Morin et al, 2013) were tested to see if they belong to CRK1 model (Eq (6)) or CRK2 model (Eq (8)), as well as the 43 CFmembrane as described above
Summary
Passive samplers are useful tools for the measurement of organic micropollutant concentrations in surface waters. These devices are usually exposed in natural or waste waters for periods from a few days to several weeks, during which they accumulate micropollutants by passive uptake. The Polar Organic Chemical Integrative Sampler (POCIS) is often used (Alvarez et al, 2004; Zabiegała et al, 2010). POCIS has been applied for investigating micropollutants in water quantitatively (Lissalde et al, 2011; Mazzella et al, 2007) and qualitatively (Alvarez et al, 2005), as well as in bioaccumulation studies (Vermeirssen et al, 2005)
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