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Oil Sands Environmental Management Bibliography

The Cumulative Environmental Management Association (CEMA)partnered with the Oil Sands Research and Information Network (OSRIN) to create the new Oil Sands Environmental Management Bibliography, which includes documents relevant to the environmental management of oil sands development in Alberta. The majority of the documents focus on the mineable oil sands in the Athabasca deposit, though some documents relate to in-situ developments. This bibliography was last updated in November 2014.

Growth and physiological responses of trembling aspen (Populus tremuloides) white spruce (Picea glauca) and tamarack (Larix laricina) seedlings to root zone pH

Authors Zhang, W., Calvo-Polanco M., Chen C. Z., & Zwiazek J. J.
Year of Publication: 2013

Abstract:
Background and aims Soil pH is among the major environmental factors affecting plant growth. Although the optimum range of soil pH for growth and the tolerance of pH extremes widely vary among plant species, the pH tolerance mechanisms in plants are still poorly understood. In this study, possible mechanisms were examined to explain the differences in tolerance of boreal plants to root zone pH. Methods In the controlled-environment solution culture experiments, we compared growth, physiological parameters and tissue nutrient concentrations in aspen, white spruce and tamarack seedlings that were subjected to 8 weeks of root zone pH treatments ranging from 5.0 to 9.0. Results The pH treatments had little effect on dry weights and net photosynthesis in white spruce seedlings despite reductions in transpiration rates at higher pH levels. In aspen and tamarack, both the growth and physiological parameters significantly decreased at pH higher than 6.0. The chlorosis of young tissues in aspen and tamarack was associated with the reductions in foliar concentrations of several of the examined essential nutrients including Fe and Mn. Although the plants varied in their ability to deliver essential nutrients to growing leaves, there was no direct correlation between tissue nutrient concentrations, chlorophyll concentrations and plant growth. The results also demonstrated strong inhibition of transpiration rates by high pH. Conclusions The results suggest that high root zone pH can upset water balance in pH sensitive species including aspen. Although the uptake and assimilation of essential elements such as Fe and Mn contribute to plant tolerance of high soil pH, we did not observe a direct relationship between growth and foliar nutrient concentrations to account for the observed differences in growth.

Citation:
Zhang, W., Calvo-Polanco M., Chen C. Z., & Zwiazek J. J. (2013).  Growth and physiological responses of trembling aspen (Populus tremuloides) white spruce (Picea glauca) and tamarack (Larix laricina) seedlings to root zone pH. 1-2, 11 pages . Abstract
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Growth and physiological responses of Triticum aestivum and Deschampsia caespitosa exposed to petroleum coke

Authors Nakata, C., Qualizza C., MacKinnon M., & Renault S.
Year of Publication: 2011

Abstract:
Over the past decades, the global production of petroleum coke, a by-product of the oil sand industry, has increased with the growing importance of oil sands as a source of fossil fuels. A greenhouse study using Triticum aestivum and Deschampsia caespitosa was conducted to assess the growth and physiological effects of coke on plants. The plants were grown in cokes with or without a cap of peat–mineral mix and were compared to plants grown in a peat–mineral mix (control). Our results indicate that the selected plants can survive in coke; however, stress symptoms such as reductions in transpiration (45–91%) and stomatal conductance rates (44–92%) in T. aestivum, biomass in T. aestivum (5–83%) and D. caespitosa (43–90%), photosynthetic pigments in T. aestivum (32–68%) and D. caespitosa (33–44%) and proline concentrations in D. caespitosa (77–97%) were observed. Furthermore, potentially phytotoxic concentrations of nickel (47–69 μg g−1 in D. caespitosa) and vanadium (9.3–18.3 μg g−1 in T. aestivum and 4–27.8 μg g−1 in D. caespitosa) were found in some tissues while molybdenum accumulated in D. caespitosa shoots at concentrations reported, in other studies, to cause molybdenosis in ruminants. These results suggest that the plants growing in coke could experience multiple stresses including water stress, nutrient deficiencies and/or Ni and V toxicity. Capping coke with peat–mineral mix limited the stress symptoms and could improve revegetation success of coke impoundment sites. This study provides baseline data for future long-term field studies essential for developing coke management guidelines.

Citation:
Nakata, C., Qualizza C., MacKinnon M., & Renault S. (2011).  Growth and physiological responses of Triticum aestivum and Deschampsia caespitosa exposed to petroleum coke. 216(1-4), 13 pages . Abstract
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Growth development and incidence of deformities in amphibian larvae exposed as embryos to naphthenic acid concentrations detected in the Canadian oil sands region

Authors Melvin, S. D., & Trudeau V. L.
Year of Publication: 2012

Abstract:
Naphthenic acids (NA) have been identified as harmful environmental contaminants that influence survival, growth and development of wildlife. Amphibian larvae are particularly susceptible to waterborne contaminants, but little information exists regarding exposure of amphibian embryos or tadpoles to NA. Our results demonstrate that embryos of Lithobates pipiens and Silurana tropicalis exposed to 2–4 mg/l of a commercial NA blend suffer significant reductions (32% and 25%, respectively) in growth and development upon hatching. Increased incidences of deformities were observed in exposed individuals of both species, but were only significant in L. pipiens. Embryos suffered 100% mortality following exposure to 6 mg/l NAs, and narcosis at lower concentrations. LC50 estimates were 4.10 mg/l for 72-h exposure in L. pipiens and 4.13, 3.51, and 2.95 mg/l for 24-, 48-, and 72-h exposure in S. tropicalis. These data suggest that exposure to NAs at environmentally realized concentrations may negatively affect tadpole populations.

Citation:
Melvin, S. D., & Trudeau V. L. (2012).  Growth development and incidence of deformities in amphibian larvae exposed as embryos to naphthenic acid concentrations detected in the Canadian oil sands region. 167, 5 pages . Abstract
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Growth in the Canadian oil sands: Finding the new balance

Authors
Year of Publication: 2009

Citation:
[Anonymous] (2009).  Growth in the Canadian oil sands: Finding the new balance. (IHS CERA, Ed.).
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Growth of aspen and white spruce on naturally saline sites in northern Alberta: Implications for development of boreal forest vegetation on reclaimed saline soils

Authors Lilles, E. B., Purdy B. G., Macdonald S. E., & Chang S. X.
Year of Publication: 2012

Abstract:
We examined height and basal area growth over time for trembling aspen and white spruce in plots along a salinity gradient at six naturally saline sites in northern Alberta, as a benchmark for forest productivity on reclaimed saline sites. We measured root distributions and analyzed foliage for ions, nutrients and carbon and nitrogen stable isotope ratios. Both species grew on soil conditions previously considered unsuitable for forest vegetation [pH>8.5; electrical conductivity>10 dS m−1, sodium adsorption ratio>13 at depth (50–100 cm)] yet there was little evidence of nutritional toxicities or deficiencies. Aspen basal area growth decreased 50% as salinity increased, but aspen was commercially productive (site index=22) on soils with electrical conductivity of 7.8 dS m−1 at 50–100 cm depth. Growth of white spruce seemed to be unaffected by salinity level differences, but 78% of white spruce site indexes were less than 13 and would be considered non-productive. Both species showed growth declines over time, compared with non-saline reference growth curves, and rooted primarily in the forest floor and top 20 cm of soil. This suggests that rooting limitations may constrain longer-term productivity of forests established on sites with salinity at depth.

Citation:
Lilles, E. B., Purdy B. G., Macdonald S. E., & Chang S. X. (2012).  Growth of aspen and white spruce on naturally saline sites in northern Alberta: Implications for development of boreal forest vegetation on reclaimed saline soils. 92(1), 14 pages . Abstract
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Growth of Chironomus dilutus larvae exposed to ozone-treated and untreated oil sands process water (PO)

Authors Anderson, J., Wiseman S., Franz E., Gamal El-Din M., Martin J., Jones P., et al.
Year of Publication: 2011

Citation:
Anderson, J., Wiseman S., Franz E., Gamal El-Din M., Martin J., Jones P., et al. (2011).  Growth of Chironomus dilutus larvae exposed to ozone-treated and untreated oil sands process water (PO). 1 page .
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Growth of fathead minnows in oilsand processed wastewater in laboratory and field

Authors Siwik, P. L., Van Meer T., MacKinnon M. D., & Paszkowski C. A.
Year of Publication: 2000

Abstract:
Two waste products of Syncrude Canada Ltd. (SCL) oilsands mine are mature fine tailings (MFT), a toxic aqueous suspension of particles, organic acids, bitumen, and metals, and tailings pond water (TPW), a saline solution containing organic and inorganic contaminants. The chemical profiles of MFT interstitial water and TPW are very similar. Syncrude Canada has proposed disposing of MFT in constructed lakes, which would be lined with MFT and capped with clean water. As the MFT consolidates, MFT-associated water would be released into the overlying watercap. Prototype ponds support fathead minnows (Pimephales promelas), but the long-term viability of these populations is unknown. This study attempts to determine if exposure to MFT and TPW, a related waste product, affected growth of fathead minnow larvae in the laboratory and field. Laboratory larval growth bioassays (7 and 56 d) on whole effluent from numerous prototype ponds yielded no significant differences in dry weight, but one 7-d bioassay showed reduced survival in two SCL sites. A 56-d growth bioassay showed significant increases in length of fish exposed to SCL wastewater at 7 d but not at 28 or 56 d. Larvae exposed as embryos and then introduced into field mesocosms did display significant differences in dry weight. In this instance, fish exposed to wastewater were significantly larger during the laboratory portion of the test (initial), but after 21 d in a field mesocosm (final), they were similar in size or smaller than fish growing in nonprocessed water.

Citation:
Siwik, P. L., Van Meer T., MacKinnon M. D., & Paszkowski C. A. (2000).  Growth of fathead minnows in oilsand processed wastewater in laboratory and field. 19(7), 8 pages . Abstract
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Growth of mycorrhizal jack pine (Pinus banksiana) and white spruce (Picea glauca) seedlings planted in oil sands reclaimed areas

Authors Onwuchekwa, N. E., Zwiazek J. J., Quoreshi A., & Khasa D. P.
Year of Publication: 2014

Abstract:
The effectiveness of ectomycorrhizal inoculation at the tree nursery seedling production stage on growth and survival was examined in jack pine (Pinus banksiana) and white spruce (Picea glauca) planted in oil sands reclamation sites. The seedlings were inoculated with Hebeloma crustuliniforme strain # UAMH 5247, Suillus tomentosus strain # UAMH 6252, and Laccaria bicolor strain # UAMH 8232, as individual pure cultures and in combinations. These treatments were demonstrated to improve salinity resistance and water uptake in conifer seedlings. The field responses of seedlings to ectomycorrhizal inoculation varied between plant species, inoculation treatments, and measured parameters. Seedling inoculation resulted in higher ectomycorrhizal colonization rates compared with non-inoculated control, which had also a relatively small proportion of roots colonized by the nursery contaminant fungi identified as Amphinema byssoides and Thelephora americana. Seedling inoculation had overall a greater effect on relative height growth rates, dry biomass, and stem volumes in jack pine compared with white spruce. However, when examined after two growing seasons, inoculated white spruce seedlings showed up to 75 % higher survival rates than non-inoculated controls. The persistence of inoculated fungi in roots of planted seedlings was examined at the end of the second growing season. Although the inoculation with H. crustuliniforme triggered growth responses, the fungus was not found in the roots of seedlings at the end of the second growing season suggesting a possibility that the observed growth-promoting effect of H. crustuliniforme may be transient. The results suggest that the inoculation of conifer seedlings with ectomycorrhizal fungi could potentially be carried out on a large scale in tree nurseries to benefit postplanting performance in oil sands reclamation sites. However, these practices should take into consideration the differences in responses between the different plant species and fungal strains.

Citation:
Onwuchekwa, N. E., Zwiazek J. J., Quoreshi A., & Khasa D. P. (2014).  Growth of mycorrhizal jack pine (Pinus banksiana) and white spruce (Picea glauca) seedlings planted in oil sands reclaimed areas. 24(6), 10 pages . Abstract
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Growth of the dominant macrophyte Carex aquatilis is inhibited in oil sands affected wetlands in Northern Alberta, Canada

Authors Mollard, F. P. O., Roy M. - C., Frederick K., & Foote L.
Year of Publication: 2012

Abstract:
Carex aquatilis could be a suitable species for wetland reclamation in mined boreal landscapes as those of the oil sands industry (Northern Alberta). We compared the performance of C. aquatilis plants established in oil sands industrial wetlands (directly affected by processed materials), on-site indirectly affected wetlands, and off-site natural wetlands. We studied leaf chemistry, fluorescence, gas exchange rates (net photosynthesis and transpiration rates), and morphological features of plants. Despite higher photochemistry efficiency in oil sands populations, plants did not channelize surplus energy into increased carbon assimilation rates. Oil sands populations registered lower culm heights and leaf lengths than natural populations. Plants growing in industrial wetlands were shorter and accumulated more sodium in leaves than plants from indirectly affected wetlands. Evidence indicated that C. aquatilis was a promising species for reclamation as it was tolerant to pollution. Though it survived, C. aquatilis, showed a restricted growth in the oil sands wetlands thereby possibly limiting carbon assimilation at the stand level. Oil sands wetlands amended with freshwater and established over non-industrial materials provided better growing conditions for C. aquatilis and demonstrated management tools for local reclamation efforts.

Citation:
Mollard, F. P. O., Roy M. - C., Frederick K., & Foote L. (2012).  Growth of the dominant macrophyte Carex aquatilis is inhibited in oil sands affected wetlands in Northern Alberta, Canada. 38(1), 8 pages . Abstract
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Growth rate and biomass responses of periphytic algae to nutrient enrichment of stable and unstable substrates, Athabasca River

Authors Perrin, C. J., Chambers P. A., & Bothwell M. L.
Year of Publication: 1995

Abstract:
This report presents the results of an experiment conducted in artificial streams in which the growth of benthic algae was studied in relation to the phosphorus and nitrogen concentrations in the water. The goal of the study was to determine whether benthic algal biomass in the upper Athabasca River is limited by the availability of phosphorus or nitrogen. The results include the taxonomic, growth, and biomass responses by periphytic algae to phosphate additions of up to 50 micrograms per liter. The report also develops a model describing change in relative peak biomass with phosphorus addition, using data from the Athabasca experiments. Comparisons are made with a similarly derived model using results from experiments on the South Thompson River

Citation:
Perrin, C. J., Chambers P. A., & Bothwell M. L. (1995).  Growth rate and biomass responses of periphytic algae to nutrient enrichment of stable and unstable substrates, Athabasca River. (National Hydrology Research Institute, Ed.). Abstract  Download: 0-662-23435-9.pdf (2.3 MB)
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Growth rate and biomass responses of periphytic algae to phosphorous enrichment in experimental flumes, Athabasca River, April and May 1994

Authors Dale, A. R., & Chambers P. A.
Year of Publication: 1995

Abstract:
Presents results of an experiment conducted in artificial streams (flumes) in which the growth of periphyton (algae) was studied in relation to phosphorus concentrations in the water. The goal of the study was to determine whether periphyton growth in the Athabasca River was phosphorus limited and whether the degree of phosphorus limitation varied from a similar study conducted in fall 1993. The experimental flumes were located on site, adjacent to the Athabasca River at Hinton. The four-week experiment consisted of four treatments: a control of zero phosphorus addition and three experimental levels of 1, 10, and 25 micrograms per litre of phosphorus. Results include relative specific growth rates as indicated by measuring the build-up of chlorophyll a, the level at which growth rate saturation occurred, and phosphorus concentrations required to reach maximum biomass levels in spring.

Citation:
Dale, A. R., & Chambers P. A. (1995).  Growth rate and biomass responses of periphytic algae to phosphorous enrichment in experimental flumes, Athabasca River, April and May 1994. (National Hydrology Research Institute, Ed.). 49 pages. Abstract  Download: 0-662-24203-3.pdf (5.41 MB)
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Growth rate and biomass responses of periphytic algae to phosphorus enrichment in experimental flumes, Athabasca River, seasonal variation, 1993 and 1994

Authors Dale, A. R., & Chambers P. A.
Year of Publication: 1996

Abstract:
Presents results of an experiment conducted in artificial streams (flumes) in which the growth of periphyton (algae) was studied in relation to phosphorus concentrations in the water. The goal of the study was to determine whether periphyton growth in the Athabasca River was phosphorus limited and whether the degree of phosphorus limitation varied seasonally. The experimental flumes were located on site, adjacent to the Athabasca River at Hinton. The experiment was designed to test periphyton growth and biomass response to a gradient of phosphorus additions during fall and early spring. Periphyton response was compared for phosphorus additions of zero (control), 1, 10, and 25 micrograms per litre of phosphorus (spring and fall 1994) or zero, 0.1, 0.2, 1, 5, 10, 25, and 50 micrograms per litre of phosphorus (fall 1993). Results include relative specific growth rates as indicated by measuring the build-up of chlorophyll a, the level at which growth rate saturation occurred, and phosphorus concentrations required to reach maximum biomass levels.

Citation:
Dale, A. R., & Chambers P. A. (1996).  Growth rate and biomass responses of periphytic algae to phosphorus enrichment in experimental flumes, Athabasca River, seasonal variation, 1993 and 1994. (National Hydrology Research Institute, Ed.). 43 pages . Abstract  Download: 0-662-24204-1.pdf (2.69 MB)
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Growth survival and community composition of Chironomidae (Diptera) larvae in selected Athabasca oil sands process-affected wetland waters of north eastern Alberta

Authors Kennedy, K. D.
Year of Publication: 2012

Citation:
Kennedy, K. D. (2012).  Growth survival and community composition of Chironomidae (Diptera) larvae in selected Athabasca oil sands process-affected wetland waters of north eastern Alberta. 144 pages .
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Guide for oil production sites pursuant to the Environmental Protection and Enhancement Act and regulations

Authors
Year of Publication: 1994

Citation:
[Anonymous] (1994).  Guide for oil production sites pursuant to the Environmental Protection and Enhancement Act and regulations. (Alberta Environmental Protection, Ed.).
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Guide to recent publications on inorganic water-rock interactions relevant to deep-well wastewater disposal in carbonate-evaporite formations in the Athabasca oil sands area Alberta

Authors Gordon, T. M., Kokot S. L., & Parks K. P.
Year of Publication: 2002

Abstract:
The rapid extension of in situ bitumen-recovery projects based on steam-assisted gravity drainage (SAGD) technology in the EUB-designated Athabasca Oil Sands Area of northeast Alberta (e.g. Butler, 2001), has generated substantial new industry interest in the subject of waste-water disposal by deep-well injection. These projects produce a variety of liquid-waste streams requiring disposal, including steam- boiler blowdown water and excess produced water. Deep-well disposal can be an acceptable waste-management option for in situ projects, depending on site-specific circumstances. Deep-well injection of oilfield waters in the Province of Alberta is administered by the Alberta Energy and Utilities Board (EUB) as documented in EIB Guide 51 - Injection and Disposal Wells: Well Classifications, Completion, Logging, and Testing Requirements. Deep-well disposal of oilfield and industrial wastewaters in Alberta is considered to be a safe and viable disposal option where wells are properly constructed, operated, and monitored. EUB Guide 65 describes the application requirements for disposal/injection wells.

Citation:
Gordon, T. M., Kokot S. L., & Parks K. P. (2002).  Guide to recent publications on inorganic water-rock interactions relevant to deep-well wastewater disposal in carbonate-evaporite formations in the Athabasca oil sands area Alberta. 12 pages . Abstract
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Guide to the Athabasca oil sands area

Authors Carrigy, M. A., & Kramers J. W.
Year of Publication: 1973

Abstract:
The oil sands area is located in northeastern Alberta adjacent to the Canadian Shield (Fig. 1). The main drainage of the area is provided by the Athabasca-Clearwater system, the valleys of which are incised into a broad, muskeg-covered interior plain to depths of 200 to 300 feet. The tributary streams originate in three highland areas (Fig. 2): the Birch Mountains to the west of the Athabasca River which rise to about 2,700 feet, Stony Mountain south of Fort McMurray which reaches an elevation of 2,500 feet, and Muskeg Mountain to the east of the Athabasca River which rises gradually to 1,900 feet. To the southwest of the area, between Birch Mountain and Stony Mountain and north of the eastward flowing Athabasca River, is a subdued highland area with gentle slopes called the Thickwood Hills. These hills give rise to northward flowing tributaries of the MacKay River, and a few short streams flowing southward to the Athabasca. A number of shallow lakes are located in the area, the largest and most numerous of which are located on the top of the Birch Mountains and form an interconnected chain of lakes, which flow into the Ells River. These are called Eaglenest, Gardiner, and Namur Lakes. The only lakes of any size south of Fort McMurray are Algar and Gregoire Lakes. McClelland Lake, which is located in the lowlands northeast of Bitumount, is an area of internal drainage.

Citation:
Carrigy, M. A., & Kramers J. W. (1973).  Guide to the Athabasca oil sands area. 213 pages . Abstract
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Guide to the landscape design checklist in the Athabasca oil sands region

Authors Brocke, L., & Ferster R.
Year of Publication: 2010

Abstract:
This document provides a comprehensive reference document to be used in conjunction with the Landscape Design Checklist. It is intended for use by: Reclamation practitioners working in the oil sands region, members of mine landscape design teams involved in mine reclamation, and others looking to understand how reclaimed landforms and ladscapes are designed in the oil sands region.

Citation:
Brocke, L., & Ferster R. (2010).  Guide to the landscape design checklist in the Athabasca oil sands region. (Millennium EMS Solutions Ltd., Ed.). 113 pages . Abstract
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Guide to the mine financial security program

Authors
Year of Publication: 2014

Citation:
[Anonymous] (2014).  Guide to the mine financial security program. (Alberta Energy Regulator, Ed.). 56 pages .
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Guideline for wetland establishment on reclaimed oil sands leases

Authors Tuttle, S.
Year of Publication: 2000

Citation:
Tuttle, S. (2000).  Guideline for wetland establishment on reclaimed oil sands leases. 8 pages .
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Guideline for wetland establishment on reclaimed oil sands leases

Authors
Year of Publication: 2000

Citation:
[Anonymous] (2000).  Guideline for wetland establishment on reclaimed oil sands leases. (Oil Sands Wetlands Working Group, Ed.). 137 pages .
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Guideline for wetland establishment on reclaimed oil sands leases (2nd edition)

Authors
Year of Publication: 2007

Citation:
[Anonymous] (2007).  Guideline for wetland establishment on reclaimed oil sands leases (2nd edition). (Alberta Environment, Ed.). 117 pages .
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Guidelines for groundwater monitoring best practices - Regional Municipality of Wood Buffalo

Authors
Year of Publication: 2012

Abstract:
This report presents the site specific objectives for monitoring programs within the RMWB. They are grouped into two main catagories: contaminant plume characterization and bulk aquifer characterization. Best practices for groundwater sampling to meet these two main objectives are described.

Citation:
[Anonymous] (2012).  Guidelines for groundwater monitoring best practices - Regional Municipality of Wood Buffalo. (Matrix Solutions Inc., Ed.). 27 pages . Abstract
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Guidelines for performance management of oil sands fluid fine tailings deposits to meet closure commitments

Authors Sobkowicz, J., Hyndman A., Dawson, Burns R., & Watts B.
Year of Publication: 2014

Abstract:
The large volume of oil sands processed by extraction plants in Alberta’s oil sands mines results in the largest tailings facilities in the world. Oil sands tailings are deposited in above-ground and in-pit tailings impoundments. Sound engineering and management principles are used in the design and operation of these facilities to minimize environmental impacts and to meet engineering and safety standards. An increasing number of oil sands mines will result in numerous tailings disposal impoundments that will be progressively reclaimed and closed in the 21st century. This reclamation requirement is hampered by a unique feature of oil sands tailings – the slow sedimentation and consolidation of fine tailings that are initially deposited in tailings ponds. These fluid fine tailings (FFT) require intervention with accelerated dewatering technologies, to enable reclamation during the active mine life and within a reasonable time after the cessation of mining. To address public concerns over this issue, the predecessor to the Alberta Energy Regulator (AER) enacted Directive 074 in 2009 to focus industry attention on disposal of FFT within set timeframes.

Citation:
Sobkowicz, J., Hyndman A., Dawson, Burns R., & Watts B. (2014).  Guidelines for performance management of oil sands fluid fine tailings deposits to meet closure commitments. 19 pages . Abstract
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Guidelines for reclamation to forest forest vegetation in the Athabasca Oil Sands Region (AOSR)

Authors
Year of Publication: 1999

Abstract:
These are the 2nd edition guidelines to provide recommendations and best practices to support reclamation within the Athabasca Oil Sands Region that meets regulatory requirements, satisfies the needs and values of stakeholders, and is environmentally sustainable. The goal of this manual is to provide guidance on re-establishing the vegetation component of upland ecosystems on reclaimed landscapes, and on evaluating the success of this re-establishment. The guidelines are comprised of the following sections: section one describes the historical development of the Revegetation Manual, the changes incorporated into the 2nd edition and the goals and objectives of the Revegetation Manual; section two describes approaches to the use of the manual, and presents decision-flow structures in support of these approaches; section three defines the Edatopic Grid, ecosites and site types, and presents a table of characteristic species for ecosites and site types in the Athabasca Oil Sands Region; section four describes end land-use declaration and appropriate revegetation targets for the declared end land-use; section five describes indicators of revegetation success and methods to assess these indicators on reclaimed landscapes; and section six provides a glossary of terms relevant to reclamation in Alberta. It is an explicit assumption of this manual that it is to provide guidance on reclamation activities for the approximate period from date of issue until 2014-2019, or until reclamation knowledge has advanced sufficiently to justify a revision.

Citation:
[Anonymous] (1999).  Guidelines for reclamation to forest forest vegetation in the Athabasca Oil Sands Region (AOSR). (Alberta Environment, Ed.). 332 pages . Abstract
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Guidelines for reclamation to forest vegetation in the Athabasca oil sands region

Authors
Year of Publication: 1998

Abstract:
The Oil Sands Vegetation Reclamation Committee was formed in November 1996 with the mandate to prepare guidelines on the establishment of forest vegetation (ecosystems) for reclaiming oil sands leases in northeastern Alberta. The Committee focussed on starter vegetation and design criteria for ecosystems that would support primarily commercial forests and secondarily would provide wildlife habitat. In addition, biodiversity was considered an important aspect of reclaimed ecosystems. The guidelines have been based on successful reclamation techniques, and research and monitoring information that were available for the oil sands region at the time of document preparation. As research and monitoring programs continue in the region, new data will be used to update and refine the suggested approaches and techniques every 5 years.

Citation:
[Anonymous] (1998).  Guidelines for reclamation to forest vegetation in the Athabasca oil sands region. (Alberta Environmental Protection, Ed.). 212 pages. Abstract
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