The use of lipid-containing semipermeable membrane
devices (SPMDs) is becoming commonplace, but very little
sampling rate data are available for the estimation of
ambient contaminant concentrations from analyte levels
in exposed SPMDs. We determined the aqueous sampling
rates (R
ss; expressed as effective volumes of water
extracted daily) of the standard (commercially available
design) 1-g triolein SPMD for 15 of the priority pollutant (PP)
polycyclic aromatic hydrocarbons (PAHs) at multiple
temperatures and concentrations. Under the experimental
conditions of this study, recovery-corrected R
s values
for PP PAHs ranged from ≈1.0 to 8.0 L/d. These values
would be expected to be influenced by significant changes
(relative to this study) in water temperature, degree of
biofouling, and current velocity-turbulence. Included in this
paper is a discussion of the effects of temperature and
octanol−water partition coefficient (K
ow); the impacts of
biofouling and hydrodynamics are reported separately. Overall,
SPMDs responded proportionally to aqueous PAH
concentrations; i.e., SPMD R
s values and SPMD-water
concentration factors were independent of aqueous
concentrations. Temperature effects (10, 18, and 26 °C)
on R
s values appeared to be complex but were relatively
small.
Bisphenol A (BPA) is a monomer with estrogenic activity that is used in the production of food packaging, dental sealants, polycarbonate plastic, and many other products. The monomer has previously been reported to hydrolyze and leach from these products under high heat and alkaline conditions, and the amount of leaching increases as a function of use. We examined whether new and used polycarbonate animal cages passively release bioactive levels of BPA into water at room temperature and neutral pH. Purified water was incubated at room temperature in new polycarbonate and polysulfone cages and used (discolored) polycarbonate cages, as well as control (glass and used polypropylene) containers. The resulting water samples were characterized with gas chromatography/mass spectrometry (GC/MS) and tested for estrogenic activity using an MCF-7 human breast cancer cell proliferation assay. Significant estrogenic activity, identifiable as BPA by GC/MS (up to 310 micro g/L), was released from used polycarbonate animal cages. Detectable levels of BPA were released from new polycarbonate cages (up to 0.3 micro g/L) as well as new polysulfone cages (1.5 micro g/L), whereas no BPA was detected in water incubated in glass and used polypropylene cages. Finally, BPA exposure as a result of being housed in used polycarbonate cages produced a 16% increase in uterine weight in prepubertal female mice relative to females housed in used polypropylene cages, although the difference was not statistically significant. Our findings suggest that laboratory animals maintained in polycarbonate and polysulfone cages are exposed to BPA via leaching, with exposure reaching the highest levels in old cages.
We evaluated the effects of feeding farm-raised mink (Mustela vison) diets containing polychlorinated biphenyl (PCB)-contaminated fish from the Housatonic River (HR; Berkshire County, MA, USA) on adult reproductive performance and kit growth and survival. Diets contained 0.22-3.54% HR fish, providing 0.34-3.7 microg total PCBs (TPCB)/g feed wet wt (3.5-68.5 pg toxic equivalence [TEQ]/g). Female mink were fed diets before breeding through weaning of kits. Twelve kits from each treatment were maintained on their respective diets for an additional 180 d. Dietary PCBs had no effect on the number of offspring produced, gestation period, or other measures of adult reproductive performance. Mink kits exposed to 3.7 microg TPCB/g feed (68.5 pg TEQ/ g) in utero and during lactation had reduced survivability between three and six weeks of age. The lethal concentrations to 10 and 20% of the population (LC10 and LC20, respectively) were estimated to be 0.231 and 0.984 microg TPCB/g feed, respectively. Because inclusion of PCB-contaminated fish that composed approximately 1% of the diet would reduce mink kit survival by 20% or more, it is likely that consumption of up to 30-fold that quantity of HR fish, as could be expected for wild mink, would have an adverse effect on wild mink populations.
The effects of feeding ranch mink (Mustela vison) diets containing polychlorinated biphenyl (PCB)-contaminated fish (88 gold fish [Carassius auratus] weighing a total of 70.3 kg and 16 carp [Cyprinus carpio] weighing a total of 77.3 kg) collected from the Housatonic River (HR; Berkshire County, MA, USA) in October 1999 on organ weights and histology and hepatic concentrations of total PCBs (sigmaPCBs) and 2,3,7,8-tetrachlorodibenzo-p-dioxin toxic equivalence (TEQ) were evaluated. Diets contained 0.22 to 3.54% HR fish, which provided 0.34 to 3.7 microg sigmaPCBs/g feed (3.5-69 pg TEQ/g feed). Female mink were fed the diets eight weeks before breeding through weaning of kits at six weeks of age. Offspring were maintained on their respective diets for an additional 180 d. The dietary concentration of PCBs that caused a decrease in kit survival (3.7 microg EPCBs/g feed [69 pg TEQ/g]) resulted in a maternal hepatic concentration of 3.1 microg sigmaPCBs/g wet weight (218 pg TEQ/g). Organ weights were not consistently affected. Mandibular and maxillary squamous cell proliferation was apparent in 31-week-old juveniles exposed to as low as 0.96 microg sigmaPCBs/g feed (9.2 pg TEQ/g). Juveniles in this treatment group had a liver concentration of 1.7 microg sigmaPCBs/g wet weight (40 pg TEQ/g). Because inclusion of PCB-contaminated fish, which comprised approximately 1% of the diet, resulted in mandibular and maxillary squamous cell proliferation, it is possible that consumption of up to 30-fold that quantity of HR fish, as could be expected for wild mink, would result in more severe lesions characterized by loss of teeth, thus impacting survivability.
The semipermeable membrane device (SPMD) technology, developed and patented by the National Biological Service's (NBS) Midwest Science Center (MSC), was used to determine the presence of bioavailable organochlorine (OC) pesticides in the water of the main stem Missouri River. Specifically, the SPMDs were deployed for 28 days at five main stem sites-Sioux City, IA; Nebraska City, NE; Kansas City, MO (above metropolitan area); Glasgow, MO; and Hermann, MO. In general, OCs were present at all sites. Of all targeted analytes, the chlordane components, heptachlor expoxide, toxaphene, and dieldrin were generally present at the highest concentrations. For example, heptachlor epoxide ranged from a high of 180 ng/sample at Hermann to a low of 22 ng/sample at Sioux City, while dieldrin ranged from a high of 800 ng/sample at Glasgow to a low of 64 ng/sample at Sioux City. Replicate ( n = 4) SPMD samplers sequestered similar quantities (typical CV = 10-35%) of each OC pesticide. The sequestered residues represent an estimation of bioavailable (by respiration process) or dissolved OCs present in the main stem of the Missouri River.
ES9500668@Abstract published in Advance ACS Abstracts, August 1, 1995.
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