2,761 research outputs found

    Challenges and Opportunities of a Forthcoming Strategic Assessment of the Implications of International Climate Change Mitigation Commitments for Individual Undertakings in Canada

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    Canada is preparing to initiate a challenging, but potentially ground-breaking, strategic assessment on the implications of its climate change mitigation commitments for project assessments. The strategic assessment is immediately needed to provide project-level guidance for decision makers who will be required under new federal legislation to consider the extent to which each assessed project “contributes to sustainability” and “hinders or contributes to” meeting Canada’s climate commitments. However, Canada, like many other countries, has not yet translated its Paris Agreementclimate commitments into an adequate suite of specific policies, pathways, budgets, and other directives for compliance. Consequently, the climate commitments’ strategic assessment will need to play a fully strategic role—in policy development as well as policy interpretation and elaboration for assessment purposes. This paper outlines the key considerations and required steps for a strategic assessment that fills the policy gap between Paris and projects, and develops guidance centred on a suite of tests for evaluating proposed major projects that may have important effects on Canada’s prospects for meeting its climate commitments

    The Paris to Projects Research Initiative

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    This working paper explores the key components and provisions that need to be incorporated into impact assessment legislation to ensure that assessed undertakings help meet Canadian climate change mitigation commitments and duties. This discussion paper includes a summary that serves as a basic briefing note on the core climate components that should be included in the new federal legislation. It also includes a box presenting the tests for determining an undertaking\u27s contributions to meeting Canada\u27s international climate change mitigation commitments, and a more detailed discussion of implications for the new law

    Paris to Projects Research Initiative

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    This working paper explores the key components and provisions that need to be incorporated into impact assessment legislation to ensure that assessed undertakings help meet Canadian climate change mitigation commitments and duties. This discussion paper includes a summary that serves as a basic briefing note on the core climate components that should be included in the new federal legislation. It also includes a box presenting the tests for determining an undertaking\u27s contributions to meeting Canada\u27s international climate change mitigation commitments, and a more detailed discussion of implications for the new law

    Fulfilling the Promise: Basic Components of Next Generation Environmental Assessment

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    This paper outlines the key elements of the next generation EA in Canada. It draws on decades of EA practice and academic literature. It summarizes the working conclusions of a lengthy monograph, which also sets out the broad context and the background of experience with environmental assessment law and practice in Canada. Readers who would like to explore the issues raised in this paper in more detail may wish to consult the monograph online

    Impacts of a flaring star-forming disc and stellar radial mixing on the vertical metallicity gradient

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    Using idealized N-body simulations of a Milky Way-sized disc galaxy, we qualitatively study how the metallicity distributions of the thin disc star particles are modified by the formation of the bar and spiral arm structures. The thin disc in our numerical experiments initially has a tight negative radial metallicity gradient and a constant vertical scaleheight. We show that the radial mixing of stars drives a positive vertical metallicity gradient in the thin disc. On the other hand, if the initial thin disc is flared, with vertical scaleheight increasing with galactocentric radius, the metal-poor stars, originally in the outer disc, become dominant in regions above the disc plane at every radii. This process can drive a negative vertical metallicity gradient, which is consistent with the current observed trend. This model mimics a scenario where the star-forming thin disc was flared in the outer region at earlier epochs. Our numerical experiment with an initial flared disc predicts that the negative vertical metallicity gradient of the mono-age relatively young thin disc population should be steeper in the inner disc, and the radial metallicity gradient of the mono-age population should be shallower at greater heights above the disc plane. We also predict that the metallicity distribution function of mono-age young thin disc populations above the disc plane would be more positively skewed in the inner disc compared to the outer disc

    Law and Policy Options for Strategic Environmental Assessment in Canada

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    This research paper has been produced for the Canadian Environmental Assessment Agency on behalf of the sub-committee on Strategic Environmental Assessment (the SEA sub-committee) which is in turn mandated by the Minister of the Environment’s Regulatory Advisory Committee (RAC). The immediate need for the report is a request from RAC to the SEA sub-committee to research and report on law and policy options for improving the conduct of Strategic Environmental Assessment (SEA) in Canada, with a focus on the federal level. The purpose of the paper is to provide an impartial, research-based assessment of the best approaches to designing and implementing a more effective federal SEA regime for Canada, recognizing the diversity of contexts and conditions under which SEA is needed in this country, the frequently overlapping nature of federal, provincial and other government responsibility, and the challenges evident from SEA experience in Canada to date

    Antigen depot is not required for alum adjuvanticity

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    Alum adjuvants have been in continuous clinical use for more than 80 yr. While the prevailing theory has been that depot formation and the associated slow release of antigen and/or inflammation are responsible for alum enhancement of antigen presentation and subsequent T- and B-cell responses, this has never been formally proven. To examine antigen persistence, we used the chimeric fluorescent protein EαGFP, which allows assessment of antigen presentation in situ, using the Y-Ae antibody. We demonstrate that alum and/or CpG adjuvants induced similar uptake of antigen, and in all cases, GFP signal did not persist beyond 24 h in draining lymph node antigen-presenting cells. Antigen presentation was first detectable on B cells within 6–12 h of antigen administration, followed by conventional dendritic cells (DCs) at 12–24 h, then finally plasmacytoid DCs at 48 h or later. Again, alum and/or CpG adjuvants did not have an effect on the magnitude or sequence of this response; furthermore, they induced similar antigen-specific T-cell activation in vivo. Notably, removal of the injection site and associated alum depot, as early as 2 h after administration, had no appreciable effect on antigen-specific T- and B-cell responses. This study clearly rules out a role for depot formation in alum adjuvant activity
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