Limits to Private Climate Change Mitigation
In: CEPR Discussion Paper No. DP16061
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In: CEPR Discussion Paper No. DP16061
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In: IMF Working Paper No. 2021/112
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In: Ethics & international affairs, Band 23, Heft 3, S. 247-266
ISSN: 1747-7093
Treaty Norms and Climate Change MitigationDarrel MoellendorfCurrently the international community is discussing the regulatory framework to replace the Kyoto Protocol after 2012. The unveiling of the new framework is scheduled to occur at the December 2009 COP in Copenhagen. The stakes are high, since any treaty will affect the development prospects of per capita poor countries and will determine the climate change–related costs borne by poor people for centuries to come. Failure to arrive at an agreement would have grave effects on the development prospects of poor countries, many of which will experience the most severe effects of climate change. The original UNFCCC treaty recognizes these kinds of concerns and requires that further treaty negotiation pay them heed. Any agreement will be required to conform to UNFCCC norms related to sustainable development and the equitable distribution of responsibilities. In this paper I argue that UNFCCC norms tightly constrain the range of acceptable agreements for the distribution of burdens to mitigate climate change. I conclude that any legitimate treaty must put much heavier mitigation burdens on industrialized developed countries. Of the various proposals that have received international attention, two in particular stand out as possibly satisfying UNFCCC norms regarding the distribution of responsibilities.
In: Oxford Monographs in International Law Ser.
A comprehensive doctrinal study of states' obligations on climate change mitigation, showing that obligations arise not only from climate treaties, but also from customary international law, unilateral declarations, and human rights treaties, and exploring the interactions between these multiple obligations.
Intro -- Preface -- Acknowledgments -- Contents -- Part I Introduction -- 1 Introduction to "Sustainable Agriculture in Egypt: Climate Change Mitigation" -- 1.1 Background -- 1.1.1 Concept of Sustainability -- 1.1.2 Concept of Vulnerability -- 1.1.3 Concept of Adaptation -- 1.1.4 Concept of Stability -- 1.2 Purpose of the Book -- 1.3 Scope of the Book -- 1.4 Themes of the Book and Contribution of the Chapters -- References -- Part II Impact of Climate Change on Sustainable Crop Production and the Physiological and Biochemical Basis for Crops Tolerance -- 2 Climate Change and Its Impact on Sustainable Crop Production -- 2.1 Introduction -- 2.2 Critical Periods of Crop Plants to Environmental Stress -- 2.3 Impact of Climate Change on Sustainable Crop Production -- 2.4 Impact of Climate Change on Interrelationships Among Yield Traits of Field Crops -- 2.4.1 Wheat -- 2.4.2 Rice -- 2.4.3 Faba Bean -- 2.4.4 Sesame -- 2.4.5 Sunflower -- 2.4.6 Cotton -- 2.5 Conclusions -- 2.6 Recommendations -- References -- 3 Foundations of Crop Tolerance to Climate Change: Plant Traits Relevant to Stress Tolerance -- 3.1 Introduction -- 3.2 Plant Traits Relevant to Environmental Stress Tolerance -- 3.2.1 Rapid Growth and Early Maturity -- 3.2.2 Morphological Traits -- 3.2.3 Physiological Traits -- 3.2.4 Biochemical and Molecular Base -- 3.3 Conclusions -- 3.4 Recommendations -- References -- Part III Improve Crop Adaptability and Stability to Climate Change and Modern Technology -- 4 Approaches in Wheat to Mitigate Impact of Climate Change -- 4.1 Introduction -- 4.2 Genotype × Environment Interaction and Its Relation to Climate Change -- 4.3 Performance of Wheat Genotypes in Response to Environmental Changes -- 4.3.1 Earliness Characteristics -- 4.3.2 Morpho-physiological Characters -- 4.3.3 Yield and Its Components -- 4.3.4 Protein Content.
Anthropogenic climate change, caused by greenhouse gas (GHG) emissions, will have negative if not catastrophic consequences for the livelihoods of many across the globe. With the Paris Agreement in 2015, most countries have pledged to reduce territorial GHG emissions. Per-capita emission levels are highest in today's rich countries, and many have started reducing their emissions. Current middle-income economies such as China, Ghana, India or Indonesia have experienced rapid economic, population, and emission growth in recent years, and today's poor countries are projected to be responsible ...
Anthropogenic climate change, caused by greenhouse gas (GHG) emissions, will have negative if not catastrophic consequences for the livelihoods of many across the globe. With the Paris Agreement in 2015, most countries have pledged to reduce territorial GHG emissions. Per-capita emission levels are highest in today's rich countries, and many have started reducing their emissions. Current middle-income economies such as China, Ghana, India or Indonesia have experienced rapid economic, population, and emission growth in recent years, and today's poor countries are projected to be responsible ...
In: Environmental politics, Band 23, Heft 1, S. 179-184
ISSN: 1743-8934
In: International journal of sustainability in higher education, Band 10, Heft 3, S. 239-249
ISSN: 1758-6739
PurposeThe purpose of this paper is to present the University of Hawaii at Manoa's (UHM's) initiatives in achieving greenhouse gas (GHG) emissions reductions on campus and at the state level.Design/methodology/approachUHM has taken a "lead by example" approach to climate change mitigation in terms of working to meet the American College & University Presidents Climate Commitment, becoming a founding member of The Climate Registry, and providing university leadership in crafting the policy to meet Hawaii's Climate Change Solutions Act of 2007.FindingsUniversities are uniquely poised to play a role in not only climate change research, education, and community outreach, but also in the regional and national policy‐making arena. In the absence of federal legislation, states are paving the way to create binding US GHG reduction commitments – making crafting innovative and appropriate policy all the more important and meaningful at the state and regional levels.Practical implicationsThe paper discusses the multi‐prong approach UHM is taking in addressing the threats of climate change: from on‐campus GHG measurements and reductions to helping guide overarching state policy.Originality/valueIslands are particularly vulnerable to the effects of climate change. UHM has taken a comprehensive approach to addressing climate change, from forming strategic partnerships with the electric utility, to developing campus and state GHG reduction strategies, to helping mobilize planning for impacts like sea‐level rise. This paper presents the efforts of UHM, including faculty, student and administration‐led projects, specifically illustrating the role of Universities in meeting GHG reduction commitments through a "lead by example" approach at both the university and state levels.
In: Carbon and Climate Law Rev, Band 7(1), S. 34-42
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In: The international & comparative law quarterly: ICLQ, Band 72, Heft 1, S. 233-250
ISSN: 1471-6895
AbstractCourts and scholars have interpreted open-ended legal norms as imposing due diligence obligations on States and other entities to mitigate climate change. These obligations can be applied in two alternative ways: through holistic decisions, where courts determine the level of mitigation action required of defendants; or through atomistic decisions, where courts identify some of the measures that the defendant must take. This article shows that, whilst most holistic cases fail on jurisdictional grounds, atomistic cases frequently succeed. Overall, it is argued that atomistic litigation strategies provide more realistic and effective ways for plaintiffs to prompt enhanced mitigation action.
Agriculture, with its growing contribution to global greenhouse gas emissions and opportunities to mitigate emissions, can help close the gap between existing global mitigation efforts and those that are needed to keep global warming to between 1.5 °C and 2 °C by the end of the century. Global scale and farm scale analyses are used to evaluate both the effectiveness of different policy options to reduce agricultural emissions, and the impact on competitiveness, farm income, food security, and government finances. In order to contribute to global mitigation efforts, countries will need to design agricultural policy measures that can navigate these trade-offs within the context of their national policy priorities and objectives. As most countries have not yet implemented policies to reduce emissions from agriculture, the analyses provided here come at an opportune time to inform this policy development.
In: CAMA Working Paper No. 10/2018
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Working paper
In: Carbon & climate law review: CCLR, Band 11, Heft 3, S. 223-233
ISSN: 2190-8230
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