Lacustrine Arcellinida (Testate Lobose Amoebae) as Bioindicators of Arsenic Contamination: A new tool for Environmental Risk Assessment

Gold mining in northern Canada, while profitable, has left a legacy of arsenic (As) contamination, especially in lakes. Arcellinida, lacustrine benthic protozoans, have great As-biomonitoring potential that has yet to be exploited by lake restoration initiatives. This research aims to further develo...

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Bibliographic Details
Main Author: Nasser, Nawaf
Format: Thesis
Language:unknown
Published: 2020
Subjects:
Arctic
Northwest Territories
Yellowknife
Canada
Tundra
Online Access:https://curve.carleton.ca/e8c0f8c2-fa10-4c77-9106-c686a3a3cee7
https://doi.org/10.22215/etd/2020-13922
https://ocul-crl.primo.exlibrisgroup.com/permalink/01OCUL_CRL/j2o5om/alma991022758825705153
id ftcarletonuniv:oai:curve.carleton.ca:35256
record_format openpolar
spelling ftcarletonuniv:oai:curve.carleton.ca:35256 2023-05-15T15:19:08+02:00 Lacustrine Arcellinida (Testate Lobose Amoebae) as Bioindicators of Arsenic Contamination: A new tool for Environmental Risk Assessment Nasser, Nawaf 2020 https://curve.carleton.ca/e8c0f8c2-fa10-4c77-9106-c686a3a3cee7 https://doi.org/10.22215/etd/2020-13922 https://ocul-crl.primo.exlibrisgroup.com/permalink/01OCUL_CRL/j2o5om/alma991022758825705153 unknown https://curve.carleton.ca/e8c0f8c2-fa10-4c77-9106-c686a3a3cee7 https://doi.org/10.22215/etd/2020-13922 https://ocul-crl.primo.exlibrisgroup.com/permalink/01OCUL_CRL/j2o5om/alma991022758825705153 Thesis/Dissertation 2020 ftcarletonuniv https://doi.org/10.22215/etd/2020-13922 2022-01-23T08:07:30Z Gold mining in northern Canada, while profitable, has left a legacy of arsenic (As) contamination, especially in lakes. Arcellinida, lacustrine benthic protozoans, have great As-biomonitoring potential that has yet to be exploited by lake restoration initiatives. This research aims to further develop Arcellinida as a robust tool for monitoring As contamination and remediation efficacy in impacted lakes. In Chapter 2 a novel Arcellinida sample processing protocol, using chemical deflocculation, was developed to determine optimal approaches for reducing residual organic matter in lake sediments with minimal Arcellinida test degradation. The results revealed that treatment with 5% potassium hydroxide led to the highest reduction in observed organic content and rate of test damage. In Chapter 3 results of a study where Arcellinida were examined from 22 near-surface sediment samples (top 1 cm) collected from similar environments in two eastern Canadian lakes was carried out to evaluate faunal assemblages homogeneity in these targeted environments, and to assess the sensitivity of Arcellinida assemblages to inter-annual environmental variability. The results of this study confirmed the faunal homogeneity of assemblages in limnologically similar environments and demonstrated the sensitivity of Arcellinida assemblages to environmental changes at inter-annual time scales. In Chapter 4 an inter-lake survey of 91 lakes in the Yellowknife area, Northwest Territories (NT), Canada, was conducted to quantify the response of arcellinidan to gold mining-derived As contamination and to statistically determine As-tolerance limits of different Arcellinida species. The results demonstrate the applicability of using Arcellinida to delineate the spatial extent of As contamination and the reliability of using As tolerance-limits-based Arcellinida groups to infer As contamination levels in lake sediments. In Chapter 5 the arcellinidan response to intra-lake changes in As contamination, derived from two former gold mines, was investigated in 40 near-surface sediment samples from two lakes in the low Arctic, central NT (Tundra Mine) and in a boreal setting, southern NT (Giant Mine). It was demonstrated that Arcellinida assemblages responded differently to the impact of As, likely due to different As mineralization in each lake, which was in turn a by-product of employing different ore-processing techniques at the former gold mines. Thesis Arctic Northwest Territories Tundra Yellowknife CURVE - Carleton University Research Virtual Environment Arctic Northwest Territories Yellowknife Canada
institution Open Polar
collection CURVE - Carleton University Research Virtual Environment
op_collection_id ftcarletonuniv
language unknown
description Gold mining in northern Canada, while profitable, has left a legacy of arsenic (As) contamination, especially in lakes. Arcellinida, lacustrine benthic protozoans, have great As-biomonitoring potential that has yet to be exploited by lake restoration initiatives. This research aims to further develop Arcellinida as a robust tool for monitoring As contamination and remediation efficacy in impacted lakes. In Chapter 2 a novel Arcellinida sample processing protocol, using chemical deflocculation, was developed to determine optimal approaches for reducing residual organic matter in lake sediments with minimal Arcellinida test degradation. The results revealed that treatment with 5% potassium hydroxide led to the highest reduction in observed organic content and rate of test damage. In Chapter 3 results of a study where Arcellinida were examined from 22 near-surface sediment samples (top 1 cm) collected from similar environments in two eastern Canadian lakes was carried out to evaluate faunal assemblages homogeneity in these targeted environments, and to assess the sensitivity of Arcellinida assemblages to inter-annual environmental variability. The results of this study confirmed the faunal homogeneity of assemblages in limnologically similar environments and demonstrated the sensitivity of Arcellinida assemblages to environmental changes at inter-annual time scales. In Chapter 4 an inter-lake survey of 91 lakes in the Yellowknife area, Northwest Territories (NT), Canada, was conducted to quantify the response of arcellinidan to gold mining-derived As contamination and to statistically determine As-tolerance limits of different Arcellinida species. The results demonstrate the applicability of using Arcellinida to delineate the spatial extent of As contamination and the reliability of using As tolerance-limits-based Arcellinida groups to infer As contamination levels in lake sediments. In Chapter 5 the arcellinidan response to intra-lake changes in As contamination, derived from two former gold mines, was investigated in 40 near-surface sediment samples from two lakes in the low Arctic, central NT (Tundra Mine) and in a boreal setting, southern NT (Giant Mine). It was demonstrated that Arcellinida assemblages responded differently to the impact of As, likely due to different As mineralization in each lake, which was in turn a by-product of employing different ore-processing techniques at the former gold mines.
format Thesis
author Nasser, Nawaf
spellingShingle Nasser, Nawaf
Lacustrine Arcellinida (Testate Lobose Amoebae) as Bioindicators of Arsenic Contamination: A new tool for Environmental Risk Assessment
author_facet Nasser, Nawaf
author_sort Nasser, Nawaf
title Lacustrine Arcellinida (Testate Lobose Amoebae) as Bioindicators of Arsenic Contamination: A new tool for Environmental Risk Assessment
title_short Lacustrine Arcellinida (Testate Lobose Amoebae) as Bioindicators of Arsenic Contamination: A new tool for Environmental Risk Assessment
title_full Lacustrine Arcellinida (Testate Lobose Amoebae) as Bioindicators of Arsenic Contamination: A new tool for Environmental Risk Assessment
title_fullStr Lacustrine Arcellinida (Testate Lobose Amoebae) as Bioindicators of Arsenic Contamination: A new tool for Environmental Risk Assessment
title_full_unstemmed Lacustrine Arcellinida (Testate Lobose Amoebae) as Bioindicators of Arsenic Contamination: A new tool for Environmental Risk Assessment
title_sort lacustrine arcellinida (testate lobose amoebae) as bioindicators of arsenic contamination: a new tool for environmental risk assessment
publishDate 2020
url https://curve.carleton.ca/e8c0f8c2-fa10-4c77-9106-c686a3a3cee7
https://doi.org/10.22215/etd/2020-13922
https://ocul-crl.primo.exlibrisgroup.com/permalink/01OCUL_CRL/j2o5om/alma991022758825705153
geographic Arctic
Northwest Territories
Yellowknife
Canada
geographic_facet Arctic
Northwest Territories
Yellowknife
Canada
genre Arctic
Northwest Territories
Tundra
Yellowknife
genre_facet Arctic
Northwest Territories
Tundra
Yellowknife
op_relation https://curve.carleton.ca/e8c0f8c2-fa10-4c77-9106-c686a3a3cee7
https://doi.org/10.22215/etd/2020-13922
https://ocul-crl.primo.exlibrisgroup.com/permalink/01OCUL_CRL/j2o5om/alma991022758825705153
op_doi https://doi.org/10.22215/etd/2020-13922
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