Phytoremediation of hydrocarbon contaminants in sub-Antarctic soils

Accidental fuel spills on sub-Antarctic Macquarie Island have caused considerable contamination. Due to the island‘s high latitude position, its climate, and the fragility of its ecosystems, traditional methods of remediation are unsuitable for onsite clean up. However, if left untreated, even minor...

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Main Author: Bramley-Alves, Jessica
Format: Thesis
Language:unknown
Published: School of Biological Sciences 2009
Subjects:
Online Access:https://ro.uow.edu.au/theses/4089
https://ro.uow.edu.au/cgi/viewcontent.cgi?article=5096&context=theses
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spelling ftunivwollongong:oai:ro.uow.edu.au:theses-5096 2023-05-15T13:43:25+02:00 Phytoremediation of hydrocarbon contaminants in sub-Antarctic soils Bramley-Alves, Jessica 2009-01-01T08:00:00Z application/pdf https://ro.uow.edu.au/theses/4089 https://ro.uow.edu.au/cgi/viewcontent.cgi?article=5096&context=theses unknown School of Biological Sciences https://ro.uow.edu.au/theses/4089 https://ro.uow.edu.au/cgi/viewcontent.cgi?article=5096&context=theses University of Wollongong Thesis Collection 1954-2016 thesis 2009 ftunivwollongong 2021-11-08T23:32:06Z Accidental fuel spills on sub-Antarctic Macquarie Island have caused considerable contamination. Due to the island‘s high latitude position, its climate, and the fragility of its ecosystems, traditional methods of remediation are unsuitable for onsite clean up. However, if left untreated, even minor to moderate fuel spills could take decades before natural attenuation reduces the petroleum to environmentally acceptable concentrations. Currently, low cost, low disturbance in-situ methods to enhance biodegradation of fuel products, such as nutrient additions and air sparging, are under examination on Macquarie Island. This study investigated the potential of the sub-Antarctic native tussock grass, Poa foliosa, to contribute to such remediation efforts. This species was selected as it is common in areas of contamination and displays criteria which enhance phytoremediation efficiency. Growth trials were conducted with seedlings of P. foliosa in soil artificially spiked with Special Antarctic Blend (SAB) diesel at concentrations of 0, 1 000, 5 000, 10 000, 20 000 or 40 000 mg/kg. Replicate pots, containing single seedlings, were compared with paired unplanted pots at each SAB soil concentration. Pots were kept under controlled conditions (8°C; photoperiod of 8.75/13.25 hours) to simulate the growth environment on Macquarie Island. Plants were harvested destructively at 0, 2, 4 and 8 months. Tolerance of P. foliosa to SAB, and the effects of fuel contaminants on plant health and productivity (biomass production, plant morphology, pigments and photosynthetic health) were assessed. The rate of SAB degradation and the microbial communities within the rhizosphere (total heterotrophs and hydrocarbon degraders) were compared between planted and unplanted treatments. This study found P. foliosa to be highly tolerant across all SAB concentrations tested with respect to biomass, although higher concentrations of 20 000 and 40 000 mg/kg caused slight reductions in leaf length, width and area. Total Petroleum Hydrocarbons (TPH) were degraded 35 - 48% faster in planted soils compared to unplanted soil and were approaching soil background levels within four months. Although P. foliosa significantly stimulated the growth of both total heterotrophs and hydrocarbon degraders at low concentrations of 0 and 1 000 mg/kg, the presence of microbes in the root zone did not appear to be the sole driving force behind TPH degradation. This study provides persuasive evidence that phytoremediation using P. foliosa is a valuable technology in the suite of current in-situ remediation methodologies being adopted at these sites, and may be applicable to the remediation of spills in other cold climate regions. Thesis Antarc* Antarctic Macquarie Island University of Wollongong, Australia: Research Online Antarctic
institution Open Polar
collection University of Wollongong, Australia: Research Online
op_collection_id ftunivwollongong
language unknown
description Accidental fuel spills on sub-Antarctic Macquarie Island have caused considerable contamination. Due to the island‘s high latitude position, its climate, and the fragility of its ecosystems, traditional methods of remediation are unsuitable for onsite clean up. However, if left untreated, even minor to moderate fuel spills could take decades before natural attenuation reduces the petroleum to environmentally acceptable concentrations. Currently, low cost, low disturbance in-situ methods to enhance biodegradation of fuel products, such as nutrient additions and air sparging, are under examination on Macquarie Island. This study investigated the potential of the sub-Antarctic native tussock grass, Poa foliosa, to contribute to such remediation efforts. This species was selected as it is common in areas of contamination and displays criteria which enhance phytoremediation efficiency. Growth trials were conducted with seedlings of P. foliosa in soil artificially spiked with Special Antarctic Blend (SAB) diesel at concentrations of 0, 1 000, 5 000, 10 000, 20 000 or 40 000 mg/kg. Replicate pots, containing single seedlings, were compared with paired unplanted pots at each SAB soil concentration. Pots were kept under controlled conditions (8°C; photoperiod of 8.75/13.25 hours) to simulate the growth environment on Macquarie Island. Plants were harvested destructively at 0, 2, 4 and 8 months. Tolerance of P. foliosa to SAB, and the effects of fuel contaminants on plant health and productivity (biomass production, plant morphology, pigments and photosynthetic health) were assessed. The rate of SAB degradation and the microbial communities within the rhizosphere (total heterotrophs and hydrocarbon degraders) were compared between planted and unplanted treatments. This study found P. foliosa to be highly tolerant across all SAB concentrations tested with respect to biomass, although higher concentrations of 20 000 and 40 000 mg/kg caused slight reductions in leaf length, width and area. Total Petroleum Hydrocarbons (TPH) were degraded 35 - 48% faster in planted soils compared to unplanted soil and were approaching soil background levels within four months. Although P. foliosa significantly stimulated the growth of both total heterotrophs and hydrocarbon degraders at low concentrations of 0 and 1 000 mg/kg, the presence of microbes in the root zone did not appear to be the sole driving force behind TPH degradation. This study provides persuasive evidence that phytoremediation using P. foliosa is a valuable technology in the suite of current in-situ remediation methodologies being adopted at these sites, and may be applicable to the remediation of spills in other cold climate regions.
format Thesis
author Bramley-Alves, Jessica
spellingShingle Bramley-Alves, Jessica
Phytoremediation of hydrocarbon contaminants in sub-Antarctic soils
author_facet Bramley-Alves, Jessica
author_sort Bramley-Alves, Jessica
title Phytoremediation of hydrocarbon contaminants in sub-Antarctic soils
title_short Phytoremediation of hydrocarbon contaminants in sub-Antarctic soils
title_full Phytoremediation of hydrocarbon contaminants in sub-Antarctic soils
title_fullStr Phytoremediation of hydrocarbon contaminants in sub-Antarctic soils
title_full_unstemmed Phytoremediation of hydrocarbon contaminants in sub-Antarctic soils
title_sort phytoremediation of hydrocarbon contaminants in sub-antarctic soils
publisher School of Biological Sciences
publishDate 2009
url https://ro.uow.edu.au/theses/4089
https://ro.uow.edu.au/cgi/viewcontent.cgi?article=5096&context=theses
geographic Antarctic
geographic_facet Antarctic
genre Antarc*
Antarctic
Macquarie Island
genre_facet Antarc*
Antarctic
Macquarie Island
op_source University of Wollongong Thesis Collection 1954-2016
op_relation https://ro.uow.edu.au/theses/4089
https://ro.uow.edu.au/cgi/viewcontent.cgi?article=5096&context=theses
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