Your search keyword '"Rutter, Allison"' showing total 14 results

1. Effect of pumpkin root exudates on ex situ polychlorinated biphenyl (PCB) phytoextraction by pumpkin and weed species

Author

Ficko, Sarah A., Rutter, Allison, and Zeeb, Barbara A.

Published

2011

2. The fate of DDT in soils treated with hydroxypropyl-β-cyclodextrin (HPβCD).

Author

Dahmer, Carolina P., Rutter, Allison, and Zeeb, Barbara A.

Subjects

*DDT (Insecticide), *ORGANOCHLORINE pesticides, *POLYCYCLIC aromatic hydrocarbons, *POLYCHLORINATED biphenyls, *LUMBRICUS rubellus

Abstract

Point Pelee National Park (PPNP) is highly contaminated with dichlorodiphenyltrichloroethane (DDT) due to the historical use of this persistent organochlorine pesticide. Hydroxypropyl-β-cyclodextrin (HPβCD) has previously been investigated for its role in the remediation of polyaromatic hydrocarbons (PAHs) and polychlorinated biphenyls (PCBs). In the present study, HPβCD's ability to promote DDT microbial degradation, enhance DDT phytoextraction by two native grasses (Schizachyrium scoparium and Panicum virgatum), and increase DDT bioavailability to redworms (Eisenia fetida) was investigated. Using a range of HPβCD concentrations (2.5% to 10%), it was determined that it did not promote DDT microbial degradation in PPNP soils, however, it was able enhance the DDT phytoextraction ability of S. scoparium plants due to the increased water solubility of DDT. Although HPβCD application to PPNP soil did not increase DDT bioavailability to redworms, its enhanced solubility allowed it to move through the soil column, and hence groundwater contamination is a possibility. Due to this important issue, in situ use of HPβCD to remediate DDT contamination is not recommended unless measures are in place to mitigate movement into groundwater. [ABSTRACT FROM AUTHOR]

Published

2018

3. Chloride accumulation vs chloride excretion: Phytoextraction potential of three halophytic grass species growing in a salinized landfill.

Author

McSorley, Kaitlin A., Rutter, Allison, Cumming, Robert, and Zeeb, Barbara A.

Subjects

*CHLORIDES, *PHYTOREMEDIATION, *SALT-tolerant crops, *GRASS growing, *LANDFILLS

Abstract

Phragmites australis , Puccinnellia nuttalliana (salt accumulators), and Spartina pectinata (salt excretor) were investigated based on their relative abilities to phytoextract chloride from a cement kiln dust landfill in Bath, ON. Salt tolerance mechanisms were found to affect phytoextraction performance. On the basis of accumulation alone, P. australis had the greatest phytoextraction efficiency compared to the other two species due to its high biomass (despite having the lowest shoot ion concentrations). Conversely, when weekly salt excretion on the leaf surfaces of S. pectinata was accounted for over an eight week period from July to August 2014, removal of Cl − increased by 160% surpassing the extraction ability of P. australis by nearly 60%. Energy dispersive spectroscopy analysis of the excreted salt particles on S. pectinata indicates that they were composed of the plant macronutrient, potassium and micronutrient, chloride. Wind re-distribution of these nutrients may actually have beneficial effects on the environment, as they are required by both plants and animals for various metabolic functions. This is the first study to demonstrate salt excretion for the remediation of an industrially salinized landfill in Canada. [ABSTRACT FROM AUTHOR]

Published

2016

4. Phytoextraction of chloride from a cement kiln dust (CKD) contaminated landfill with Phragmites australis.

Author

McSorley, Kaitlin, Rutter, Allison, Cumming, Robert, and Zeeb, Barbara A.

Subjects

*PHYTOREMEDIATION, *CEMENT kilns, *PHRAGMITES australis, *WATER pollution, *REVEGETATION

Abstract

Cement kiln dust (CKD) is a globally produced by-product from cement manufacturing that is stockpiled or landfilled. Elevated concentrations of chloride pose toxic threats to plants and aquatic communities, as the anion is highly mobile in water and can leach into surrounding water sources. Re-vegetation and in situ phytoextraction of chloride from a CKD landfill in Bath, ON, Canada, was investigated with the resident invasive species Phragmites australis (haplotype M). Existing stands of P. australis were transplanted from the perimeter of the site into the highest areas of contamination (5.9 × 10 3 μg/g). Accumulation in the shoots of P. australis was quantified over one growing season by collecting samples from the site on a bi-weekly basis and analyzing for chloride. Concentrations decreased significantly from early May (24 ± 2.2 × 10 3 μg/g) until mid-June (15 ± 2.5 × 10 3 μg/g), and then remained stable from June to August. Shoot chloride accumulation was not significantly affected by water level fluctuations at the site, however elevated potassium concentrations in the soil may have contributed to uptake. Based on shoot chloride accumulation and total biomass, it was determined that phytoextraction from the CKD landfill can remove 65 ± 4 kg/km 2 of chloride per season. Based on this extraction rate, removal of chloride present in the highly contaminated top 10 cm of soil can be achieved in 3–9 years. This is the first study to apply phytotechnologies at a CKD landfill, and to successfully demonstrate in situ phytoextraction of chloride. [ABSTRACT FROM AUTHOR]

Published

2016

5. In situ application of activated carbon and biochar to PCB-contaminated soil and the effects of mixing regime.

Author

Denyes, Mackenzie J., Rutter, Allison, and Zeeb, Barbara A.

Subjects

BROWNFIELDS, HAZARDOUS waste site remediation, ACTIVATED carbon, BIOCHAR, SOIL amendments, BIOACCUMULATION, EFFECT of pollution on plants, POLYCHLORINATED biphenyls, INVERTEBRATES

Abstract

The in situ use of carbon amendments such as activated carbon (AC) and biochar to minimize the bioavailability of organic contaminants is gaining in popularity. In the first in situ experiment conducted at a Canadian PCB-contaminated Brownfield site, GAC and two types of biochar were statistically equal at reducing PCB uptake into plants. PCB concentrations in Cucurbita pepo root tissue were reduced by 74%, 72% and 64%, with the addition of 2.8% GAC, Burt's biochar and BlueLeaf biochar, respectively. A complementary greenhouse study which included a bioaccumulation study of Eisenia fetida (earthworm), found mechanically mixing carbon amendments with PCB-contaminated soil (i.e. 24 h at 30 rpm) resulted in shoot, root and worm PCB concentrations 66%, 59% and 39% lower than in the manually mixed treatments (i.e. with a spade and bucket). Therefore, studies which mechanically mix carbon amendments with contaminated soil may over-estimate the short-term potential to reduce PCB bioavailability. [Copyright &y& Elsevier]

Published

2013

6. The effects of pruning and nodal adventitious roots on polychlorinated biphenyl uptake by Cucurbita pepo grown in field conditions.

Author

Low, Jennifer E., Whitfield Åslund, Melissa L., Rutter, Allison, and Zeeb, Barbara A.

Subjects

CUCURBITA pepo, POLYCHLORINATED biphenyls & the environment, BOTANICAL chemistry, PRUNING, ADVENTIVE plants, ROOTING of plant cuttings, BIOMASS

Abstract

Two cultivation techniques (i-pruning and ii-nodal adventitious root encouragement) were investigated for their ability to increase PCB phytoextraction by Cucurbita pepo ssp pepo cv. Howden (pumpkin) plants in situ at a contaminated industrial site in Ontario (Aroclor 1248, mean soil [PCB] = 5.6 μg g−1). Pruning was implemented to increase plant biomass close to the root where PCB concentration is known to be highest. This treatment was found to have no effect on final shoot biomass or PCB concentration. However, material pruned from the plant is not included in the final shoot biomass. The encouragement of nodal adventitious roots at stem nodes did significantly increase the PCB concentration in the primary stem, while not affecting shoot biomass. Both techniques are easily applied cultivation practices that may be implemented to decrease phytoextraction treatment time. [Copyright &y& Elsevier]

Published

2011

7. Potential for phytoextraction of PCBs from contaminated soils using weeds

Author

Ficko, Sarah A., Rutter, Allison, and Zeeb, Barbara A.

Subjects

*EXTRACTION (Chemistry), *SOIL pollution, *WEEDS, *POLYCHLORINATED biphenyls & the environment, *PHYTOREMEDIATION, *PLANT species, *PLANT extracts, *PLANT-soil relationships

Abstract

Abstract: A comprehensive investigation of the potential of twenty-seven different species of weeds to phytoextract polychlorinated biphenyls (PCBs) from contaminated soil was conducted at two field sites (Etobicoke and Lindsay) in southern Ontario, Canada. Soil concentrations were 31μg/g and 4.7μg/g at each site respectively. All species accumulated PCBs in their root and shoot tissues. Mean shoot concentrations at the two sites ranged from 0.42μg/g for Chenopodium album to 35μg/g for Vicia cracca (dry weight). Bioaccumulation factors (BAF=[PCB]plant tissue/[PCB]mean soil) at the two sites ranged from 0.08 for Cirsium vulgare to 1.1 for V. cracca. Maximum shoot extractions were 420µg for Solidago canadensis at the Etobicoke site, and 120µg for Chrysanthemum leucanthemum at the Lindsay site. When plant density was taken into account with a theoretical density value, seventeen species appeared to be able to extract a similar or greater quantity of PCBs into the shoot tissue than pumpkins (Curcurbita pepo ssp. pepo) which are known PCB accumulators. Therefore, some of these weed species are promising candidates for future phytoremediation studies. [Copyright &y& Elsevier]

Published

2010

8. Effect of Organic Matter Additions on Uptake of Weathered DDT by Cucurbita pepo ssp. pepo cv. Howden.

Author

Lunney, AlissaI., Rutter, Allison, and Zeeb, BarbaraA.

Subjects

*ORGANIC compounds, *CUCURBITA pepo, *DDT (Insecticide), *PERLITE, *VERMICULITE, *POTTING soils

Abstract

Greenhouse studies were conducted to assess the impact of organic matter additions on plant uptake of DDT [2,2-bis(chlorophenyl)-1,1,1-trichloroethane] from weathered soil. Cucurbita pepo ssp. pepo cv. Howden pumpkins were grown in 100 g of DDT contaminated soil ([DDT] ∼1100 ng/g) mixed with equal volumes of either clean soil, perlite, vermiculite, peat, potting soil, or granular activated carbon (GAC) to give total organic carbon contents of 2.4%, 2.5%, 2.6%, 11.5%, 12.2%, and 27.3%, respectively. As in other studies, root DDT concentrations were significantly lower in soils with high organic matter. Root bioaccumulation factors (BAF = [DDT]root/[DDT]soil) approximated this trend. Root concentrations correlated with organic matter concentrations and not with soil DDT concentrations. Conversely, shoot DDT concentrations, shoot BAFs and translocation factors (TLF = BAFshoot/BAFroot) were not significantly different between treatment groups, except for plants grown in GAC/DDT soil. This suggests that amendments with a range of organic matter contents may be added to improve soil conditions at industrial sites without significant adverse effects on phytoextraction potential of C. pepo ssp. pepo. [ABSTRACT FROM AUTHOR]

Published

2010

9. Effects of amendments on the uptake and distribution of DDT in Cucurbita pepo ssp pepo plants

Author

Whitfield Åslund, Melissa L., Lunney, Alissa I., Rutter, Allison, and Zeeb, Barbara A.

Subjects

CUCURBITA pepo, PUMPKINS, DDT (Insecticide), POLLUTION, SOIL amendments, BOTANICAL research, EFFECT of pesticides on plants, PHYSIOLOGICAL effects of pesticides

Abstract

The effects of soil amendments on the phytoextraction of ∑DDT (DDT + DDD + DDE) from soil ([∑DDT] ∼ 1500 ng/g) by a pumpkin variety of Cucurbita pepo ssp pepo were tested and the patterns of ∑DDT storage throughout the plant shoot were examined. The soil amendments did not increase the total amount of ∑DDT extracted into plant shoots, but new information about ∑DDT distribution in the plants was obtained. As observed previously, the ∑DDT concentration in plant leaves (mean 290 ng/g) was significantly lower than in plant stems (mean 2600 ng/g). Further analysis revealed that ∑DDT composition was consistent throughout the plant shoot and that ∑DDT concentration in leaves and stems decreased exponentially as distance from the root increased, which was previously unknown. This new information about the patterns of ∑DDT uptake and translocation within pumpkin plants highlights the need for appropriate plant sampling strategies in future POPs phytoextraction research. [Copyright &y& Elsevier]

Published

2010

10. The effects of repeated planting, planting density, and specific transfer pathways on PCB uptake by Cucurbita pepo grown in field conditions

Author

Whitfield Åslund, Melissa L., Rutter, Allison, Reimer, Kenneth J., and Zeeb, Barbara A.

Subjects

*POLYCHLORINATED biphenyls, *CUCURBITA pepo, *POLLUTANTS, *BIOACCUMULATION, *PLANT biomass, *PLANT translocation, *BIOCHEMISTRY, *ATMOSPHERIC deposition

Abstract

An in situ field investigation into the potential of PCB phytoextraction by Cucurbita pepo ssp. pepo (pumpkin) plants was continued for a second year at a field site known to be contaminated with a mixture of Aroclors 1254 and 1260 (average soil [PCB]=21 μg/g). Plant stem and leaf PCB concentrations in this second field season (11 and 8.9 μg/g, respectively) were observed to increase significantly from the stem and leaf PCB concentrations reported in the previous year (5.7 and 3.9 μg/g, respectively) while the total biomass produced as well as soil and plant root PCB concentrations did not change. Furthermore, the lower stems of some plants exhibited PCB concentrations as high as 43 μg/g, resulting in bioaccumulation factors (where BAFplant part =[PCB]plant part /[PCB]soil) for parts of the plant shoot as high as 2. Increased planting density was observed to significantly decrease both plant biomass and plant stem PCB concentrations (to 7.7 μg/g), but did not change plant root PCB concentrations. Finally, the results from this study provided further evidence that that under realistic field conditions, PCB transfer to pumpkin plants was primarily via root uptake and translocation. Other contaminant transfer pathways such as direct soil contamination, atmospheric deposition and volatilization from soil and subsequent redeposition on shoots appeared to have negligible contributions to overall pumpkin plant PCB burdens. [Copyright &y& Elsevier]

Published

2008

11. Potential for Phytoremediation of Polychlorinated Biphenyl-(PCB)-Contaminated Soil.

Author

Zeeb, BarbaraA., Amphlett, JaneS., Rutter, Allison, and Reimer, KennethJ.

Subjects

SOILS, POLYCHLORINATED biphenyls, PLANT species, GREENHOUSES, PLANT shoots

Abstract

Weathered soils contaminated with commercial-grade Aroclor 1260 from three sites in Canada were used to investigate the polychlorinated biphenyl (PCB) phytoextraction potential of nine plant species ( Festuca arundinacea , Glycine max , Medicago sativa , Phalaris arundinacea , Lolium multiflorum , Carex normalis , and three varieties of Cucurbita pepo ssp. pepo ) under controlled greenhouse conditions. The soils used varied in PCB concentration (90–4200 μg/g) and total organic content (0.06–2.02%). Greenhouse experiments controlled for PCB volatilization through the use of a vented enclosure and by isolating the contaminated soils with parafilm. After 8 wks, PCB concentrations of 47–6700 μg/g were observed in root tissues. Although PCB concentrations in shoot tissues were lower ( Overall, the results indicate that varieties of C. pepo were more effective at extracting PCBs from soil than other plants screened. The evidence suggests that this was mainly due to root uptake of PCBs and tranlocation to the shoots, rather than volatilization of PCBs from soil. All plants screened showed signs of stress in the most highly contaminated soil (4200 μg/g), but not in the two lower PCB contaminated soils (250 and 90 μg/g, respectively). No detectable decreases in soil PCB concentrations were observed in these short-term greenhouse experiments, but the results suggest that this may be achievable through multiple plantings. [ABSTRACT FROM AUTHOR]

Published

2006

12. Evaluating the efficacy of Atriplex spp. in the phytoextraction of road salt (NaCl) from contaminated soil.

Author

Mann, Ellen, Rutter, Allison, and Zeeb, Barbara

Subjects

SOIL pollution, ATRIPLEX, PHYTOREMEDIATION, SOIL salinization, ABORIGINAL Canadians, SOIL salinity, BROMOMETHANE

Abstract

Soil and freshwater salinization are growing issues worldwide. Road salt, primarily sodium chloride (NaCl), is a significant contributor to this issue in North America. In this study, the ability of three native Canadian halophytes (Atriplex patula, Atriplex hortensis, and Atriplex canescans) to remove Na+ and Cl− from contaminated soil was investigated. Field and greenhouse studies determined plant survivability in roadside areas, as well as Na+ and Cl− extraction levels. The Atriplex spp. accumulated 18–55 mg Na+ g−1 dry weight (DW) and 41–64 mg Cl− g−1 DW when grown for a two-month period in soil spiked with NaCl to simulate a very highly contaminated roadside. Using A. patula , it would theoretically take 6 growing seasons to remove all salt from an area contaminated with 1540 μg Cl − g−1, while A. hortensis and A. canescens would take 19 and 9 years, respectively. Salt content in shoot components (seeds, stem, leaves) was determined to provide further insight on phytoextraction processes. In all three Atriplex species, the leaves had the highest Cl− concentration, followed by the seeds (bracteoles included), with the lowest concentrations found in the stem. These novel findings provide important information for road salt remediation and indicate that using Atriplex spp. may be a viable way in which to reduce the environmental impact of road salting. Image 1 • Phytoextraction of road salt from roadside soil is a viable remediation method. • Phytoremediation of salinized soil applied to road salt impacted soil. • Demonstrates a novel method of managing emerging soil and freshwater salinization. Summary: This article demonstrates that Canadian halophytes can remediate road-salt impacted soil in less than 10 years. [ABSTRACT FROM AUTHOR]

Published

2020

13. The use of biochar to reduce soil PCB bioavailability to Cucurbita pepo and Eisenia fetida

Author

Denyes, Mackenzie J., Langlois, Valérie S., Rutter, Allison, and Zeeb, Barbara A.

Subjects

*CUCURBITA pepo, *EISENIA, *PLANT-soil relationships, *BIOAVAILABILITY, *CHEMICAL decomposition, *SOIL quality, *HUMUS, *PLANT shoots

Abstract

Abstract: Biochar is a carbon rich by-product produced from the thermal decomposition of organic matter under low oxygen concentrations. Currently many researchers are studying the ability of biochar to improve soil quality and function in agricultural soils while sustainably sequestering carbon. This paper focuses on a novel but complimentary application of biochar – the reduced bioavailability and phytoavailability of organic contaminants in soil, specifically polychlorinated biphenyls (PCBs). In this greenhouse experiment, the addition of 2.8% (by weight) biochar to soil contaminated with 136 and 3.1μg/g PCBs, reduced PCB root concentration in the known phytoextractor Cucurbita pepo ssp. pepo by 77% and 58%, respectively. At 11.1% biochar, even greater reductions of 89% and 83% were recorded, while shoot reductions of 22% and 54% were observed. PCB concentrations in Eisenia fetida tissue were reduced by 52% and 88% at 2.8% and 11.1% biochar, respectively. In addition, biochar amended to industrial PCB-contaminated soil increased both aboveground plant biomass, and worm survival rates. Thus, biochar has significant potential to serve as a mechanism to decrease the bioavailability of organic contaminants (e.g. PCBs) in soil, reducing the risk these chemicals pose to environmental and human health, and at the same time improve soil quality and decrease CO2 emissions. [Copyright &y& Elsevier]

Published

2012

14. In situ phytoextraction of polychlorinated biphenyl — (PCB)contaminated soil

Author

Whitfield Åslund, Melissa L., Zeeb, Barbara A., Rutter, Allison, and Reimer, Kenneth J.

Subjects

*PHYTOREMEDIATION, *POLYCHLORINATED biphenyls, *ORGANIC compound content of soils, *PUMPKINS, *CUCURBITA pepo, *TALL fescue, *CAREX, *BIOACCUMULATION

Abstract

A pilot-scale field trial of phytoextraction of PCBs provides insight into the practical application of this technology, using the plant species Cucurbita pepo ssp pepo cv. Howden (pumpkin), Carex normalis (sedge), and Festuca arundinacea (tall fescue). This in situ trial took place at a historically contaminated field site, in soil contaminated with a mean concentration of 46 μg/g (range of 0. 6–200 μg/g) total PCBs (Aroclor 1254/1260). Shoot bioaccumulation factors (where BAFshoot =[PCBshoot]/[PCBsoil]) of up to 0. 29 were achieved in sedge. Pumpkin plants produced shoot BAFs of only 0. 15. However, PCB concentrations in pumpkin shoots decreased as the distance above the root increased, suggesting that higher overall pumpkin shoot BAFs might be achieved in shorter, more densely planted plants. A model for estimating the overall PCB concentration in large pumpkin shoots with minimal sampling is proposed. Examination of congener data supports the hypothesis that C. Pepo ssp pepo plants exhibit a unique biological uptake mechanism that allows for the accumulation of a significant concentration of PCBs in plant shoots. Although this mechanism is not well understood, the co-eluting IUPAC congeners 93/95 and 105/127 appear to be preferentially mobilized. Presently, all three plant species exhibit potential as PCB phytoextractors, however further research is required to elucidate methods for optimizing this technology. [Copyright &y& Elsevier]

Published

2007