Field and Greenhouse Studies of Phytoremediation with California Native Plants for Soil Contaminated with Petroleum Hydrocarbons, PAHs, PCBs, Chlorinated Dioxins/Furans, and Heavy Metals

Poltorak, Matthew Robert

01 December 2014

Native and naturalized California plant species were screened for their phytoremediation potential for the cleanup of soil contaminated with petroleum hydrocarbons (PHCs), poly-aromatic hydrocarbons (PAHs), polychlorinated biphenyls (PCBs), chlorinated dioxins/furans, and heavy metals. This screening was followed by controlled greenhouse experiments to further evaluate the phytoremediation potential of the best candidates. Field specimens and soils used for this study were collected from the former Energy Technology Engineering Center (ETEC) at the Santa Susana Field Laboratory in Southern California that was operated by the Department of Energy (DOE). Soils at this site contain all of the contaminants of interest (COIs). Nine plant species were screened in the field: Purple Needlegrass (Nassella pulchra), Blue Elderberry (Sambucus nigra), Laurel Sumac (Malosma laurina), Mule Fat (Baccharis salicifolia), Palmer’s Goldenbush (Ericameria palmeri), Summer Mustard (Hirschfeldia incana), Narrowleaf Milkweed (Asclepias fascicularis), Coyote Brush (Baccharis pilularis), and Thickleaf Yerba Santa (Eriodictyon crassifolium). In the field three samples of each species growing in contaminated soil and one of each species growing in uncontaminated soil were selected for harvesting and analysis. The roots, above ground plant tissue, and soil around the roots were sampled separately and analyzed for the COIs: PHCs, PAHs, PCBs, chlorinated dioxins/furans, and metals (which include mercury, silver, cadmium, and lead). All of the plants in the field appeared to generate compounds which result in higher measured PHC concentrations than those measured in the associated soil. The highest concentrations of PAHs in the roots were observed for Blue Elderberry (1740 ug/kg), Purple Needlegrass (703 ug/kg), and Yerba Santa (200 ug/kg). No uptake of PCBs was observed in the roots or foliage of any species. The highest concentrations of total chlorinated dioxins/furans in the roots were observed for Purple Needlegrass (2237 ng/kg), Blue Elderberry (1026 ng/kg), Palmer’s Goldenbush (432 ng/kg), and Yerba Santa (421 ng/kg). The highest concentrations of total chlorinated dioxins/furans in the foliage were observed for Yerba Santa (901 ng/kg), Palmer’s Goldenbush (757 ng/kg), and Purple Needlegrass (694 ng/kg). No uptake of mercury was observed in the roots or foliage of any species. The highest concentration of silver in the roots was observed for Laurel Sumac (7.34 mg/kg). Summer Mustard (SM) was the only species that showed uptake of silver into the foliage (0.405 mg/kg). The highest concentrations of cadmium in the roots and foliage were observed for Mule Fat (1.84 mg/kg and 3.64 mg/kg) and Coyote Brush (1.52 mg/kg and 2.12 mg/kg) and the greatest concentration of lead in the roots and foliage was observed for Purple Needlegrass (8.92 mg/kg and 1.17 mg/kg). Plants with a wide variety of observed contaminant uptake in the field were selected for a second phase of research in which three of the most promising species were grown in greenhouse microcosms to quantify the removal of contaminants from the soil. The three species selected based on preliminary results from the field study were Coyote Brush, Mule Fat, and Purple Needlegrass. Microcosms consisted of 2.17 kg of soil in 4-L glass jars with glass marbles for an underdrain. Plants were watered with deionized water and no leachate was collected. Five replicates of each microcosm type were created and incubated for 211 days with soil sampling at 85 and 211 days. Soil, plant roots/above ground tissue, and volatilization from the plants were analyzed for COIs to determine the mechanisms of phytoremediation. One set of microcosms was used to test the effect of addition of achelating agent (ethylenediaminetetraacetic acid) and another set was used to test the effect of fertilizer addition on phytoremediation potential. Three control treatments were tested: sterilized (gamma irradiation) soil planted with Purple Needlegrass, unplanted soil, and sterilized unplanted soil. None of the plant species demonstrated volatilization of COIs under these conditions. Volatilization of mercury was not tested for. The average PCB concentration (measured as Aroclor 1260) reductions in soils with Purple Needlegrass and chelated Coyote Brush were 49.4% and 51.4% respectively (p < 0.05). However, the sterilized unplanted control also had a decrease of Aroclor 1260 concentrations in the soil of 36.6% (p < 0.05). None of the species phytoextracted PCBs, so the mechanism of PCB remediation appears to be phytostimulation of the rhizosphere. Purple Needlegrass showed the greatest uptake of dioxins/furans into the foliage but did not appear to reduce the dioxin/furan concentrations in the soil. Coyote Brush, fertilized Coyote Brush, and Mule Fat also showed uptake of dioxins/furans into the roots and foliage. Only the Coyote Brush and fertilized Coyote Brush significantly (p = 0.036, p = 0.022) reduced the total dioxin/furan concentration in the soil (17.8% and 19.8% respectively). Coyote Brush may have stimulated microbes in the rhizosphere to better degrade the dioxins/furans. None of the plants were identified as hyper-accumulators of metals, and none of the soil metal concentrations significantly decreased in any of the microcosms. All of the metals (except mercury) were taken into the roots of plants to some degree, with Purple Needlegrass showing the most promise for metal extraction as it showed some of the highest concentrations of metals in roots and was the only species that contained mercury and silver in the foliage. This study suggests that there is some potential for phytoremediation of PCBs and chlorinated dioxins/furans. The results for petroleum hydrocarbons were inconclusive. Metal uptake was not substantial enough to lower metal concentrations in the soils. Thus phytoremediation of COIs at the site is limited and more aggressive forms of remediation may be required to reduce the concentrations of COIs quickly.

petroleum hydrocarbons

polychlorinated biphenyls

polyaromatic hydrocarbons

chlorinated dioxins

heavy metals

Environmental Engineering

Stanovení obsahu organických sloučenin v pevném uhlíkatém zbytku / Determination of content of organic compounds in biochar

Novotná, Martina

January 2020

Biochar is created during the pyrolysis of organic biomass. Once added into the soil, it can improve its features. Biochars made from sewage sludge have various compositions. It is because of the vast difference between entrance materials. Organic pollutants can be absorbed into its surface during the cooling proces sof pyrolysis. If released into the enviroment, these compounds can cause inhibition of plant growth, get into food chains and adversely affect living organisms. Organic pollutans are determined most often by GC/MS after organic solvent extraction.

Bioremediation of polychlorinated biphenyls (PCBs) on contaminated soils : a case study of Rietvlei Farm Borehole No. 11, Limpopo Province, South Africa

Sengani, David

January 2015

MENVM / Department of Ecology and Resource Management / Polychlorinated biphenyls (PCBs) are worldwide environmental pollutants which contaminate the environment through careless disposal practices and accidental spills or leakages from electrical transformers. These organic compounds are lipophilic chemicals soluble in fats, slightly soluble in water and readily bioaccumulated in the fatty tissues of fish, birds, animals and humans. The main objective of this study was to isolate and identify PCB degrading bacteria from PCB contaminated soils and test them for their degradation ability of PCBs in natural habitat conditions. Three bacteria species which comprise of Gram negative and Gram positive microorganisms were isolated and identified through biochemical tests, catalase tests, oxidase tests and morphological study and included Burkholderia cepacia, Pasteurella pneumotropica and Enterococcus faecalis. The results indicated that, there was an overall decrease of PCB concentration level and the readings ranged between -1.51 and -1.79 respectively for all the microorganisms. Enterococcus faecalis remove as much as 32% of PCBs in the contaminated soil samples. Whereas Pasteurella pneumotropica could remove 24% of PCBs, Burkholderia cepacia 21% of PCBs and the mixed culture removed 23%. Data showed that the 3 bacterial strains could tolerate high concentration of PCBs. The results provided the evidence that naturally occurring bacteria in soil contaminated with PCBs have the potential to degrade PCBs. Statistical analysis showed that there was a significant positive correlation between bacteria growth and treatment with a coefficient of (r) =0.1459 and p value <0.001.

Bacteria

Bioaccumulation

Biodegradation

Bioremediation

Polychorinate biphenyls

contaminated soils

615.9512

Polychlorinated biphenyls

Biphenyl compounds

Organochlorine compounds

Soil pollution

Biodegradace polychlorovaných bifenylů v podzemní vodě pomocí biologických přístupů / Biodegradation of polychlorinated biphenyls in underground water using biological approaches.

Šrédlová, Kamila

January 2015

Polychlorinated biphenyls (PCBs) are a class of important organic pollutants which undergo very slow degradation and tend to persist for a long time in the environment. PCBs have various negative effects on living organisms, human health and the environment in general. A method for determining PCB levels in aqueous matrices was developed consisting of solid-phase extraction (SPE) and GC/MS determination. The average recoveries of PCB congeners from artificially spiked deionized water were around 85%. The PCB concentration of 3.3±0.1 μg·l-1 (a sum of selected congeners) was detected in contaminated groundwater originated from the area of a former asphalt concrete producing plant. The most abundant PCBs were trichlorinated congeners which together comprised about 80% of the total PCB content. The optimised SPE method was further applied together with accelerated solvent extraction (ASE) to assess the degradation potential of oyster mushroom (Pleurotus ostreatus) which shows high degradation efficiency of various organic pollutants including PCBs. P. ostreatus belongs to ligninolytic (white-rot) fungi, which is a very promising group of microorganisms frequently studied due to their bioremediation potential. P. ostreatus, strain KRYOS was able to remove 41±8% of the initial amount (50 μg) of the...

Polychlorinated biphenyls: uptake by Daphnia and residues in crayfish from the Willamette River

Salmon, John J.

01 January 1972

Polychlorinated Biphenyls (PCB's) are organochlorine molecules which find various industrial and product applications. PCB's are of concern to biologists because they are toxic substances which have become global contaminants. They are also of concern to biologists and analytical chemists because they interfere with the determination of some organochlorine pesticide residues. PCB's were discovered to be environmental contaminants after they showed up as unidentified peaks in pesticide analysis using gas-liquid chromatography with an electron capture detector (GLC-EC). In the present experiment standard GLC-EC techniques were used to assay PCB's in Daphnia experimentally contaminated in the laboratory and in crayfish from the Willamette River. Daphnia were placed in water containing 0.1, 4, 50 or 100 parts per billion (ppb) PCB for 4 to 72 hours. There was no mortality in any of the experiments. The individual PCB compounds were apparently taken up equally, since relative peak heights were similar in the standard and the residues extracted from Daphnia. Final concentrations of PCB's in Daphnis ranged from 1200 times that of the water (at water concentrations of 100 ppb) to 104,000 times that of water (at water concentrations of 0.1 ppb). The lower concentrations used here approximate environmental PCB levels found in some areas of the U.S. and elsewhere. Assuming that chronic exposure to these lower concentrations would not strongly inhibit growth or reproduction of Daphnia,, the high biological magnification found here would suggest that Daphnia and related organisms may play an important role in the accumulation of PCB's in fresh water food webs. Digestive glands of crayfish taken from the Willamette River were analyzed for PCB's. Statistically significant regional differences were found in the concentrations of PCB's in these organisms in the lower Willamette Valley. Crayfish from the center of Portland have the highest residues (7 to 9 parts per million). A similar distribution has been previously reported for other urban areas. In the present investigation, however, the highest residues occurred in crayfish from the river at a point approximately in the center of the city itself, but two miles upstream from the major industrial areas. Thus, in this case, the major source of environmental contamination may have been released from manufactured goods (e.g., automobile tires, paints, etc.) rather than from industrial sewerage. I

Biphenyl

Crayfish -- Oregon

Ecology and Evolutionary Biology

Terrestrial and Aquatic Ecology

Selected nutrients and PCBs in the food system of the Sahtú (Hareskin) DeneMetis

Doolan, Natalia E.

January 1991

No description available.

Nutrition -- Northwest Territories.

Strengthening policy-relevant evidence in environmental epidemiology: dose-response curve estimation for varying exposure distributions

Siegel, Eva

January 2023

Environmental exposure levels are often sufficiently disparate between populations such that there is little or no overlap, complicating our ability to ascertain the full dose-response curve and as such create informed regulatory policy.I reviewed the literature on methods available to address non- and partially-overlapping exposure distributions, drawing from both epidemiology as well as other relevant disciplines to describe the universe of proposed solutions. I also used the case study of maternal PCB-153 exposure and birthweight, utilizing real-world and simulated data to explore our ability to ascertain “true” dose-response curves from observational data given the limited cohort-specific exposure ranges. I investigated the importance of controlled and uncontrolled confounding as well as the impact of sample size on our ability to ascertain a “true” underlying dose-response curve. Pooling and meta-analysis were useful to increase the heterogeneity of exposure distributions despite imperfect confounding control and heterogenous confounding structures across cohorts. The analyses also serve as continued evidence of the challenges of making population-wide inferences from study samples with restricted exposure ranges as well as the danger of pooling multisite data without sufficiently accounting for heterogeneity in both exposure level and distribution of confounders. These results highlight the limitations of using both individual studies and systematic reviews of environmental chemicals, and emphasize the need for pooling and meta-analysis to widen exposure distributions that in turn permit us to accurately capture the negative effects of these environmental chemicals.

Epidemiology

Environmental health

Pregnant women--Health risk assessment

Pollution--Health aspects

Birth weight, Low--Risk factors

Impact of polychlorinated biphenyl- and organochlorine pesticide exposure on faecal metabolome

Näsman, Maja

January 2022

The gut microbiota plays a major part in maintaining the health of a human host. Countless of crucial functions in the body, including immune responses, cell signaling and energy metabolism to name a few, are conducted by the gut microbiota and its metabolites. Accordingly, it is of interest to gain knowledge on what can alter the gut microbiota, as these alterations by extension can give rise to adverse health effects. In this study, the impact of polychlorinated biphenyl (PCB)- and organochlorine pesticide (OCP) exposure on tricarboxylic acid (TCA) cycle metabolites, short-chain fatty acids (SCFAs) and bile acids, as well as other polar and semi-polar metabolites, which are all related to the gut microbiota, were investigated. An in vitro fermentation of faecal samples exposed to a PCB/OCP mixture was performed, and liquid chromatography-time of flight mass spectrometry (LC-qToF-MS) targeted and non-targeted approaches were applied to the extracts. The results obtained suggested that PCBs and OCPs most likely have an effect on the levels of several features of the gut metabolome with either increased or decreased levels upon exposure. Bile acids and TCA metabolites appear to follow a trend of decreasing levels, while no apparent effects could be seen for the SCFAs. Furthermore, distinct concentrations of the PCB/OCP mixture appear to induce different changes in gut microbiota functioning, which highlights the importance of performing dose-response studies when exploring biological effects of these compounds. The identification of different metabolite profiles during fermentation also allows for the possibility of further investigation of potential biomarkers to assess PCB/OCP exposure.

Gut microbiota

polychlorinated biphenyls

organochlorine pesticides

tricarboxylic acid cycle

bile acids

LC-qTOF-MS.

Chemical Sciences

Kemi

Determination of Environmental Pollutants by Gas Chromatography/Mass Spectrometry with Chemometrics

Zhang, Mengliang

January 2014

No description available.

Analytical Chemistry

Environmental Studies

Chemometrics

Environmental Pollutants

Gas Chromatography Mass Spectrometry

Polychlorinated biphenyls

Solid Phase Microextraction

Trichloroethylene

THE ROLE OF ARYL HYDROCARBON RECEPTOR AND CYP1A2 IN PCB-INDUCED DEVELOPMENTAL NEUROTOXICITY

CURRAN, CHRISTINE PERDAN

January 2007

No description available.

toxicology

environmental genetics

PCBs

polychlorinated biphenyls

genetic susceptibility

AHR

aryl hydrocarbon receptor

learning and memory

behavior

neurotoxicity

immunosuppression