Spelling suggestions: "subject:"mackenzie halley"" "subject:"mackenzie galley""
1 |
People, land, and pipelines perspectives on resource decision-making in the Sahtu Region, Northwest Territories /Dokis, Carly Ann. January 2010 (has links)
Thesis (Ph.D)--University of Alberta, 2010. / Title from pdf file main screen (viewed May 16, 2010). "A thesis submitted to the Faculty of Graduate Studies and Research in partial fulfillment of the requirements for the degree of Doctor of Philosophy, Anthropology". Includes bibliographical references.
|
2 |
Programs of socio-economic impact management : the Norman Wells projectKerr, Muriel Ann January 1985 (has links)
Social and economic impacts are often by-products of large scale resource development projects. These socio-economic impacts have become an important component of assessment and review processes during the 1970's and are beginning to attract attention as an issue within impact management. Effective measures of socio-economic impact management are being sought by industry, government and communities who wish to mitigate or avoid negative impacts and/or to enhance potential positive impacts of development.
The Norman Wells Oilfield Expansion and Pipeline Project, approved by the Federal Cabinet on July 30, 1981 was formally assessed as having potentially significant socio-economic impacts. The Federal Government therefore created a number of measures that constituted a socio-economic impact management plan. One of these measures was a benefits package of $21.4 million "to ensure that the training objectives, jobs and business opportunities which we have insisted be part of this project are real and meaningful." The federal government's "coordination approach" to management associated with the Norman Wells Project has been vetted as a model for the management of future development projects. The subject of this thesis is the implementation of two of the impact funding programs within this benefits package. The thesis purpose is to assess the effectiveness of these impact funding initiatives as programs of socio-economic impact management.
The descriptions of the two initiatives chosen for this analysis indicate that their general purpose was to involve the Dene Nation and the Metis Association of the Northwest Territories in the initiation of programs of community and social development and of planning support and monitoring for the communities of the Mackenzie Valley. These two programs are the subject of some debate between federal government representatives and representatives of the two native organizations involved in the Norman Wells Project. The key parties-at-interest disagree over the effectiveness of the two initiatives as instruments of socio-economic impact management for the Norman Wells Project.
In preparation for the actual analysis of these programs, I first developed a process model for socio-economic impact management. This process model provides the framework within which programs of socio-economic impact management are located. Next, I examined the relationship between the socio-economic issues and anticipated problems identified during the Norman Well's Project review processes and the impact fund initiatives under study. This was achieved through a content analysis of documents produced by the Norman Wells Environmental Assessment and Review Panel (E.A.R.P.) and the National Energy Board. I then examined in full the implementation of the initiatives. This was accomplished through a review of documentation and interviews with the relevant actors associated with the two study impact funding programs. My assessment of the effectiveness of the two study initiatives as programs of socio-economic management is based on a comparison of the implementation of these programs to a set of criteria that reflect the basic requirements of programs of impact management.
The two study initiatives failed to satisfy all but the program effectiveness criteria that required a relationship with the public review process concerns. The thesis conclusion, therefore, is that as programs of socio-economic impact management for the Norman Wells Project, the two study initiatives have not been effective. I discuss the basis of this conclusion and propose three recommendations toward the planning for future programs of socio-economic impact management.
This thesis contributes to the assessment of the impact management efforts associated with the overall approach to management of the Norman Wells Project. It should be useful for parties involved in the determination of impact management programs in future development projects. This analysis will aid in the planning of effective procedures to reduce negative impacts, thus serving the interests of both those affected directly, and the nation at large. / Applied Science, Faculty of / Community and Regional Planning (SCARP), School of / Graduate
|
3 |
A Refusal of State-Driven Northern Destiny: Deconstructing the Mackenzie Valley Pipeline Inquiry HearingsOzbilge, Nevcihan January 2022 (has links)
This dissertation considers the incommensurable interests of people, fossil capital, federal
energy politics, and place in Northern Canada during the 1970s. By the late 1960s, the
insatiable North American appetite for fossil fuels had turned its attention toward the
Arctic region. After the discovery of rich deposits in Prudhoe Bay, Alaska, in 1968, largescale
energy projects were proposed to access and exploit these Arctic natural resources.
Canada participated in this northern oil rush; an exploration of oil and gas in the Arctic
regions was accelerated in the early 1970s. The next challenge involved transporting the
oil and gas to southern markets. In 1974, the Canadian federal government initiated the
Mackenzie Valley Pipeline Inquiry to investigate the social, environmental, and economic
effects of the pipeline routes proposed by a consortium of American and Canadian oil
companies through the Mackenzie River Valley in the Northwest Territories where it
would connect with existing pipeline infrastructure in northern Alberta. The Inquiry’s
report recommended against immediate construction, encouraging instead a ten-year
moratorium. Inquiry commissioner Thomas Berger’s report rationalized the delay to
make time for settling Indigenous land claims in the region and for taking conservation
measures to protect some key areas in the Mackenzie River Valley. In this dissertation, I
examine how the discussion around pipeline construction shaped the meaning of the
North, self-determination, and cultural recognition. In this dissertation, I particularly
focus on how Indigenous peoples asserted their claims by rejecting state-driven policies
and the interests of fossil-fuel capitalism in the North. / Thesis / Doctor of Philosophy (PhD) / Through the close reading of the Mackenzie Valley Pipeline Inquiry hearings, I examine
how the discussion around energy development shaped the 1970s’ contentious Canadian
politics of nation and North. Central to this debate, I focus on how Indigenous peoples
asserted their land claims by challenging and refusing the settler state policies and the
interests of fossil-fuel capitalism in the western Northwest Territories in the 1970s. By
using the Inquiry process, northern Indigenous peoples challenged the idea that the state
had a legitimate authority to decide and control the future or destiny of a territory or
peoples in its defined borders.
|
4 |
Geochemistry and Noble Gases of Permafrost Groundwater and Ground Ice in Yukon and the Northwest Territories, CanadaUtting, Nicholas C. 11 January 2012 (has links)
In Canada’s western Arctic, perennial discharge from permafrost watersheds is the surface manifestation of active groundwater flow systems, yet understanding the mechanisms of groundwater recharge and flow in periglacial environments remains enigmatic. This thesis addresses questions on how and where groundwater recharge occurs. Watersheds were selected in Yukon (Fishing Branch River at Bear Cave Mountain) and the Northwest Territories at latitudes spanning from continuous to discontinuous permafrost (five tributary rivers to the Mackenzie River from Wrigley to Aklavik). All are characterized by perennial flow with open water in the winter, and discharge from sedimentary formations of karstic carbonates and evaporate rocks. Determinations of groundwater contributions to discharge, mixing, recharge conditions and circulation times were made on the basis of a suite of analytical approaches involving measurements of major dissolved ions, δ18O, δD, δ13CDIC, 3H, noble gases and flow gauging was conducted at some sites.
The application of these tracers show that hydrogeological conditions and flow paths in permafrost terrains are surprisingly similar to those of temperate regions. Groundwater recharge was determined to be a mix of annual precipitation with contributions from snowmelt and precipitation. All systems investigated show that groundwaters have recharged through organic soils with elevated PCO2, which suggests that recharge occurs largely during summer when biological activity is high. Noble gas concentrations show that the recharge temperature was between 0 and 6 °C, which, when considered in the context of discharge temperatures, suggests that there is no significant imbalance of energy flux into the subsurface. Groundwater ages were found using the 3H-3He method and were dependent on flow path. By characterizing groundwater and surface water chemistry, the proportion of groundwater was found in numerous water courses.
The possible impact of ground ice formation and melting on noble gas concentrations in groundwater was considered. To assess this link, a new method to measure the noble gas composition of ground ice bodies was developed. The method can be used to determine the origin of ice, based on changes in noble gas ratios between ice originating from compaction of snow (e.g. glacier ice) vs. ice originating from freezing of water. No significant fractionation of noble gases during groundwater freezing and ground ice formation was identified. Applied to determination of the origin of ground ice bodies, the method was shown to be both diagnostic of ice origin and un-encumbered by reactivity in the subsurface, which compromises the use of the dominant atmospheric gases (O2 and N2).
Résumé
Dans l’Ouest de l'Arctique canadien, la décharge pérenne dans certaines rivières en région de pergélisol est la manifestation en surface d’une circulation d’eau souterraine; cependant la compréhension des mécanismes d’écoulement et de recharge des eaux souterraines en région de pergélisol demeure énigmatique. Cette thèse s’intéresse à la question de savoir comment et où la recharge des eaux souterraines se produit. Des bassins versants ont été choisis au Yukon (Rivière Fishing Branch à Bear Cave Mountain) et dans les Territoire du Nord-Ouest à des latitudes s’étendant du pergélisol discontinu au pergélisol continu (cinq tributaires du Mackenzie entre Wrigley et Aklavik). Toutes ces rivières ont un écoulement d’eau pérenne avec des zones non gelées et une décharge dans des formations sédimentaires de roches carbonatées et d‘évaporites. L’identification des contributions des eaux à la décharge, les mélanges, les conditions de recharge, et les temps de circulation ont été faits à partir d’analyses qui ont inclus les concentrations en éléments majeurs, leur valeur isotopique (δ18O, δD, δ13C, 3H), ainsi que leur teneur en gaz rares. A certain des sites analysés des mesures d’écoulement ont été prises.
L’application de ces traceurs montre que les conditions hydrauliques et le chemin des écoulements en région de pergélisol sont similaires à ceux des régions tempérées. La recharge en eau souterraine a été identifiée comme étant un mélange de précipitations annuelles, avec des contributions de neige et de pluies. Tous les systèmes étudiés montrent que les eaux souterraines se sont rechargées en traversant des sols organiques avec une PCO2 élevée, ce qui suggère que la recharge se produire largement durant l’été quand l’activité biologique est élevée. Cependant, les concentrations en gaz nobles montre que la température de recharge des eaux souterraines était entre 0 et 6 °C ce qui indique qu’il n’y a pas de déséquilibre de flux d’énergie à l’intérieur de la zone proche de la surface. L’âge des eaux a été déterminé par la méthode 3H-3He et cet âge est dépendant du chemin d'écoulement. En caractérisant les paramètres chimiques des eaux de surface et des eaux souterraines, il a été possible de trouver la contribution des eaux souterraines aux eaux surface.
Le possible impact de la formation et de la fonte de la glace souterraine sur les concentrations des gaz nobles a été considéré. Pour déterminer s’il y a un lien entre ceux-ci, une nouvelle méthode pour mesurer la concentration en gaz nobles dans les glaces souterraines a été développée. La méthode peut être utilisée pour déterminer l’origine de la glace; elle est basée sur les changements dans les rapports des gaz nobles entre la glace issue de la compaction de la neige (c’est-à-dire la glace de glacier) par opposition à la glace issue du gel de l’eau. Aucun fractionnement significatif des gaz nobles durant l’engel des eaux souterraines et la formation de glaces souterraines n’a été identifié. Appliquée à l’identification de l’origine des masses de glace enfouies, on a montré que la méthode pouvait permettre d’identifier l’origine des glaces souterraines sans qu’elle soit affectée par des réactions biologiques de sub-surface, lesquelles rendent inutilisables les gaz atmosphériques (O2, and N2).
|
5 |
Geochemistry and Noble Gases of Permafrost Groundwater and Ground Ice in Yukon and the Northwest Territories, CanadaUtting, Nicholas C. 11 January 2012 (has links)
In Canada’s western Arctic, perennial discharge from permafrost watersheds is the surface manifestation of active groundwater flow systems, yet understanding the mechanisms of groundwater recharge and flow in periglacial environments remains enigmatic. This thesis addresses questions on how and where groundwater recharge occurs. Watersheds were selected in Yukon (Fishing Branch River at Bear Cave Mountain) and the Northwest Territories at latitudes spanning from continuous to discontinuous permafrost (five tributary rivers to the Mackenzie River from Wrigley to Aklavik). All are characterized by perennial flow with open water in the winter, and discharge from sedimentary formations of karstic carbonates and evaporate rocks. Determinations of groundwater contributions to discharge, mixing, recharge conditions and circulation times were made on the basis of a suite of analytical approaches involving measurements of major dissolved ions, δ18O, δD, δ13CDIC, 3H, noble gases and flow gauging was conducted at some sites.
The application of these tracers show that hydrogeological conditions and flow paths in permafrost terrains are surprisingly similar to those of temperate regions. Groundwater recharge was determined to be a mix of annual precipitation with contributions from snowmelt and precipitation. All systems investigated show that groundwaters have recharged through organic soils with elevated PCO2, which suggests that recharge occurs largely during summer when biological activity is high. Noble gas concentrations show that the recharge temperature was between 0 and 6 °C, which, when considered in the context of discharge temperatures, suggests that there is no significant imbalance of energy flux into the subsurface. Groundwater ages were found using the 3H-3He method and were dependent on flow path. By characterizing groundwater and surface water chemistry, the proportion of groundwater was found in numerous water courses.
The possible impact of ground ice formation and melting on noble gas concentrations in groundwater was considered. To assess this link, a new method to measure the noble gas composition of ground ice bodies was developed. The method can be used to determine the origin of ice, based on changes in noble gas ratios between ice originating from compaction of snow (e.g. glacier ice) vs. ice originating from freezing of water. No significant fractionation of noble gases during groundwater freezing and ground ice formation was identified. Applied to determination of the origin of ground ice bodies, the method was shown to be both diagnostic of ice origin and un-encumbered by reactivity in the subsurface, which compromises the use of the dominant atmospheric gases (O2 and N2).
Résumé
Dans l’Ouest de l'Arctique canadien, la décharge pérenne dans certaines rivières en région de pergélisol est la manifestation en surface d’une circulation d’eau souterraine; cependant la compréhension des mécanismes d’écoulement et de recharge des eaux souterraines en région de pergélisol demeure énigmatique. Cette thèse s’intéresse à la question de savoir comment et où la recharge des eaux souterraines se produit. Des bassins versants ont été choisis au Yukon (Rivière Fishing Branch à Bear Cave Mountain) et dans les Territoire du Nord-Ouest à des latitudes s’étendant du pergélisol discontinu au pergélisol continu (cinq tributaires du Mackenzie entre Wrigley et Aklavik). Toutes ces rivières ont un écoulement d’eau pérenne avec des zones non gelées et une décharge dans des formations sédimentaires de roches carbonatées et d‘évaporites. L’identification des contributions des eaux à la décharge, les mélanges, les conditions de recharge, et les temps de circulation ont été faits à partir d’analyses qui ont inclus les concentrations en éléments majeurs, leur valeur isotopique (δ18O, δD, δ13C, 3H), ainsi que leur teneur en gaz rares. A certain des sites analysés des mesures d’écoulement ont été prises.
L’application de ces traceurs montre que les conditions hydrauliques et le chemin des écoulements en région de pergélisol sont similaires à ceux des régions tempérées. La recharge en eau souterraine a été identifiée comme étant un mélange de précipitations annuelles, avec des contributions de neige et de pluies. Tous les systèmes étudiés montrent que les eaux souterraines se sont rechargées en traversant des sols organiques avec une PCO2 élevée, ce qui suggère que la recharge se produire largement durant l’été quand l’activité biologique est élevée. Cependant, les concentrations en gaz nobles montre que la température de recharge des eaux souterraines était entre 0 et 6 °C ce qui indique qu’il n’y a pas de déséquilibre de flux d’énergie à l’intérieur de la zone proche de la surface. L’âge des eaux a été déterminé par la méthode 3H-3He et cet âge est dépendant du chemin d'écoulement. En caractérisant les paramètres chimiques des eaux de surface et des eaux souterraines, il a été possible de trouver la contribution des eaux souterraines aux eaux surface.
Le possible impact de la formation et de la fonte de la glace souterraine sur les concentrations des gaz nobles a été considéré. Pour déterminer s’il y a un lien entre ceux-ci, une nouvelle méthode pour mesurer la concentration en gaz nobles dans les glaces souterraines a été développée. La méthode peut être utilisée pour déterminer l’origine de la glace; elle est basée sur les changements dans les rapports des gaz nobles entre la glace issue de la compaction de la neige (c’est-à-dire la glace de glacier) par opposition à la glace issue du gel de l’eau. Aucun fractionnement significatif des gaz nobles durant l’engel des eaux souterraines et la formation de glaces souterraines n’a été identifié. Appliquée à l’identification de l’origine des masses de glace enfouies, on a montré que la méthode pouvait permettre d’identifier l’origine des glaces souterraines sans qu’elle soit affectée par des réactions biologiques de sub-surface, lesquelles rendent inutilisables les gaz atmosphériques (O2, and N2).
|
6 |
The Norman Wells Project Coordinating Committee : an evaluationWilson, Jennifer Sharon 11 1900 (has links)
On July 31,1981 the federal cabinet approved the Norman Wells Pipeline
and Expansion Project (NW Project). The project consisted of a tenfold
expansion to the existing oilfield at Norman Wells, N.W.T., and the construction
of an 870 km pipeline to Zama, Alberta.
The approval was subject to a formal delay to allow "time for effective
and meaningful planning" for the implementation of special management
measures and benefit packages. Construction commenced January 1983 and the
project became operational in April 1985.
Although the project did not represent a major undertaking by industry
standards, it was significant for the north because it was the first major
hydrocarbon production and transportation project to be completed in the
Northwest Territories. In addition, the project involved a number of unique
impact management structures in order to coordinate government and industry's
activities and incorporate native concerns. The approach, if successfully
implemented, would represent an important step towards recognizing native
concerns in project management.
As a result of the new impact management structures, the NW Project has
been referred to by the federal government and industry as a "model" for future
northern development projects. On the other hand, native organizations viewed
the project as a 'test case' that failed since all the conditions to their approval were not fully met. This inconsistency highlights the importance of clarifying
which structures were successful for future northern megaprojects.
This thesis focuses on one of the management structures unique to the
NW Project, the Project Coordinating Committee (PCC). The PCC was
established "to provide a forum for formal project update, reporting,
communication and coordination of activities". The Committee had
representatives from the federal government, the two proponents, the
Government of the Northwest Territories, the Dene Nation, and the Metis
Association.
The specific purpose of this thesis is to assess the performance of the PCC
using criteria derived from the literature on Planning Process and Citizen
Participation, Group Dynamics, and Environmental Dispute Resolution.
The results of this evaluation showed that the committee failed to satisfy
all the performance criteria. However, at the root of the problem were the
politics associated with the approval of the project, and in particular, the fact that
the native land claims issue had not been resolved.
Even in the absence of negotiated powers, the Dene and Metis had
expected to actively participate in the regulation and management of the NW
Project. When these powers were divorced from the processes the Dene and
Metis were to be involved in, the Dene and Metis boycotted them.
In addition to politics, there were also fundamental structural and
operational deficiencies with the PCC which were detrimental to its
performance. On the basis of this analysis, an improved committee framework
for future projects is proposed.
|
7 |
Geochemistry and Noble Gases of Permafrost Groundwater and Ground Ice in Yukon and the Northwest Territories, CanadaUtting, Nicholas C. 11 January 2012 (has links)
In Canada’s western Arctic, perennial discharge from permafrost watersheds is the surface manifestation of active groundwater flow systems, yet understanding the mechanisms of groundwater recharge and flow in periglacial environments remains enigmatic. This thesis addresses questions on how and where groundwater recharge occurs. Watersheds were selected in Yukon (Fishing Branch River at Bear Cave Mountain) and the Northwest Territories at latitudes spanning from continuous to discontinuous permafrost (five tributary rivers to the Mackenzie River from Wrigley to Aklavik). All are characterized by perennial flow with open water in the winter, and discharge from sedimentary formations of karstic carbonates and evaporate rocks. Determinations of groundwater contributions to discharge, mixing, recharge conditions and circulation times were made on the basis of a suite of analytical approaches involving measurements of major dissolved ions, δ18O, δD, δ13CDIC, 3H, noble gases and flow gauging was conducted at some sites.
The application of these tracers show that hydrogeological conditions and flow paths in permafrost terrains are surprisingly similar to those of temperate regions. Groundwater recharge was determined to be a mix of annual precipitation with contributions from snowmelt and precipitation. All systems investigated show that groundwaters have recharged through organic soils with elevated PCO2, which suggests that recharge occurs largely during summer when biological activity is high. Noble gas concentrations show that the recharge temperature was between 0 and 6 °C, which, when considered in the context of discharge temperatures, suggests that there is no significant imbalance of energy flux into the subsurface. Groundwater ages were found using the 3H-3He method and were dependent on flow path. By characterizing groundwater and surface water chemistry, the proportion of groundwater was found in numerous water courses.
The possible impact of ground ice formation and melting on noble gas concentrations in groundwater was considered. To assess this link, a new method to measure the noble gas composition of ground ice bodies was developed. The method can be used to determine the origin of ice, based on changes in noble gas ratios between ice originating from compaction of snow (e.g. glacier ice) vs. ice originating from freezing of water. No significant fractionation of noble gases during groundwater freezing and ground ice formation was identified. Applied to determination of the origin of ground ice bodies, the method was shown to be both diagnostic of ice origin and un-encumbered by reactivity in the subsurface, which compromises the use of the dominant atmospheric gases (O2 and N2).
Résumé
Dans l’Ouest de l'Arctique canadien, la décharge pérenne dans certaines rivières en région de pergélisol est la manifestation en surface d’une circulation d’eau souterraine; cependant la compréhension des mécanismes d’écoulement et de recharge des eaux souterraines en région de pergélisol demeure énigmatique. Cette thèse s’intéresse à la question de savoir comment et où la recharge des eaux souterraines se produit. Des bassins versants ont été choisis au Yukon (Rivière Fishing Branch à Bear Cave Mountain) et dans les Territoire du Nord-Ouest à des latitudes s’étendant du pergélisol discontinu au pergélisol continu (cinq tributaires du Mackenzie entre Wrigley et Aklavik). Toutes ces rivières ont un écoulement d’eau pérenne avec des zones non gelées et une décharge dans des formations sédimentaires de roches carbonatées et d‘évaporites. L’identification des contributions des eaux à la décharge, les mélanges, les conditions de recharge, et les temps de circulation ont été faits à partir d’analyses qui ont inclus les concentrations en éléments majeurs, leur valeur isotopique (δ18O, δD, δ13C, 3H), ainsi que leur teneur en gaz rares. A certain des sites analysés des mesures d’écoulement ont été prises.
L’application de ces traceurs montre que les conditions hydrauliques et le chemin des écoulements en région de pergélisol sont similaires à ceux des régions tempérées. La recharge en eau souterraine a été identifiée comme étant un mélange de précipitations annuelles, avec des contributions de neige et de pluies. Tous les systèmes étudiés montrent que les eaux souterraines se sont rechargées en traversant des sols organiques avec une PCO2 élevée, ce qui suggère que la recharge se produire largement durant l’été quand l’activité biologique est élevée. Cependant, les concentrations en gaz nobles montre que la température de recharge des eaux souterraines était entre 0 et 6 °C ce qui indique qu’il n’y a pas de déséquilibre de flux d’énergie à l’intérieur de la zone proche de la surface. L’âge des eaux a été déterminé par la méthode 3H-3He et cet âge est dépendant du chemin d'écoulement. En caractérisant les paramètres chimiques des eaux de surface et des eaux souterraines, il a été possible de trouver la contribution des eaux souterraines aux eaux surface.
Le possible impact de la formation et de la fonte de la glace souterraine sur les concentrations des gaz nobles a été considéré. Pour déterminer s’il y a un lien entre ceux-ci, une nouvelle méthode pour mesurer la concentration en gaz nobles dans les glaces souterraines a été développée. La méthode peut être utilisée pour déterminer l’origine de la glace; elle est basée sur les changements dans les rapports des gaz nobles entre la glace issue de la compaction de la neige (c’est-à-dire la glace de glacier) par opposition à la glace issue du gel de l’eau. Aucun fractionnement significatif des gaz nobles durant l’engel des eaux souterraines et la formation de glaces souterraines n’a été identifié. Appliquée à l’identification de l’origine des masses de glace enfouies, on a montré que la méthode pouvait permettre d’identifier l’origine des glaces souterraines sans qu’elle soit affectée par des réactions biologiques de sub-surface, lesquelles rendent inutilisables les gaz atmosphériques (O2, and N2).
|
8 |
The Norman Wells Project Coordinating Committee : an evaluationWilson, Jennifer Sharon 11 1900 (has links)
On July 31,1981 the federal cabinet approved the Norman Wells Pipeline
and Expansion Project (NW Project). The project consisted of a tenfold
expansion to the existing oilfield at Norman Wells, N.W.T., and the construction
of an 870 km pipeline to Zama, Alberta.
The approval was subject to a formal delay to allow "time for effective
and meaningful planning" for the implementation of special management
measures and benefit packages. Construction commenced January 1983 and the
project became operational in April 1985.
Although the project did not represent a major undertaking by industry
standards, it was significant for the north because it was the first major
hydrocarbon production and transportation project to be completed in the
Northwest Territories. In addition, the project involved a number of unique
impact management structures in order to coordinate government and industry's
activities and incorporate native concerns. The approach, if successfully
implemented, would represent an important step towards recognizing native
concerns in project management.
As a result of the new impact management structures, the NW Project has
been referred to by the federal government and industry as a "model" for future
northern development projects. On the other hand, native organizations viewed
the project as a 'test case' that failed since all the conditions to their approval were not fully met. This inconsistency highlights the importance of clarifying
which structures were successful for future northern megaprojects.
This thesis focuses on one of the management structures unique to the
NW Project, the Project Coordinating Committee (PCC). The PCC was
established "to provide a forum for formal project update, reporting,
communication and coordination of activities". The Committee had
representatives from the federal government, the two proponents, the
Government of the Northwest Territories, the Dene Nation, and the Metis
Association.
The specific purpose of this thesis is to assess the performance of the PCC
using criteria derived from the literature on Planning Process and Citizen
Participation, Group Dynamics, and Environmental Dispute Resolution.
The results of this evaluation showed that the committee failed to satisfy
all the performance criteria. However, at the root of the problem were the
politics associated with the approval of the project, and in particular, the fact that
the native land claims issue had not been resolved.
Even in the absence of negotiated powers, the Dene and Metis had
expected to actively participate in the regulation and management of the NW
Project. When these powers were divorced from the processes the Dene and
Metis were to be involved in, the Dene and Metis boycotted them.
In addition to politics, there were also fundamental structural and
operational deficiencies with the PCC which were detrimental to its
performance. On the basis of this analysis, an improved committee framework
for future projects is proposed. / Applied Science, Faculty of / Community and Regional Planning (SCARP), School of / Graduate
|
9 |
Geochemistry and Noble Gases of Permafrost Groundwater and Ground Ice in Yukon and the Northwest Territories, CanadaUtting, Nicholas C. January 2012 (has links)
In Canada’s western Arctic, perennial discharge from permafrost watersheds is the surface manifestation of active groundwater flow systems, yet understanding the mechanisms of groundwater recharge and flow in periglacial environments remains enigmatic. This thesis addresses questions on how and where groundwater recharge occurs. Watersheds were selected in Yukon (Fishing Branch River at Bear Cave Mountain) and the Northwest Territories at latitudes spanning from continuous to discontinuous permafrost (five tributary rivers to the Mackenzie River from Wrigley to Aklavik). All are characterized by perennial flow with open water in the winter, and discharge from sedimentary formations of karstic carbonates and evaporate rocks. Determinations of groundwater contributions to discharge, mixing, recharge conditions and circulation times were made on the basis of a suite of analytical approaches involving measurements of major dissolved ions, δ18O, δD, δ13CDIC, 3H, noble gases and flow gauging was conducted at some sites.
The application of these tracers show that hydrogeological conditions and flow paths in permafrost terrains are surprisingly similar to those of temperate regions. Groundwater recharge was determined to be a mix of annual precipitation with contributions from snowmelt and precipitation. All systems investigated show that groundwaters have recharged through organic soils with elevated PCO2, which suggests that recharge occurs largely during summer when biological activity is high. Noble gas concentrations show that the recharge temperature was between 0 and 6 °C, which, when considered in the context of discharge temperatures, suggests that there is no significant imbalance of energy flux into the subsurface. Groundwater ages were found using the 3H-3He method and were dependent on flow path. By characterizing groundwater and surface water chemistry, the proportion of groundwater was found in numerous water courses.
The possible impact of ground ice formation and melting on noble gas concentrations in groundwater was considered. To assess this link, a new method to measure the noble gas composition of ground ice bodies was developed. The method can be used to determine the origin of ice, based on changes in noble gas ratios between ice originating from compaction of snow (e.g. glacier ice) vs. ice originating from freezing of water. No significant fractionation of noble gases during groundwater freezing and ground ice formation was identified. Applied to determination of the origin of ground ice bodies, the method was shown to be both diagnostic of ice origin and un-encumbered by reactivity in the subsurface, which compromises the use of the dominant atmospheric gases (O2 and N2).
Résumé
Dans l’Ouest de l'Arctique canadien, la décharge pérenne dans certaines rivières en région de pergélisol est la manifestation en surface d’une circulation d’eau souterraine; cependant la compréhension des mécanismes d’écoulement et de recharge des eaux souterraines en région de pergélisol demeure énigmatique. Cette thèse s’intéresse à la question de savoir comment et où la recharge des eaux souterraines se produit. Des bassins versants ont été choisis au Yukon (Rivière Fishing Branch à Bear Cave Mountain) et dans les Territoire du Nord-Ouest à des latitudes s’étendant du pergélisol discontinu au pergélisol continu (cinq tributaires du Mackenzie entre Wrigley et Aklavik). Toutes ces rivières ont un écoulement d’eau pérenne avec des zones non gelées et une décharge dans des formations sédimentaires de roches carbonatées et d‘évaporites. L’identification des contributions des eaux à la décharge, les mélanges, les conditions de recharge, et les temps de circulation ont été faits à partir d’analyses qui ont inclus les concentrations en éléments majeurs, leur valeur isotopique (δ18O, δD, δ13C, 3H), ainsi que leur teneur en gaz rares. A certain des sites analysés des mesures d’écoulement ont été prises.
L’application de ces traceurs montre que les conditions hydrauliques et le chemin des écoulements en région de pergélisol sont similaires à ceux des régions tempérées. La recharge en eau souterraine a été identifiée comme étant un mélange de précipitations annuelles, avec des contributions de neige et de pluies. Tous les systèmes étudiés montrent que les eaux souterraines se sont rechargées en traversant des sols organiques avec une PCO2 élevée, ce qui suggère que la recharge se produire largement durant l’été quand l’activité biologique est élevée. Cependant, les concentrations en gaz nobles montre que la température de recharge des eaux souterraines était entre 0 et 6 °C ce qui indique qu’il n’y a pas de déséquilibre de flux d’énergie à l’intérieur de la zone proche de la surface. L’âge des eaux a été déterminé par la méthode 3H-3He et cet âge est dépendant du chemin d'écoulement. En caractérisant les paramètres chimiques des eaux de surface et des eaux souterraines, il a été possible de trouver la contribution des eaux souterraines aux eaux surface.
Le possible impact de la formation et de la fonte de la glace souterraine sur les concentrations des gaz nobles a été considéré. Pour déterminer s’il y a un lien entre ceux-ci, une nouvelle méthode pour mesurer la concentration en gaz nobles dans les glaces souterraines a été développée. La méthode peut être utilisée pour déterminer l’origine de la glace; elle est basée sur les changements dans les rapports des gaz nobles entre la glace issue de la compaction de la neige (c’est-à-dire la glace de glacier) par opposition à la glace issue du gel de l’eau. Aucun fractionnement significatif des gaz nobles durant l’engel des eaux souterraines et la formation de glaces souterraines n’a été identifié. Appliquée à l’identification de l’origine des masses de glace enfouies, on a montré que la méthode pouvait permettre d’identifier l’origine des glaces souterraines sans qu’elle soit affectée par des réactions biologiques de sub-surface, lesquelles rendent inutilisables les gaz atmosphériques (O2, and N2).
|
10 |
Debating the Past and Future: an Analysis of Conflicting Views of History Within the MacKenzie Valley Pipeline Inquiry, 1974-1977MacRury, Malcolm Hector January 1984 (has links)
Permission from the author to digitize this work is pending. Please contact the ICS library if you would like to view this work.
|
Page generated in 0.2909 seconds