128 results
Search Results
2. Mapping and monitoring peatland conditions from global to field scale.
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Minasny, Budiman, Adetsu, Diana Vigah, Aitkenhead, Matt, Artz, Rebekka R. E., Baggaley, Nikki, Barthelmes, Alexandra, Beucher, Amélie, Caron, Jean, Conchedda, Giulia, Connolly, John, Deragon, Raphaël, Evans, Chris, Fadnes, Kjetil, Fiantis, Dian, Gagkas, Zisis, Gilet, Louis, Gimona, Alessandro, Glatzel, Stephan, Greve, Mogens H., and Habib, Wahaj
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PEATLANDS , *PEATLAND management , *SURFACE of the earth , *PEAT soils , *VEGETATION monitoring , *CARBON offsetting , *GREENHOUSE gases , *GEOLOGIC hot spots - Abstract
Peatlands cover only 3–4% of the Earth's surface, but they store nearly 30% of global soil carbon stock. This significant carbon store is under threat as peatlands continue to be degraded at alarming rates around the world. It has prompted countries worldwide to establish regulations to conserve and reduce emissions from this carbon rich ecosystem. For example, the EU has implemented new rules that mandate sustainable management of peatlands, critical to reaching the goal of carbon neutrality by 2050. However, a lack of information on the extent and condition of peatlands has hindered the development of national policies and restoration efforts. This paper reviews the current state of knowledge on mapping and monitoring peatlands from field sites to the globe and identifies areas where further research is needed. It presents an overview of the different methodologies used to map peatlands in nine countries, which vary in definition of peat soil and peatland, mapping coverage, and mapping detail. Whereas mapping peatlands across the world with only one approach is hardly possible, the paper highlights the need for more consistent approaches within regions having comparable peatland types and climates to inform their protection and urgent restoration. The review further summarises various approaches used for monitoring peatland conditions and functions. These include monitoring at the plot scale for degree of humification and stoichiometric ratio, and proximal sensing such as gamma radiometrics and electromagnetic induction at the field to landscape scale for mapping peat thickness and identifying hotspots for greenhouse gas (GHG) emissions. Remote sensing techniques with passive and active sensors at regional to national scale can help in monitoring subsidence rate, water table, peat moisture, landslides, and GHG emissions. Although the use of water table depth as a proxy for interannual GHG emissions from peatlands has been well established, there is no single remote sensing method or data product yet that has been verified beyond local or regional scales. Broader land-use change and fire monitoring at a global scale may further assist national GHG inventory reporting. Monitoring of peatland conditions to evaluate the success of individual restoration schemes still requires field work to assess local proxies combined with remote sensing and modeling. Long-term monitoring is necessary to draw valid conclusions on revegetation outcomes and associated GHG emissions in rewetted peatlands, as their dynamics are not fully understood at the site level. Monitoring vegetation development and hydrology of restored peatlands is needed as a proxy to assess the return of water and changes in nutrient cycling and biodiversity. [ABSTRACT FROM AUTHOR]
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- 2024
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3. Efficient Management of Material Resources in Low-Carbon Construction.
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Mykytyuk, Petro, Brych, Vasyl, Manzhula, Volodymyr, Borysiak, Olena, Sachenko, Anatoliy, Banasik, Arkadiusz, Kempa, Wojciech M., Mykytyuk, Yuliia, Czupryna-Nowak, Aleksandra, and Lebid, Iryna
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MATERIALS management , *CORPORATE profits , *CONSTRUCTION & demolition debris , *FINANCIAL statements , *GROSS margins , *CARBON offsetting , *ENVIRONMENTAL indicators - Abstract
The sustainable implementation of resources and the transition to low-carbon construction is on the world's daily agenda. This paper describes the development of criteria for the efficient management of material resources in low-carbon construction. Net income, gross profit, balance sheets, and equity are proposed as indicators that serve as criteria for assessing the efficient use of resources. Nonlinear regression models were the methodological basis for the establishment of cause-and-effect relationships of the volume of construction of transport structures. It was established that since construction companies do not purchase materials for storage, the cost of materials for use in low-carbon technological construction work is directly proportional to the cost of construction. The volume of production in the construction industry is determined by construction costs. More efficient use of low-carbon materials reduces cost and construction waste. In this paper, we have established the relationship between the indicator of efficiency for the functioning of the construction enterprises in Ukraine and the use of low-carbon materials for the construction of transport structures. The practical value of the obtained results for low-carbon construction management lies in proving the relationship between the performance indicators of the construction enterprise (net profit, gross profit, output volume, balance sheets, and equity capital) and the use of low-carbon material resources. Our results form the basis for future research into the use of a cost-based model for low-carbon economy transition in municipalities and regions. [ABSTRACT FROM AUTHOR]
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- 2024
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4. Integrating carbon sequestration and biodiversity impacts in forested ecosystems: Concepts, cases, and policies.
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Alam, Syed Ashraful, Kivinen, Sonja, Kujala, Heini, Tanhuanpää, Topi, and Forsius, Martin
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CARBON sequestration , *ENVIRONMENTAL degradation , *BIODIVERSITY , *CLIMATE change , *FORESTED wetlands , *CARBON offsetting , *ECOSYSTEMS - Abstract
The challenges posed by climate change, biodiversity loss, and land-use are deeply interconnected and integrated solutions are needed. This paper presents results from 11 contributions to a special issue covering topics of integrated modeling and spatial prioritization, mass-balance studies, Earth Observation techniques, research infrastructure developments, and evaluation of policy measures and economic compensation schemes. The spatial scale of the studies ranges from detailed site-specific to a European scale. This paper briefly summarizes the main findings of these studies, makes some general overall conclusions, and identifies topics for further research and methods developments. [ABSTRACT FROM AUTHOR]
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- 2023
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5. Blueprint for Blue Carbon: Lessons from Seychelles for Small Island States.
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Bennett, Michael, March, Antaya, Raguain, Jeremy, and Failler, Pierre
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SMALL states , *CLIMATE change mitigation , *SUSTAINABLE investing , *CLIMATE change , *CARBON sequestration , *CARBON offsetting , *COAST changes - Abstract
Blue carbon has been proposed as a nature-based solution for climate change mitigation; however, a limited number of published works and data and knowledge gaps hinder the development of small island developing states' (SIDS) national blue carbon resources globally. This paper reviews the blue carbon ecosystems of Seychelles as a case study in the context of SIDS, comparing estimations by the Blue Carbon Lab and recent blue carbon (mangrove and seagrass) evaluations submitted to the Seychelles national government. Mangroves (2195 ha, 80% in Aldabra Atoll) and seagrasses (142,065 ha) dominate in Seychelles, with coral reefs having the potential for carbon sequestration (169,000 ha). Seychelles is on track to protecting its blue carbon, but these systems are threatened by rising sea levels, coastal squeeze, erosion, severe storms, and human activities. The importance of carbon inventories, accounting institutions, and continuous monitoring of blue carbon systems is discussed. Blue accounting is necessary for accurate accounting of carbon sequestration and carbon storage, generating carbon credits, and representing impactful reductions in greenhouse gases for NDCs. Challenges and opportunities include policy legislation regarding ownership rights, accreditation and certification for carbon credits, sustainable financing mechanisms like natural asset companies and blue tokens, local engagement for long-term success, and carbon market dynamics following COP27. The restoration and regulation of blue carbon resources for optimal ecosystem services delivery, carbon inventories, and blue carbon policy are recommended development priorities. Blue carbon ecosystems have the potential to contribute to NDCs of SIDS while simultaneously offering sustainable development pathways for local communities through the multiple ecosystem services they provide. [ABSTRACT FROM AUTHOR]
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- 2024
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6. Evaluation of CO2 Emission and Local Flexibility by Water Pumping Scheduling in Water Distribution System.
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Sugimura, Shuhei, Tanabe, Takayuki, and Hayashi, Yasuhiro
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WATER pumps , *CARBON dioxide mitigation , *MIXED integer linear programming , *CARBON offsetting , *CARBON emissions , *WATER distribution - Abstract
In recent years, the amount of the photovoltaic (PV) system has been rapidly increasing from the viewpoint of carbon neutral. There are concerns about voltage rises and grid congestion in the electrical distribution network because of large‐scale PV increases. In order to address these issues, we focused on the control of water supply pumps in the water distribution system, which is infrastructure equipment for consumers. By controlling the start/stop of the water pump, it is expected to contribute to the power distribution system by increasing Demand Response (DR) and reduce CO2 emission from the electricity used by the pump. In this paper, with the aim of constructing an optimal operation planning method for water pumps that can evaluate DR and CO2 reduction effects, the optimal operation plan is formulated as a mixed integer linear programming problem. We numerical evaluated impact of water pump operation for CO2 emission and electrical distribution network. © 2023 The Authors. IEEJ Transactions on Electrical and Electronic Engineering published by Institute of Electrical Engineer of Japan and Wiley Periodicals LLC. [ABSTRACT FROM AUTHOR]
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- 2024
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7. Strategic Analysis of the Renewable Electricity Transition: Power to the World without Carbon Emissions?
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Thompson, Shirley
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CARBON emissions , *GREENHOUSE gases , *FOSSIL fuel subsidies , *SUSTAINABLE development , *RENEWABLE energy transition (Government policy) , *CARBON offsetting , *SOLAR energy - Abstract
This paper explores the role of electricity in the transition to renewable energy to mitigate climate change. A systematic literature review with the Scopus database identified 92 papers relevant to the renewable electricity transition. A PESTLE (Political, Economic, Sociological, Technological, Legal, and Environmental) review of the papers provided a multidisciplinary analysis. The Paris Agreement created a global movement for carbon neutrality to address the threats of climate change, calling for a transition to renewable electricity to lead the way and expand into new sectors and regions. Although smaller renewable technologies are ramping up, complexities thwarting the transition include locked-in assets, high upfront costs, variability of solar and wind energy, infrastructure, difficulty in decarbonizing transportation and industry, material resource constraints, and fossil fuel support. This research found that renewables are not replacing fossil fuels to date but adding further energy demands, so that greenhouse gas emissions rose in 2021 despite an increased renewable electricity share. Without a major shift in the trillions of dollars of subsidies and investment away from fossil fuels to renewables, catastrophic climate change is predicted. This paper found that the Paris Agreement's commitment to net-zero carbon and the transition to renewable electricity are undermined by record-high levels of subsidies and financing for fossil fuel industry expansion. Transitioning to a climate-neutral economy requires an investment away from fossil fuels into renewable energy ecosystems. Renewable electricity provides possibilities to realize sustainable development goals, climate stabilization, job creation, a green economy, and energy security with careful planning. [ABSTRACT FROM AUTHOR]
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- 2023
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8. Between vision and implementation: the exclusionary disjuncture of domestic heat decarbonisation in Greater Manchester.
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Crowther, Ami, Petrova, Saska, and Evans, James
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CARBON dioxide mitigation , *CARBON offsetting , *SHIFTING cultivation , *SEMI-structured interviews , *CLIMATE change - Abstract
Decarbonising heat is critical for achieving climate change targets and reducing CO2 emissions. The U.K. Government has outlined actions to support the decarbonisation of heat, emphasising the importance of a place-based approach and undertaking action at localised scales. This paper focuses on Greater Manchester, a city region in North West England, with a strategic vision of achieving carbon neutrality by 2038. To support the achievement of this vision, Local Area Energy Plans (LAEPs) have been developed for the city region's 10 local authorities with this providing a useful case study for understanding the challenges of implementing localised, place-based domestic heat decarbonisation actions. Drawing upon 34 semi-structured interviews with stakeholders associated with Greater Manchester's low-carbon agenda, this paper discusses the disjuncture between Greater Manchester's vision for domestic heat decarbonisation and the implementation of the actions outlined. Three sites have been identified where the disjuncture between the strategic vision and its implementation materialises. Each of these sites of disjuncture – priorities and needs, procurement, and shifting heating expectations and practices – are discussed in turn. The disjuncture present is shown to exclude certain members of society from engaging in decarbonisation practices, and acts as a barrier to the achievement of Greater Manchester's vision for domestic heat decarbonisation. This paper advances understandings on the barriers to achieving place-based decarbonisation visions, and furthers the conceptualisation of 'just transitions'. The identification of sites of disjuncture can be applied to other strategic visions and their implementation. [ABSTRACT FROM AUTHOR]
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- 2023
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9. Fairness evaluations of carbon neutrality targets in major countries based on the burden sharing model.
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YANG Lei, PAN Xunzhang, and CHEN Wenying
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GREENHOUSE gases , *CLIMATE change mitigation , *GREENHOUSE gas mitigation , *CARBON offsetting , *CARBON pricing , *CLIMATE change , *FAIRNESS ,DEVELOPING countries - Abstract
Assuming responsibility for emission reduction is an important part of participating in the global governance of climate change. Countries with a carbon neutrality target now cover about 75% of global greenhouse gas emissions. Carrying out fairness evaluations of their carbon neutrality targets provide a strong basis for the global carbon inventory. In this paper, the target years of carbon neutrality for major countries and regions under the global target of 2 °C and 1.5 °C are studied using the burden sharing model. On this basis, this paper simulates the possible pathways of carbon neutrality and evaluates the ambition of emission reduction targets in terms of annual emission reduction, per capita emission, and cumulative per capita emission. The results show that, from the perspective of equity, most of the developing countries cannot meet the global goal of 1.5 °C. The United States and the European Union nations could achieve carbon neutrality by 2050 by continuing their annual emission reductions under their existing NDC targets. However, to achieve carbon neutrality by 2060, China's annual emission reduction rate from 2030 to 2050 will be 6.7%, and the annual amount of emission reduction accounts for 51% of the global amount under the 1.5 °C target. Meanwhile, China would become the main force behind global cumulative emissions in the following decades. Thus, the emission reduction pathways China chooses will have an important impact on global climate mitigation progress. Based on the above research conclusions, this paper proposes that developed countries and developing countries should explore bilateral or multilateral cooperation in technology and finance in the field of climate change. Under the great pressure to achieve carbon neutrality, China needs to carry out research on the overall emission reduction pathways as soon as possible and clarify the paths at the scale of sectors, industries, provinces, and time stages. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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10. The global mismatch between equitable carbon dioxide removal liability and capacity.
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Yang, Pu, Mi, Zhifu, Wei, Yi-Ming, Hanssen, Steef V, Liu, Lan-Cui, Coffman, D'Maris, Sun, Xinlu, Liao, Hua, Yao, Yun-Fei, Kang, Jia-Ning, Wang, Peng-Tao, and Davis, Steven J
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CARBON dioxide , *CARBON offsetting , *CARBON credits , *COUNTRIES , *LEAD , *CLIMATE change - Abstract
Limiting climate change to 1.5°C and achieving net-zero emissions would entail substantial carbon dioxide removal (CDR) from the atmosphere by the mid-century, but how much CDR is needed at country level over time is unclear. The purpose of this paper is to provide a detailed description of when and how much CDR is required at country level in order to achieve 1.5°C and how much CDR countries can carry out domestically. We allocate global CDR pathways among 170 countries according to 6 equity principles and assess these allocations with respect to countries' biophysical and geophysical capacity to deploy CDR. Allocating global CDR to countries based on these principles suggests that CDR will, on average, represent ∼4% of nations' total emissions in 2030, rising to ∼17% in 2040. Moreover, equitable allocations of CDR, in many cases, exceed implied land and carbon storage capacities. We estimate ∼15% of countries (25) would have insufficient land to contribute an equitable share of global CDR, and ∼40% of countries (71) would have insufficient geological storage capacity. Unless more diverse CDR technologies are developed, the mismatch between CDR liabilities and land-based CDR capacities will lead to global demand for six GtCO2 carbon credits from 2020 to 2050. This demonstrates an imperative demand for international carbon trading of CDR. [ABSTRACT FROM AUTHOR]
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- 2023
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11. The nexus between moral licensing and behavioral consistency: Is organic consumption a door-opener for commitment to climate protection?
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Bauer, Andreas and Menrad, Klaus
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CLIMATE change , *CARBON offsetting , *NATURAL resources , *ENVIRONMENTAL mapping , *HEALTH outcome assessment - Abstract
Organic consumption and the commitment to climate protection via carbon offsetting are important for the protection of global natural resources. This paper analyzes the relationship between these behaviors and examines factors that explain behavioral (in) consistency across these behavioral fields. Thereby, we examine the influence of priming by an "organic offer" on subsequent monetary donations via carbon offsetting. Here, for the first time, we investigate the interaction between priming, ethical mindsets (rule-based or outcome-based mindsets), environmental values and moral identity. The study is based on a laboratory experiment with students which was conducted in December 2017 (n = 226). The main results show that the three-way interaction between priming by an "organic offer," rule-based mindsets and environmental values is associated with a higher likelihood for actual carbon offsetting. Furthermore, the findings indicate that moral identity neither interact with rule-based nor with outcome-based mindsets. However, an interaction between priming by an "organic offer" and outcome-based mindsets leads to a lower likelihood for carbon offsetting, which speaks for moral licensing effects. [ABSTRACT FROM AUTHOR]
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- 2023
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12. Urban Strategies for Mitigation or Adaptation to Climate Change: What Criteria for Choice?
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CÖMERT BAECHLER, Nazan
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CLIMATE change , *DECISION making , *URBAN planning , *ENERGY consumption , *CARBON offsetting - Abstract
Strategies to combat climate change may be based on mitigation of the phenomenon or on adaptation to its consequences. This paper aims to identify the driving factors of the choice between these two categories of strategies in the context of urban climate plans. The fight against climate change being characterized by a logic of free riding, the situation tilts the balance towards adaptation strategies in an urban context, to the detriment of mitigation. This hypothesis is tested here through a review of the existing literature on urban climate strategies. This study shows that, counterintuitively, mitigation prevails over adaptation in urban climate strategies up to now. This paper explores the explanations for this seemingly paradoxical situation. We argue that a big part of the explanation has to do with the institutional context of urban climate strategies, specifically the decision-making capacities of municipalities, or the fact that they take part in international networks promoting mitigation over adaptation. Other explanations rely on the cost/benefit impact of adopting mitigation or adaptation, like the collateral local/private benefits of urban climate strategies that are often bigger with mitigation than adaptation. Another finding is that there is no systematic planning making it compulsory to choose between mitigation and adaptation strategies, as they are in some instances complementary, providing co-benefits. [ABSTRACT FROM AUTHOR]
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- 2023
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13. Nexus of financial decentralization and institutional resource consumption efficiency for a carbon neutral society: Policy implication of China.
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Zheng, Shixin and Wang, Ziren
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CARBON offsetting , *ENVIRONMENTAL protection , *POLLUTION , *DECENTRALIZATION in government , *INDUSTRIAL efficiency , *ECOLOGICAL risk assessment , *CARBON pricing - Abstract
The Chinese government's use of fiscal policy, which includes fiscal income and spending, is crucial in its fight against environmental pollution and climate change. Innovation‐driven has arisen as a new alternative to reconcile economic success with environmental conservation in light of tighter resource restrictions and the suggestion of the Chinese High‐quality Development policy. The paper uses an econometric model to examine the connection between institutional resource consumption efficiency and carbon neutrality, using a data set consisting of Chinese inter‐provincial panel data from 2007 to 2020 as a research sample; fiscal decentralization is also discussed as a potential moderating factor. Collaborative innovation positively boosts ecological efficiency and produces geographical spillovers, and the findings suggest so long as the economic distance is considered. When it comes to increasing ecological efficiency, collaborative innovation plays a more important role than financial decentralization alone. Among these is the improvement of carbon neutrality, which is best achieved via the joint promotion of ecological efficiency and industrial organizations. By reducing the intensity of the positive effect of innovative cooperation on ecological efficiency, the moderating effect suggests that fiscal decentralization is a critical factor in this relationship. Promoting China's ecological efficiency necessitates a fair distribution of local budgetary spending. China should also actively encourage the degree of synergy between institutional resource consumption efficiency and associated institutions to improve eco‐efficiency. [ABSTRACT FROM AUTHOR]
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- 2023
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14. 大国气候博弈的中国经济与生态环境效应评估.
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董康银, 王建达, 张伟玉, and 董秀成
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COMPUTABLE general equilibrium models , *INTERNATIONAL cooperation on climate change , *FISCAL policy , *TARIFF , *CARBON offsetting , *CLIMATE change ,UNITED States economy ,DEVELOPING countries - Abstract
Climate change has become a critical issue for ensuring the sustainable development of human society. In the future, countries with greater potential for carbon reduction and advanced carbon technologies will enjoy a more favorable position in global development. The struggle for leadership and influence in the global climate change arena will intensify between developed countries such as the United States and those in Europe, the main promoter of climate change policies, and developing countries such as China. The Chinese government' s climate strategies, including goals of reaching peak carbon emissions and achieving carbon neutrality, are currently focused on finding ways to break the impasse in this climate game between major powers. Carbon tariff policies promoted by Europe and the United States have emerged as a powerful tool in this game. This paper employs a global multi-regional computable general equilibrium model to assess the economic and ecological impacts of the post-carbon tariff era on China. We consider eight possible scenarios based on the assumption that the European Union and the United States will impose carbon tariffs on imported products to meet global carbon reduction targets. The study finds that: ① The carbon tariff policies implemented by the United States and Europe have significant adverse effects on China' s GDP and welfare. Furthermore, these policies have a considerable detrimental impact on exports that are highly carbon-intensive, while their overall effectiveness in reducing carbon emissions remains limited. ② The carbon border tax policy, as applied by developed economies such as the United States and the European Union, does not have a clear effect on reducing carbon emissions and is a typical example of a 'harmful to others, unhelpful to oneself' behavior. ③ The Export Tax Rebate policy of China can to some extent alleviate the adverse impacts of the European and the United States Carbon Border Tax policies on the Chinese economy, while also potentially reducing China' s carbon emissions. ④ The Chinese government needs to be cautious in responding to the retaliatory measures of imposing carbon border taxes on Chinese imports, as they could cause more severe economic losses to China. The article proposes that China should take proactive measures to mitigate the negative impacts of carbon tariffs by implementing an export tax rebate policy. It also suggests guiding carbon-intensive export-oriented enterprises to proactively develop emission reduction plans and carbon footprint inventories, as well as enhancing clean energy technologies. In addition, China should actively achieve its 'dual carbon' goals, thereby avoiding economic suppression by developed economies such as Europe and the United States, who may use carbon tariffs as an excuse. The country should increase its R&D investment to improve its green image, while strengthening international cooperation on climate change governance and seeking a fair and just path towards reducing emissions. [ABSTRACT FROM AUTHOR]
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- 2023
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15. Survey on the Policy Evolution of China's Marine Carbon Sink and Carbon Trading Market.
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Jinghui YANG
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CARBON cycle , *CARBON offsetting , *GREENHOUSE gas mitigation , *SUSTAINABLE development , *ENERGY conservation , *CLIMATE change ,DEVELOPING countries - Abstract
Climate change is currently the biggest environmental challenge facing sustainable development in human society, and it is an inherent requirement for achieving sustainable development by actively addressing climate change. Under the increasingly strict constraints of climate governance, developed countries such as the United States, European Union countries, and Japan have responded and actively formulated low-carbon development goals and policy measures that are in line with their national conditions. These policies mainly involve various fields such as low-carbon technology, energy conservation and emission reduction, and circular development, with clear policy guidance. In this paper, the evolution of policies on marine carbon sink and carbon trading in China is summarized, providing support for better understanding the background of formulating relevant international and domestic policies. [ABSTRACT FROM AUTHOR]
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- 2023
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16. U.S.-China coordination on carbon neutrality: an analytical framework.
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Dai, Fan, Kahrl, Fredrich, Gordon, Jessica A., Perron, Jennifer, Chen, Zhinan, Liu, Zhu, Yu, Ying, Zhu, Biqing, Xie, Yingxin, Yuan, Ye, Hu, Yifan, and Wu, Yulun
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CARBON offsetting , *CLIMATE change ,CHINA-United States relations ,PARIS Agreement (2016) - Abstract
The United States (U.S.) and China are key to meeting the goals of the Paris Agreement and reaching carbon neutrality by around mid-century. Despite differences, carbon neutrality will be met more rapidly if the two countries coordinate and facilitate synergies in carbon-neutral technologies and policy development and implementation. Building on long-term pathway models in the U.S. and China, current emissions trends and sources, and a policy analysis, this paper puts forward a novel framework for U.S.-China coordination on carbon neutrality. The analysis reveals similar technology and policy pathways, policy gaps, and shared milestones for decarbonization in 2030, 2040, and 2050-2060. The main technological pathways focus on reductions in energy demand and non-energy-related CO2 emissions, decarbonization of electricity and fuels, and increases in electrification rates and CO2 sequestration. Given existing domestic policies and opportunities for further action, areas for coordination on carbon neutrality include common policy milestones; dialogue and technical exchange; research, development, and demonstration (RD&D); and international climate leadership. Despite escalated tensions between the U.S. and China, and challenges for climate cooperation, coordination between both countries on carbon neutrality is both possible and necessary. Carbon neutrality will be met more swiftly if the U.S. and China coordinate and facilitate synergies in carbon-neutral technologies and policy. Despite the rise in geo-political tensions between the U.S. and China, coordination on carbon neutrality is both possible and necessary. An analytical framework for U.S.-China coordination on carbon neutrality, includes technology and policy pathways, and common milestones of key sectors' decarbonization for 2030, 2040, and 2050-2050. The two countries could coordinate on common policy milestones, dialogue and technical exchange, research and development, and international climate leadership. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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17. Influence Mechanisms of Dynamic Changes in Temperature, Precipitation, Sunshine Duration and Active Accumulated Temperature on Soybean Resources: A Case Study of Hulunbuir, China, from 1951 to 2019.
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Ning, Xuanwei, Dong, Peipei, Wu, Chengliang, Wang, Yongliang, and Zhang, Yang
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RENEWABLE energy transition (Government policy) , *PEARSON correlation (Statistics) , *CARBON offsetting , *ENERGY development , *CLEAN energy , *SOYBEAN - Abstract
As a raw material for clean energy supply for the new generation, the soybean is conducive to the realization of global energy transition and sustainable development in the context of "carbon neutrality". However, global warming has been affecting soybean yields in recent years. How to clarify the correlation between meteorological factors and soybean yields, so as to ensure the security of soybean growth and development and the stability of renewable energy development, is a key concern of the government and academia. Based on the data of temperature, precipitation, sunshine duration and active accumulated temperature during the soybean growing season in Hulunbuir, Inner Mongolia Autonomous Region from 1951 to 2019, and soybean yield data of the city from 1985 to 2019, this paper adopted statistical methods such as the Trend Analysis Method, the Rescaled Range Analysis Method and so on to analyze the trends of yield changes, characteristics of abrupt changes and periodic patterns of climate factors and soybean yields in Hulunbuir. A Pearson Correlation Analysis and a Grey Relation Analysis were used to explore the correlation between climatic factors and soybean yields, followed by a comprehensive impact model of the combined effect of temperature and precipitation on soybean yields established by the Method of Integral Regression. The results showed that temperature and active accumulated temperature are the dominant factors affecting soybean yields in Hulunbuir, while the decrease in precipitation is unfavorable to the improvement of soybean yields. Meanwhile, temperature and precipitation have different effects on the growth and development of the soybean at different stages. The conclusion of this paper is of great practical significance for Hulunbuir to promote the sustainable development of clean energy. [ABSTRACT FROM AUTHOR]
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- 2022
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18. Evolutionary characteristics and driving factors of carbon emission performance at the city level in China.
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Wang, Shaojian, Wang, Zehong, and Fang, Chuanglin
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CARBON emissions , *CARBON dioxide mitigation , *CLIMATE change , *CARBON offsetting , *FULLERENES , *CARBON cycle - Abstract
To achieve carbon peak targets, realize carbon neutrality vision, and tackle global climate change, China must improve the carbon emission performance at the city level. Based on the carbon emission performance of 191 prefecture-level cities in China from 1997 to 2017, this paper analyses the evolution characteristics of urban carbon emission performance from three aspects: the overall spatial and temporal evolution, the differences according to both region and city size, and the differences among clusters categorized by carbon emission performance at the city level. This paper also reveals the impact of the social and economic transition on China's carbon emission performance. The results show that: (1) The overall level of carbon emission performance of Chinese cities is low, and there is a downward trend during the study period. The differences in carbon emission performance among cities are convergent, but there is a wide gap between high and low values. (2) The carbon emission performance of cities in eastern coastal areas is higher than that in non-coastal areas cities. Large urban agglomerations and economically developed regions, such as provincial capitals, are the agglomeration areas of high urban carbon emission performance values. (3) The carbon emission performance level of cities with similar sizes will converge. At the same time, such changes will enhance the differences among carbon emission performances at the city level within the same region. (4) Cities that belong to high urban carbon emission performance clusters are mainly distributed in the eastern region. Such cities are classified into large cities, supercities, and megacities. Compared with low urban carbon emission performance clusters, cities in high urban carbon emission performance clusters show a higher proportion in the medium-high level and high level of carbon emission performance. Moreover, cities in high urban carbon emission performance clusters are more likely to improve theirurban carbon emission performance. (5) The economic agglomeration effect, industrial structure adjustment and carbon intensity reduction have a significant impact on improving urban carbon emission performance. Population agglomeration has an incremental effect, and the anticipated benefits of environmental regulation have yet to be fully realized. The impacts of different clusters and different regions are variable. Finally, this paper advances policy enlightenment according to its research findings. [ABSTRACT FROM AUTHOR]
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- 2022
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19. Insights into the role of S-Ti-O bond in Titanium-Based catalyst for photocatalytic CH4 reforming: Experimental and DFT exploration.
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Huang, Yufei, Xiong, Jia, Li, Ziyi, Mao, Yu, Huang, Yangqiang, Liang, Zhiwu, Luo, Xiao, and Waterhouse, Geoffrey I.N.
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STEAM reforming , *STRUCTURE-activity relationships , *METHANE , *CLIMATE change , *NONMETALS , *CARBON offsetting , *CATALYST supports - Abstract
[Display omitted] • This paper proposes the concept of room-temperature solar-powered CH 4 reforming. • The non-metallic element (Br, N and S) doped TiO 2 is prepared. • The doped catalysts X-TiO 2 were used in photocatalytic methane reforming. • The structure–activity relationship was studied by density functional theory. • Based on isotope tracer results, a possible photocatalytic mechanism was proposed. • The catalytic performance of S-TiO 2 is 22–65 times that of bulk TiO 2 catalyst. • The possible catalytic mechanism was verified by in situ infrared characterization. Given the increasingly severe climate and energy crises, this paper proposes the concept of "room-temperature solar-powered CH 4 reforming", intended to achieve carbon emission reduction and efficiently use carbon-containing resources. However, traditional semiconductors as catalysts have some problems, such as few catalytic active sites and fast recombination of photogenerated electrons and holes, resulting in low efficiency of photocatalytic CH 4 reforming. For this reason, a series of doped catalysts X-TiO 2 (X = Br, N, and S) are prepared by introducing nonmetallic elements into the TiO 2 lattice to construct oxygen defects. Notably, the CO yield of the S-TiO 2 catalyst was 1048 μ mol g−1, 65 times higher than the catalytic performance of bulk TiO 2. Based on the functional density theory (DFT) calculation, the interaction between the S active site and the performance of photocatalytic CH 4 reforming with oxygen defects is discussed in detail. The synergistic effect of the S site and the oxygen defect has been shown to rapidly activate C = O and C-H bonds at room temperature. Finally, based on the tracer experiment and DFT calculation, a possible mechanism of photocatalytic CH 4 reforming at room temperature is proposed. This work provides a new research direction for achieving carbon neutrality at room temperature and a feasible technical scheme for the large-scale application of photocatalysts. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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20. Biomass valorization toward sustainable asphalt pavements: Progress and prospects.
- Author
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He, Liang, Tao, Mengzhe, Liu, Zhuang, Cao, Zhi, Zhu, Jiqing, Gao, Jie, bergh, Wim Van den, Chailleux, Emmanuel, Huang, Yue, Vasconcelos, Kamilla, Cannone Falchetto, Augusto, Balieu, Romain, Grenfell, James, Wilson, Douglas J., Valentin, Jan, Kowalski, Karol J., Rzek, Lidija, Gaspar, Laszlo, Ling, Tianqing, and Ma, Yu
- Subjects
- *
ASPHALT pavements , *ASPHALT , *CRUMB rubber , *FATIGUE limit , *ASPHALT modifiers , *BIOMASS , *CLIMATE change , *CARBON offsetting - Abstract
• Pavement biomass materials are divided into bio-oil, bio-fiber, bio-filler. • Pavement biomass materials from source to application were reviewed. • Composite modification can increase the content and utilization of bio-oil. • The latest performance research results of road biomass materials were compared. T o cope with the global climate crisis and assist in achieving the carbon neutrality, the use of biomass materials to fully or partially replace petroleum-based products and unrenewable resources is expected to become a widespread solution. Based on the analysis of the existing literature, this paper firstly classified biomass materials with potential application prospects in pavement engineering according to their application and summarized their respective preparation methods and characteristics. The pavement performance of asphalt mixtures with biomass materials was analyzed and summarized, and the economic and environmental benefits of bio-asphalt binder were evaluated. The analysis shows that pavement biomass materials with potential for practical application can be divided into three categories: bio-oil, bio-fiber, and bio-filler. Adding bio-oil to modify or extend the virgin asphalt binder can mostly improve the low temperature performance of asphalt binder. Adding styrene-butadienestyrene (SBS) or other preferable bio-components for composite modification will have a further improved effect. Most of the asphalt mixtures prepared by using bio-oil modified asphalt binders have improved the low temperature crack resistance and fatigue resistance of asphalt mixtures, but the high temperature stability and moisture resistance may decrease. As a rejuvenator, most bio-oils can restore the high and low temperature performance of aged asphalt and recycled asphalt mixture, and improve fatigue resistance. Adding bio-fiber could significantly improve the high temperature stability, low temperature crack resistance and moisture resistance of asphalt mixtures. Biochar as a bio-filler can slow down the asphalt aging process and some other bio-fillers can improve the high temperature stability and fatigue resistance of asphalt binders. Through calculation, it is found that the cost performance of bio-asphalt has the ability to surpass conventional asphalt and has economic benefits. The use of biomass materials for pavements not only reduces pollutants, but also reduces the dependence on petroleum-based products. It has significant environmental benefits and development potential. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
21. Understanding the Nature and Rationale of Carbon Neutrality.
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PAN, Jiahua and SUN, Tianhong
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CARBON offsetting , *CARBON sequestration , *CAPITAL investments , *FOSSIL fuel industries , *SUSTAINABILITY - Abstract
To achieve carbon neutrality, it is necessary to grasp the essence of carbon neutrality. This paper looks into a few fundamental issues of carbon neutrality, and provides an in-depth analysis from the perspectives of environmental sustainability, technological innovation, economic viability, energy security, and international cooperation. It is shown that efforts for carbon neutrality need to focus on the key carbon dioxide (CO2) emissions from fossil fuel combustion. Fossil energy is considered to play a role as a short-term "ballast stone", but its attributes decide that it can hardly lead to a sustainable future, and its phasing-out is inevitable. Disruptive zero-carbon energy production and revolutionary technological innovation in its consumption are accelerating that phasing-out process; the zero-carbon-oriented carbon neutrality goal is growing more resilient to market headwinds and releasing momentum for high-quality development. Carbon capture and carbon sinks are indispensable, but they are unable to provide a satisfactory path to carbon neutrality. Carbon neutrality requires substantial capital investment, which can be provided by zero-carbon products with ever-increasing market competitiveness. Investment in high carbon fossil fuel industry can be risky. High carbon lock-in not only increases the difficulty of carbon neutrality, but also intensifies the risk of energy security, and it is difficult to avoid the risk of market crowding-out, resulting in huge amounts of capital waste. Consequently, decarbonization is the trend of the times, giving an edge on seeking international justice and a louder voice in the international community, and also the focus of market competitiveness. However, the target year for carbon neutrality in China is before 2060, indicating that carbon neutrality is not a short-term goal. Therefore, it is impossible and unnecessary to have it realized overnight. The opportunity of carbon neutrality should be well taken for quality growth of the economy and enhancement of people's well-being. Carbon neutrality is a long-term process which calls for thorough plans and step-by-step actions. It is also evident that along with energy revolution, carbon neutrality also brings revolutionary transformation of relations of production and development paradigm. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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22. Dynamic Prediction and Driving Factors of Carbon Emission in Beijing, China, under Carbon Neutrality Targets.
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Li, Yunyan, Dai, Jian, Zhang, Shuo, and Cui, Hua
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- *
CARBON emissions , *CARBON offsetting , *ENERGY intensity (Economics) , *SUSTAINABLE development , *CLIMATE change , *CITY dwellers - Abstract
China has made remarkable achievements in reducing carbon emissions in recent years. However, there is still much reduction room before achieving carbon neutrality. In Beijing, the capital of China, it is a strategic choice to respond to global climate change by promoting green and low-carbon development. This paper calculates the carbon dioxide emissions of key industries in Beijing and analyzes the temporal evolution trend of carbon emissions. Carbon dioxide emissions in Beijing before 2030 are predicted based on the grey prediction GM (1,1) and BP neural network model. The effects of factors of carbon dioxide emissions are discussed using the threshold regression model under different economic conditions. The results show that energy consumption intensity, GDP per capita, and the ownership of civil cars have a positive impact on carbon dioxide emissions, while the number of permanent residents and urban green space areas have a negative impact on carbon dioxide emissions. These findings of carbon emission prediction and influencing factors contribute to carbon reduction path design. Related policy implications on carbon emission reduction are put forward from the aspects of promoting industrial upgrading, accelerating the construction of advanced economic structures, optimizing transportation structures, and strengthening green building development. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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23. Karst carbon sink processes and effects: A review.
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Chen, Lvfan, Tan, Liangcheng, Zhao, Min, Sinha, Ashish, Wang, Tianli, and Gao, Yongli
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KARST , *CARBON cycle , *CARBON offsetting , *BIOLOGICAL interfaces , *CLIMATE change , *SUSTAINABLE development - Abstract
On shorter time scales, the karst carbon cycle coupled with photosynthesis, is a potential carbon sink. The surface water biological carbon pump (BCP) plays an important role by transforming dissolved inorganic carbon (DIC) to organic carbon (OC), forming a stable carbon sink through a series of biogeochemical processes on shorter timescales (i.e., years to thousands of years). A comprehensive understanding of the karst carbon sink (KCS) is important in understanding its role in the global carbon budget and carbon neutrality. In this paper, we review the current progress and prospect future research of KCS. The world is facing a quick change in climate and rapid variation in land-use, so the interaction mechanism between the above two and KCS needs to be further understood. Manual intervention to increase KCS also deserves attention. Meanwhile, due to the complexity of the karst system and karst carbon cycle, a comprehensive (water, rock, soil, atmosphere, biology) karst carbon cycle monitoring system needs to be established, integrating different types of carbon sink (e.g., soil, forest, karst) under a research framework. An in-depth understanding of these aspects will help KCS better serve the sustainable development of human society. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
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24. Paying for ecological services in Ecuador: The political economy of structural inequality.
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McBurney, Matthew, Tuaza, Luis Alberto, and Johnson, Craig
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INDIGENOUS peoples of South America , *CLIMATE change mitigation , *CARBON offsetting , *CARBON sequestration , *LANDFORMS , *LAND tenure , *NATURE reserves , *TRADITIONAL knowledge , *TRADITIONAL ecological knowledge - Abstract
Paying Indigenous communities to conserve land for carbon sequestration is a controversial way of tackling climate change. Critics argue that paying for ecological services (or 'PES') in the form of carbon offset programmes reduces land and social relations to an economic transaction that devalues Indigenous livelihoods and communities. At the same time, empirical studies have shown that Indigenous communities have accepted and even embraced the idea of being paid to conserve land for climate change mitigation. This paper explores this apparent contradiction by investigating the implementation of Programa Socio Bosque (PSB), a PES carbon sequestration programme in Ecuador. Drawing upon primary fieldwork in the highland province of Chimborazo, it makes the case that PES programmes need to be understood as form of state power that reconfigures and reinforces the ways in which Indigenous peoples engage with the state. Particularly important in this regard is the role of the state in reinforcing the agrarian conditions under which Indigenous communities use and interpret PES payments while at the same time reconfiguring new forms of land conservation. Empirically, the research reveals important complementarities between the goals of carbon sequestration PES programmes and Indigenous land‐use practices. Methodologically, it highlights the importance of situating the study of PES programmes in a context of land struggles, community–state relations and agrarian change. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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25. The EU Emissions Trading System in Crisis-Ridden Greece: Climate under Neoliberalism.
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Vlachou, Andriana and Pantelias, Georgios
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EMISSIONS trading , *CARBON offsetting , *NEOLIBERALISM , *TRANSITION economies , *PAPER arts - Abstract
Neoliberal capitalism has extended the use of markets to address climate and energy issues. Carbon trading characteristically exemplifies the neoliberalization of climate policy. This paper discusses the workings of the European Union's Emissions Trading System (EU ETS) in the European Union (EU) with a focus on its application in crisis-ridden Greece. Beyond environmental effectiveness and distributional effects, the paper explores the interactions of the EU ETS with crisis, austerity programs, energy poverty, and uneven development. Despite adjustments and changes, the EU ETS continues to indicate limited environmental effectiveness and unjust distributional effects. Moreover, by forging a centralized neoliberal transition to a low-carbon economy without consideration of the issues faced by unevenly developed and crisis-stricken EU members such as Greece, the EU ETS leads to additional disturbances and problems for the Greek economy as a whole, its pauperized working people, and its energy and climate options to reduce emissions on its own potential, needs, and priorities. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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26. Decarbonization Prospects in the Commonwealth of Independent States.
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Proskuryakova, Liliana and Ermolenko, Georgy
- Subjects
- *
EMISSIONS (Air pollution) , *CARBON dioxide mitigation , *SCIENTIFIC literature , *NUCLEAR energy , *ENERGY consumption , *CARBON offsetting ,PARIS Agreement (2016) - Abstract
The paper discusses existing trends and prospects for decarbonization in the Commonwealth of Independent States (the CIS), an international organization that regroups Armenia, Azerbaijan, Belarus, Kazakhstan, Kyrgyzstan, Moldova, Russia, Tajikistan, Turkmenistan, and Uzbekistan. The CIS occupies a significant share of Eurasia, representing a large share of global energy consumption and production with a corresponding carbon footprint. These countries and their decarbonization prospects are rarely discussed in the English-language scientific literature. This paper fills in this gap by offering a comprehensive analysis based on statistical data, policy documents, and scenario-based future projections. The results underline that revisiting Nationally Determined Contributions, increasing energy efficiency, and decoupling GDP growth from greenhouse gas emissions are essential to the implementation of the Paris Agreement. The future energy mix should include larger shares of renewable energy, hydrogen, fossil fuels (highly efficient with carbon capture), and nuclear energy to achieve energy security and decarbonize the economy of the region in the long term. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
27. A better understanding of the role of new energy and green finance to help achieve carbon neutrality goals, with special reference to China.
- Author
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Feng Kong
- Subjects
- *
CARBON offsetting , *ENERGY consumption , *CLEAN energy , *INDUSTRIAL energy consumption , *SUSTAINABLE development , *CLIMATE change , *FINANCIAL policy - Abstract
Carbon neutrality is an important policy in the current global response to climate change and has been widely recognized by various industries. In the process of promoting carbon neutrality, new energy plays a pivotal role. In this study, the definition and connotation of new energy and its role and specific operation in the energy transition of carbon neutrality are firstly explained. Promoting new energy development requires significant green and low-carbon investments. Taking China as an example, this paper analyzes the opportunities brought by the carbon neutral process to the field of green finance and analyzes the main features and development trends of green finance in China at present. Then this paper proposes policy recommendations to strengthen the development of green finance in China in terms of improving the green financial policy system, enhancing the supply capacity of green financial services, and optimizing the supporting environment for green financial development. Finally, this paper analyzes the measures and experiences of the United States in promoting low-carbon development and proposes countermeasures for China's low-carbon development on the basis of the five major relationships that need attention in China's carbon-neutral process. That is, strengthen the top-level design and improve the regulatory policy system; optimize the energy structure and increase the proportion of clean energy; optimize the industrial structure and reduce energy consumption in key industries; build a complete low-carbon technology system and promote low-carbon technology research and development and demonstration applications, and encourage local conditions to explore low-carbon development paths. The development of green finance can contribute to the advancement of new energy technologies, thus contributing to the achievement of carbon neutrality goals. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
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28. Climate Change, Energy Transition, and Constitutional Identity.
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Maloy, J S
- Subjects
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CLIMATE change , *RENEWABLE energy transition (Government policy) , *SOCIAL unrest , *CARBON offsetting , *DEMOCRATIZATION - Abstract
Through its potential to contribute to mass suffering, economic disruption, and social unrest, climate change poses a security threat to the constitutional identities of states (as democratic, autocratic, or hybrid regimes). This paper proposes a conceptual framework of mediated causality for climatic impacts on constitutional identity and engages in novel theory-building for one mediating vector of change: the post-fossil energy transition. Theories of the "oil curse" and of "carbon democracy" are compared and critiqued for their contributions to understanding the potential impacts of decarbonized energy systems on democracy. Two counterintuitive conclusions emerge. First, transitioning away from petroleum may not result in increased democratization, as the oil curse implies. Second, post-fossil energy systems are unlikely to become structurally decentralized, as advocates of "energy democracy" suppose, and may even need to remain centralized in order for popular mobilization around energy to help maintain or reinvigorate democratic rights. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
29. From liquid waste to mineral fertilizer: Recovery, recycle and reuse of high-value macro-nutrients from landfill leachate to contribute to circular economy, food security, and carbon neutrality.
- Author
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Kurniawan, Tonni Agustiono, Othman, Mohd Hafiz Dzarfan, Liang, Xue, Goh, Hui Hwang, and Chew, Kit Wayne
- Subjects
- *
LIQUID waste , *MINE waste , *WASTE recycling , *CIRCULAR economy , *CARBON offsetting , *LANDFILL management - Abstract
As nutrients shortage that will occur by the next decade could limit global fertilizer production, there are growing needs to recover macro-nutrients such as P and N from landfill leachate, which its generation and treatment have become global environmental issues. This work critically reviews the applicability and the performance of physico-chemical treatments for nutrient recovery from landfill leachate. This article also identifies recent progress and bottlenecks of nutrient recovery from landfill leachate, while providing an overview of how to apply a circular economy paradigm in the nexus of water–food–energy. Due to their ability to recover P and N from landfill leachate, specific attention is given to struvite precipitation, adsorption, and ammonium stripping. Their technological strengths and bottlenecks of each technique are evaluated based on a literature survey of 145 papers (1981–2022). By integrating anaerobic digestion and other nutrient recovery technologies, it is possible for water utilities to provide both renewable energy and nutrients, while contributing to a circular economy, global food security, and carbon neutrality. To attain a sustainable landfill management, the selection of appropriate technology for nutrient recovery from the liquid waste needs to consider the properties of waste stream, recovery performance, discharge standard, impacts, and cost-effectiveness. Overall, this work has consolidated new knowledge between technological development and demand-driven valorization. [Display omitted] • One ton of landfilled waste generates about 0.2 m3 of landfill leachate. • One ton of landfilled solid waste generates about 125 m3 of greenhouse gas (GHG). • GHG consists of 71% of CH 4 and 24% of CO 2. • Phosphorus (P) and nitrogen (N) are identified as nutrients fertilizers. • Struvite precipitation and ammonium stripping are widely used for nutrient recovery. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
30. 欧盟及英国能源与气候政策及启示.
- Author
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张乾志, 王文涛, and 陈文颖
- Subjects
- *
CARBON sequestration , *ENERGY development , *CARBON emissions , *ENERGY consumption , *HYDROGEN as fuel , *CARBON offsetting , *WIND power , *ATMOSPHERIC methane ,DEVELOPING countries - Abstract
To achieve the goal of 'Net-zero Europe' by 2050, the European Union (EU) has set up detailed policies in the fields of energy and climate. This paper summarizes the main characteristics of relevant policies in the EU and UK and their implications for China by reviewing these policies in the achievement of the carbon neutrality goal and other goals in the energy and climate fields. The characteristics of these energy and climate policies include: ① Top-down and bottom-up approaches are adopted to distribute the EU' s overall emission reduction targets to member states in accordance with the principle of fairness, and each member state formulates and adjusts its own goals to ensure the realization of the overall goals. ② Detailed transition plans are formulated for the power, industry, transportation, and building sectors; importance is attached to the application of new and renewable energy technologies such as solar, wind, and hydrogen energy; specific goals are set concerning coal power transition, nuclear energy development, energy efficiency improvement, carbon capture and storage, electrification, and building renovations; and the importance of energy security in transition planning is stressed. ③ A sound and mature emissions trading system and a fair transition mechanism are established to support the realization of the transition goals, and developing countries are helped to reduce emissions through technical dialogues and climate financing. To reach peak carbon emissions and achieve carbon neutrality, China should develop relevant roadmaps at national, sectoral, and provincial levels and strengthen R&D of key decarbonization technologies. At the same time, China should enhance its regulatory regime, and improve the carbon emissions trading system, the green financial system, and the just transition mechanism. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
31. Early Warning of the Carbon-Neutral Pressure Caused by Urban Agglomeration Growth: Evidence from an Urban Network-Based Cellular Automata Model in the Greater Bay Area.
- Author
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He, Sanwei, Ma, Shifa, Zhang, Bin, Li, Guangdong, and Yang, Zhenjie
- Subjects
- *
URBAN growth , *CELLULAR automata , *ECONOMIES of agglomeration , *CARBON offsetting , *CARBON emissions , *CLIMATE change - Abstract
Carbon neutrality is becoming an important development goal for regions and countries around the world. Land-use cover/change (LUCC), especially urban growth, as a major source of carbon emissions, has been extensively studied to support carbon-neutral planning. However, studies have typically used methods of small-scale urban growth simulation to model urban agglomeration growth to assist in carbon-neutral planning, ignoring the significant characteristics of the process to achieve carbon neutrality: large-scale and long-term. This paper proposes a framework to model large-scale and long-term urban growth, which couples a quantity module and a spatial module to model the quantity and spatial allocation of urban land, respectively. This framework integrates the inertia of historical land-use change, the driving effects of the urbanization law (S-curve), and the traction of the urban agglomeration network to model the long-term quantity change of urban land. Moreover, it couples a partitioned modeling framework, spatially heterogeneous rules derived by geographically weighted regression (GWR), and quantified land-use planning orientations to build a cellular automata (CA) model to accurately allocate the urbanized cells in a large-scale spatial domain. Taking the Guangdong–Hong Kong–Macao Greater Bay Area (GHMGBA) as an example, the proposed framework is calibrated by the urban growth from 2000 to 2010 and validated by that from 2010 to 2020. The figure of merit (FoM) of the results simulated by the framework is 0.2926, and the simulated results are also assessed by some evidence, which both confirm the good performance of the framework to model large-scale and long-term urban growth. Coupling with the coefficients proposed by the Intergovernmental Panel on Climate Change (IPCC), this framework is used to project the carbon emissions caused by urban growth in the GHMGBA from 2020 to 2050. The results indicate that Guangzhou, Foshan, Huizhou, and Jiangmen are under great pressure to achieve the carbon-neutral targets in the future, while Hong Kong, Macao, Shenzhen, and Zhuhai are relatively easy to bring up to the standard. This research contributes to the ability of land-use models to simulate large-scale and long-term urban growth to predict carbon emissions and to support the carbon-neutral planning of the GHMGBA. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
32. Integration of carbon emission reduction policies and technologies: Research progress on carbon capture, utilization and storage technologies.
- Author
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Chu, Huaqiang, Huang, Zhen, Zhang, Zekai, Yan, Xianyao, Qiu, Bingbing, and Xu, Nian
- Subjects
- *
GREENHOUSE gas mitigation , *CARBON nanofibers , *CARBON emissions , *CARBON offsetting , *CLIMATE change , *GREENHOUSE effect - Abstract
[Display omitted] • Carbon reduction measures were summarized and evaluated. • The carbon removal capacity and cost of some carbon reduction methods were predicted. • The main CCUS projects in the world were collated and analyzed. • The principles of CCUS technology were reviewed in terms of progress, problems and prospects. Since the industrial revolution, the greenhouse effect has become more and more serious, causing great impacts on human beings and society. Many countries have formulated carbon neutrality and introduced a series of emission reduction measures. This paper summarizes and evaluates for the first time three universally appropriate carbon reduction measures: energy upgrading, biotechnology, and carbon capture, utilization and storage (CCUS) technology in conjunction with the policies of each country. The choice of carbon reduction methods depends on the economic situation and natural resources of each country. For example, the Middle East is more in need of energy upgrades, South America is focused on biotechnology, and Western Europe is currently more suited to CCUS technology. This paper also predicts the carbon reduction capacity and capital consumption of 10 carbon reduction methods based on International Energy Agency (IEA) data and the current development of emission reduction technologies. This can provide a reference for countries to choose appropriate carbon reduction methods. Meanwhile, this paper comprehensively reviews the principles of CCUS technology, including the current progress, problems, and prospects for application. The CCUS technology plays a significant role in promoting the transformation of the energy structure and responding to global climate change. Promoting the rapid development and wide application of CCUS technology requires the joint efforts of governments, enterprises and the public: government policy, enterprise investment and public support. This paper can provide references for countries to select appropriate carbon reduction methods and guidance for researchers to further improve the effect of CCUS. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
33. In search for climate neutrality in ice hockey: A case of carbon footprint reduction in a Finnish professional team.
- Author
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Uusitalo, Ville, Halonen, Vilma, Koljonen, Heidi, Heikkinen, Suvi, and Claudelin, Anna
- Subjects
- *
CLIMATE change mitigation , *HOCKEY , *GREENHOUSE gas mitigation , *ECOLOGICAL impact , *SPORTS administration , *CARBON offsetting , *CLIMATE change - Abstract
Mitigation actions in all sectors of society, including sports, to limit global warming have become an increasingly hot topic in public discussions and sports management. However, so far, there has been a lack of understanding and practical examples of how these organizations, especially in team sports, can holistically assess and reduce their climate impacts to achieve carbon neutrality. This paper presents a carbon footprint assessment, implemented actions for GHG emission reduction, and offers the example of a professional Finnish ice hockey team that achieved carbon neutrality. The study is based on a life cycle assessment method. The Results show that the team's carbon footprint was reduced from 350 tCO 2eq by more than 50% between seasons 2018–2019 and 2021–2022 in the assessed categories. The most GHG emission reductions were achieved in the team's and spectators' mobility and ice hall energy consumption. Furthermore, the team compensated for their remaining emissions to achieve carbon neutrality. Multiple possibilities for further GHG emission reductions were recognized. The majority of the GHG emissions were linked to the Scope 3 category, indicating that co-operation with partners and stakeholders was a key to success in attaining carbon neutrality. This paper also discusses the possible limitations and challenges that sport organizations face in assessing climate impacts and reducing GHG emissions, as well as the prospects of overcoming them. Since there are many opportunities for sports to contribute to climate change mitigation, relevant targets and actions to reduce GHG emissions should be integrated into all sport organizations' management. [Display omitted] • This the first assessment of professional ice hockey team's carbon footprint. • Multiple actions led to a significant reduction in greenhouse gas emissions. • Concludes how sport organizations can manage their environmental impacts. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
34. Blue carbon accounting to monitor coastal blue carbon ecosystems.
- Author
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Liu, Jiawen, Failler, Pierre, and Ramrattan, Dindial
- Subjects
- *
SALT marshes , *CARBON emissions , *MANGROVE ecology , *CARBON offsetting , *CLIMATE change , *CARBON cycle , *CARBON sequestration - Abstract
In the global context, countries must reduce carbon dioxide emissions to "net zero" by 2050 to limit global warming to 1.5 °C above pre-industrial levels. China's Nationally Determined Contributions (NDCs) are to peak carbon dioxide emissions by 2030 and achieve the carbon neutrality target by 2060. To monitor the achievements of the NDCs, establishing an annual-based accounting mechanism is necessary to record the carbon stocks in China, especially for Blue Carbon. The paper aims to present China's first national-scale systematic Blue Carbon accounting for mangroves, salt marshes, and seagrasses, covering the accounting subjects of physical and monetary assets, as well as relevant indicators for investors. It focuses on the design of the accounting method and system, the selection of data categories applied to this system, and the application of China's Blue Carbon accounting based on this accounting system. Taking Blue Carbon accounting as a starting point, this paper analyses the restoration prospects of these ecosystems and their application potential for NDCs in China compared with the terrestrial ecosystems. The results indicate that mangroves are the most cost-effective type of ecosystem, even compared to terrestrial forests. Thus, the paper provides policymakers with a new perspective on the decision-making of carbon sequestration relevant decisions, aiming to promote the monitoring, restoration, and expansion of China's coastal blue carbon ecosystem through the establishment of a sound Blue Carbon accounting system, and to help achieve the carbon neutrality goal in China's NDCs through regular and systematic monitoring of its national Blue Carbon inventories. • China's coastal blue carbon ecosystems are carbon sources rather than carbon sinks. • Mangroves are the most cost-effective coastal blue carbon ecosystem compared to salt marshes and seagrass beds. • The Blue Carbon of mangroves is more cost-effective than the Green Carbon of terrestrial forests when meeting China's Nationally Determined Contributions target of increasing forest stocks. • Establishing guidelines for Blue Carbon data requirements will lay a scientific foundation for formulating strategies and policies to cope with global climate change. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
35. Ultra-low emission burners - Balancing climate change responses and urban air quality.
- Author
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Pearce, Steve and Scott, Vanessa
- Subjects
- *
CLIMATE change , *LIQUEFIED petroleum gas , *CARBON offsetting , *HYDRONICS , *DOMESTIC space , *SPACE heaters , *AIR pollution , *AIR quality - Abstract
In 2019, New Zealand passed “The Climate Change Response (Zero Carbon) Amendment Act” which included establishing the Climate Change Commission, a Crown entity to provide independent advice to Government to help Aotearoa transition to a climate-resilient and low emissions future. The Climate Change Commission’s first draft advice was released in January 2021 and, amongst other things, highlighted the opportunity to transition away from fossil fuels for domestic space and water heating. Compared to natural gas or LPG the use of wood burners for domestic heating, while a carbon neutral heating option, has the disadvantage of contributing to the deterioration of local air quality. In order to improve winter air quality, Environment Canterbury (ECan) has introduced a pseudo real-life wood burner authorisation test method known as Canterbury Method One (CM1). Appliances passing the CM1 test method qualify as Ultra-low Emission Burners (ULEBs) and are the only wood burning appliances allowed to be installed into houses within clean air zones in Canterbury. This paper provides updated information on the numbers and design trends of ULEBs authorised to date, and comments on how manufacturers have achieved the ULEB performance limits. The ongoing improvement of ULEBs provides the opportunity to transition away from fossil fuels toward a carbon neutral fuel without generating adverse air pollution impacts. This paper provides a summary of the journey to-date. [ABSTRACT FROM AUTHOR]
- Published
- 2021
36. From Ecophany to Burnout? An Anthropologist's Reflections on Two Years of Participating in Council-Citizen Climate Governance in Eastbourne.
- Author
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von Hellermann, Pauline
- Subjects
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VOLUNTEER service , *CARBON offsetting , *BEHAVIOR modification , *PRAGMATISM , *CLIMATE change - Abstract
In July 2019, Eastbourne Borough Council declared a climate emergency and committed to making Eastbourne carbon neutral by 2030. In order to achieve this, citizens together with Council created a unique model of council-citizen collaborative climate governance, the Eastbourne Eco Action Network (EAN). EAN's main strategy has been the setting up of targeted working groups, each bringing together Councillors, engaged citizens and providers, and each tackling a specific area of climate action through a combination of infrastructure, institutional and behavioural changes. As an environmental anthropologist living in Eastbourne, I was involved in this process right from the beginning, having had my own 'ecophany'--the realisation that the climate emergency required urgent action--in February 2019. Two years and one pandemic later, in this paper I reflect on the overall experiences and challenges of EAN's and Eastbourne Borough Council's work towards townwide carbon neutrality to date, discussing possible factors (structural and other) determining varying successes and failures. At the same time, this paper provides an auto-ethnographic account of what 'engaged anthropology' means in practice, mapping out the real contributions anthropologists can and should make in local climate action, but also reflecting on challenges encountered along the way. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
37. Lowering the Carbon Emissions Peak and Accelerating the Transition Towards Net Zero Carbon.
- Author
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PAN, Jiahua
- Subjects
- *
CARBON emissions , *CARBON offsetting , *CLIMATE change , *SOCIAL responsibility - Abstract
China's declaration to the international community to peak CO2 emissions before 2030 and achieve carbon neutrality before 2060 is of great significance in advancing the objectives of the Paris Agreement, and has a positive and far-reaching impact on China's high-quality development. This paper expounds on responsibilities and ambitions in tackling climate change, analyzes the high-quality development opportunities brought about by CO2 emissions peak and carbon neutrality, and discusses the net zero carbon emissions transformation in the new era of ecological civilization. This paper is of the view that development towards net zero carbon emissions provides a new impetus for building a Beautiful China, and promoting ecological civilization and green development. The essence of carbon neutrality should be correctly understood so that the world will work together to improve climate resilience. China should also deepen the understanding of the principles and methodologies of climate change economics. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
38. COP26: Progress, Challenges, and Outlook.
- Author
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Wang, Yi, Liu, Yuxuan, and Gu, Baihe
- Subjects
- *
CLIMATE change mitigation , *CARBON offsetting , *SUSTAINABLE development , *GREENHOUSE gas mitigation , *CLIMATE change ,PARIS Agreement (2016) - Abstract
The 26th Conference of the Parties (COP26) to the United Nations Framework Convention on Climate Change (UNFCCC) was held in Glasgow a year later than scheduled, with expected outcomes achieved under a post-pandemic background. Based on the Issue-Actor-Mechanism Framework, this paper systematically evaluates the outcomes achieved at COP26 and analyzes the tendency of post-COP26 climate negotiations. Overall, with the concerted efforts of all parties, COP26 has achieved a balanced and inclusive package of outcomes and concluded six years of negotiations on the Paris Rulebook. It is fair to say that COP26 is another milestone in climate governance following the implementation of the Paris Agreement. Meanwhile, the Glasgow Climate Pact has cemented the consensus on a global commitment to accelerating climate action over the next decade and reached a breakthrough consensus on reducing coal, controlling methane, and halting deforestation. In the post-COP26 era, we still need to take concrete actions to implement the outcomes of the Paris Agreement and the Glasgow Climate Pact, innovate ways to speed up CO2 emissions reduction, and continue to strive for breakthroughs in important issues such as finance, technology, adaptation, and collaboration. In addition to avoiding the escalation of international conflicts, we need to collectively and properly handle the relationship between energy security, carbon reduction, and development and facilitate the efforts of countries to achieve their Sustainable Development Goals (SDGs), including climate-related goals. China will continue to maintain the existing multilateral mechanisms and processes for climate governance, unremittingly take concrete actions to address climate change, promote a domestic comprehensive green transition and global cooperation on carbon neutrality, and contribute constructively to global climate governance. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
39. A review of existing and potential blue carbon contributions to climate change mitigation in the Anthropocene.
- Author
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Gao, Guang, Beardall, John, Jin, Peng, Gao, Lin, Xie, Shuyu, and Gao, Kunshan
- Subjects
- *
MANGROVE plants , *CARBON sequestration , *EFFECT of human beings on climate change , *CARBON offsetting , *CLIMATE change mitigation , *REVEGETATION , *ATMOSPHERIC carbon dioxide , *CARBON cycle - Abstract
The atmospheric concentration of CO2 is steadily increasing and causing climate change. To achieve the Paris 1.5 or 2°C target, negative emission technologies must be deployed in addition to reducing carbon emissions. The ocean is a large carbon sink but the potential of marine primary producers to contribute to carbon neutrality remains unclear.Here we review the alterations to carbon capture and sequestration of marine primary producers (including traditional 'blue carbon' plants, microalgae and macroalgae) in the Anthropocene, and, for the first time, assess and compare the potential of various marine primary producers to carbon neutrality and climate change mitigation via biogeoengineering approaches.The contributions of marine primary producers to carbon sequestration have been decreasing in the Anthropocene due to the decrease in biomass driven by direct anthropogenic activities and climate change. The potential of blue carbon plants (mangroves, saltmarshes and seagrasses) is limited by the available areas for their revegetation. Microalgae appear to have a large potential due to their ubiquity but how to enhance their carbon sequestration efficiency is very complex and uncertain. On the other hand, macroalgae can play an essential role in mitigating climate change through extensive offshore cultivation due to higher carbon sequestration capacity and substantial available areas. This approach seems both technically and economically feasible due to the development of offshore aquaculture and a well‐established market for macroalgal products.Synthesis and applications. This paper provides new insights and suggests promising directions for utilizing marine primary producers to achieve the Paris temperature target. We propose that macroalgae cultivation can play an essential role in attaining carbon neutrality and climate change mitigation, although its ecological impacts need to be assessed further. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
40. Power generation expansion planning considering natural disaster scenarios under carbon emission trajectory constraints.
- Author
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Liao, Wang, Liu, Dong, Xue, Yusheng, Wu, Yufeng, Xue, Feng, and Chang, Kang
- Subjects
- *
CARBON emissions , *NATURAL disasters , *EXTREME weather , *CARBON offsetting , *CLIMATE change , *ELECTRIC power distribution grids - Abstract
The intensification of global climate change has led to a widespread consensus on carbon reduction, with the power industry being the principal contributor to carbon emissions necessitating an inevitable transition of its energy structure. Concomitantly, the escalating frequency of natural disasters caused by extreme weather presents formidable challenges to both secure power supply and the low-carbon transition of the power system. To fulfill the developmental requirements of a low-carbon power system and address the carbon emission risks imposed by natural disasters, this paper proposes a bi-level model for generation expansion planning (GEP) that incorporates constraints on the carbon emission trajectory and the influence of natural disasters. The planning-level model optimizes investment costs of various generation technologies and energy storage (ES), as well as the overall operational expenses over the planning period, with an objective to minimize them. It incorporates carbon emission trajectory constraints and policy constraints, such as carbon peaking, carbon neutrality and renewable energy (RE) penetration rates, in order to optimize the planning installed capacity of power sources. The operational-level model aims to minimize typical daily operating costs while also simulating power unit outputs in routine and disaster scenarios. A case study is conducted in a disaster-prone province in southern China to analyze the power generation expansion planning and the trajectory of carbon emissions from 2020 to 2060 under different scenarios. The simulation results show that compared to thermal power, the planning scheme mainly focused on RE with ES is better suited to achieve the goal of a low-carbon transition of the power grid. Moreover, after considering natural disasters, the cost and carbon emissions of power system planning are higher, and the risk of carbon emissions increases with the severity of disasters. • A multi-time scale bi-level low-carbon GEP model is proposed. • Natural disaster scenarios and low-carbon policy constraints are considered in the GEP model. • Carbon emission trajectory of the planned power system is estimated and introduced as a constraint into the GEP model. • Evaluation indicators that comprehensively consider low-carbon performance and economic feasibility are proposed. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
41. Possible Pathways toward Carbon Neutrality in Thailand's Electricity Sector by 2050 through the Introduction of H 2 Blending in Natural Gas and Solar PV with BESS.
- Author
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Diewvilai, Radhanon and Audomvongseree, Kulyos
- Subjects
- *
CARBON offsetting , *NATURAL gas , *HYDROGEN as fuel , *CARBON emissions , *GLOBAL warming , *ELECTRIC power production , *CLIMATE change - Abstract
To avoid the potential adverse impacts of climate change from global warming, it is suggested that the target of net zero emissions should be reached by this mid-century. Thailand is aiming to achieve carbon neutrality by 2050. Since electricity generation is one of the largest producers of carbon dioxide emission, the associated emissions must be greatly reduced to achieve the targets mentioned above. Thus, new generation expansion plans must be well developed. This paper discusses the development of generation expansion plans considering Thailand's latest policies along with enhancement of the existing multi-period linear programming model, allowing new electricity generation technologies having low emissions, e.g., solar PV with battery and hydrogen blending in natural gas, to be integrated into generation expansion planning. Then, four generation expansion plans with different levels of hydrogen blending in natural gas are proposed and discussed. It is found that Thailand can achieve carbon neutrality by 2050 by promoting more use of renewable energy altogether with trade-off between land for solar PV installation and amount of hydrogen blended in natural gas. The lesson learned from this study provides crucial information about possible pathways to achieve carbon neutrality in the electricity sector for policy makers in other countries. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
42. Potential Co‐benefits and trade‐offs between improved soil management, climate change mitigation and agri‐food productivity.
- Author
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McGuire, Ryan, Williams, Paul N., Smith, Pete, McGrath, Steve P., Curry, Donald, Donnison, Iain, Emmet, Bridget, and Scollan, Nigel
- Subjects
- *
CLIMATE change mitigation , *SOIL management , *GREENHOUSE gas mitigation , *SOIL solutions , *CARBON offsetting , *SOIL degradation - Abstract
Maximising resource‐use efficiency, productivity and environmental sustainability are all fundamental requirements to raise global food production by ~70 per cent in order to feed a world population of ~9.7 billion people by 2050. Perhaps the most vital resource within our capacity to achieve this goal is our soil. Broadly, the fundamental question concerns whether or not satisfying this production demand will accelerate soil degradation, climate change, and the loss of soil carbon stocks. This paper builds upon the outputs of the UK Charity 'Food & Farming Futures' (chaired by Lord Curry of Kirkharle) virtual workshop held on 23 March 2021, entitled 'Capturing the Potential of Soil'. The event focussed on the link between soil health, primarily soil organic carbon (SOC), and agricultural productivity. Supported with commentaries by Professor Pete Smith (University of Aberdeen and Science Director of the Scottish Climate Change Centre of Expertise) and Professor Steve McGrath (Head of Sustainable Agricultural Sciences at Rothamsted Research), specific focus will be given to the research challenges within the UK's ability to improve soil health and functionality, the implementation priorities that must be held in order to improve soil management by 2050 and what the potential co‐benefits could be. These co‐benefits were scattered across environmental, economic, social and political issues, yet they may be summarised into six primary co‐benefits: developing natural capital, climate change mitigation, carbon trading, improvements in crop yield, animal performance and human health (nutrition). Additionally, the main barriers to improved soil management practices are centred on knowledge exchange‐regarding agri‐environmental techniques—whilst the most impactful solutions rely on soil monitoring, reporting and verification. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
43. Carbon budget and balance critical processes of the regional land-water-air interface: Indicating the earth system's carbon neutrality.
- Author
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Gao, Yang, Wang, Shuoyue, Lu, Yao, Liu, Jianbao, Lyu, Sidan, Sun, Kun, Jia, Junjie, Li, Zhaoxi, and Yu, Guirui
- Subjects
- *
CARBON offsetting , *CLIMATE change , *BODIES of water - Abstract
Regional processes on land-water-air interface carbon (C) budget and balance that interconnect the land and sea are in fact C neutrality critical processes within the earth system. It is therefore essential to quantitatively analyze synergistic land-water-air interface C transport and C exchange processes to gain a deep understanding of the important role that terrestrial ecosystems play in "missing C sink". This paper systematically analyzes global land-water-air interface C migration processes as well as C budget changes and associated impact mechanisms. It also investigates the important role that these C budgets and C cycling processes play in inland water bodies, respective to C budgets at the land-water-air interface. Moreover, this study reveals the regulatory mechanisms of land-water-air interface C budgets and balances under a background of global climate change. It also quantitatively evaluates the status of China's regional land-sea-air interface C budgets as well as the C sequestration potential of its lake systems. Finally, this study concludes that the explicit quantification of anthropogenic activity impacts on land-water-air interface C transport and exchange processes is of great significance to global C balances and C neutrality. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
44. Political uncertainty and carbon emission trading: Evidence from China.
- Author
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Tang, Tony He and Bao, Helen X.H.
- Subjects
- *
GREENHOUSE gas mitigation , *CARBON offsetting , *CARBON emissions , *EMISSIONS trading , *SUSTAINABLE urban development , *CARBON taxes , *SUSTAINABLE development , *CHILD consumers - Abstract
This study explores the impact of political uncertainty on sustainable urban development by examining carbon emission trading systems (ETS) in four major markets in China (Beijing, Shanghai, Guangdong, and Hubei) from 2014 to 2022. As an alternative to carbon taxes, carbon ETS markets have become increasingly popular due to their success in reducing greenhouse gas emissions. However, their effectiveness is often hindered by political instability and uncertainty. Utilising logistic regression and AR(1)-GARCH estimations, we identify a negative relationship between political uncertainty and carbon trading volume. Our study also reveals significant variations in the responses of these markets to political uncertainty. The paper contributes to the understanding of how ETS markets operate in a complex and constantly changing political environment. We suggest that policymakers need to consider the impact of political uncertainty on carbon trading when designing and implementing urban policies that promote sustainable development. Additionally, our research contributes to the development of urban policies that can be effectively implemented in both developed and developing regions. • Local government official turnovers are used as the measurement of political uncertainty. • Daily transaction data from four carbon ETS markets (Beijing, Shanghai, Hubei and Guangdong) in China • Considered the probability and proportion of zero transaction day • Logistic regression and AR(1)-GARCH estimations • A negative relationship between political uncertainty and carbon transaction volume [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
45. China's Zero-Coal Power System Future.
- Author
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Ren, Yanzhe, Li, Gengfeng, Wang, Haoyuan, and Bie, Zhaohong
- Subjects
- *
CLIMATE change , *ENERGY shortages , *POLLUTION , *CARBON emissions , *ELECTRIC power production , *CARBON offsetting - Abstract
• Forecasting-test framework for long-term power system planning. • Coal-fired generators can be completely withdrawn from the power system by 2060. • China's power capacity mix will transition to wind and solar generators dominated. • Biomass and gas-fired generators will take on the role of reserved generators. • The timing of achieving China's zero-coal power system may be advanced or delayed. Facing the challenges of climate deterioration, environmental pollution, and energy shortages, China has put forward the goals of "carbon dioxide peaking and carbon neutrality", and the electricity sector will be the key area and the main direction of carbon emissions reduction. To prospect China's power system and explore the potential for establishing China's zero-coal power system in the future, this paper proposes a forecasting-test framework for long-term power system planning. We predict, evaluate, and analyze China's power system from 2025 to 2060 using the proposed forecasting-test framework. During this process, the power capacity mix and the electricity generation mix of China's power system will gradually transition from coal-fired generators dominated to wind and solar generators dominated. Moreover, the roles of different generators and energy storages are illustrated through the seasonal comparison and sensitivity analysis of the installed capacity of generators. The results indicate that coal-fired generators can be completely withdrawn from the power system, confirming the feasibility and possibility of achieving China's zero-coal power system by 2060. Although the timing may be advanced or delayed in different scenarios, achieving China's zero-coal power system will require exercising nationwide planning and making joint efforts of various sectors from now on. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
46. China's Contribution and the Chinese Approach to Tackling Global Climate Change.
- Author
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CHEN, Ying and WANG, Mou
- Subjects
- *
CLIMATE change , *CARBON offsetting - Abstract
China is one of the parties to the United Nations Framework Convention on Climate Change (UNFCCC) and has been actively promoting the multilateral global climate governance process. China has advanced its eco-civilization construction and the agenda for combating climate change in a coordinated manner, and delivered positive results. By studying and interpreting the guiding principles of President Xi Jinping's important speeches at the Leaders Summit on Climate and the video summit between China, France and Germany, this paper goes over the basic thinking of China's participation in international climate governance and the Chinese approach to tackling global climate change, and sums up China's achievements in the fields such as transition to green and low-carbon development, energy structure adjustment, greenhouse gases control, the construction of national carbon market, as well as its contribution to tackling global climate change. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
47. ФОРСАЙТИНГ ЕКОЛОГІЧНОГО РЕГУЛЮВАННЯ РОЗВИТКУ НАЦІОНАЛЬНОЇ ПРОМИСЛОВОСТІ: МАКРОРІВЕНЬ.
- Author
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Заніздра, Марія Юріївна
- Subjects
- *
GREEN New Deal (United States) , *CARBON offsetting , *SUSTAINABLE development , *INVESTMENT analysis , *ENVIRONMENTAL regulations , *FISCAL policy , *CARBON taxes - Abstract
The future of environmental regulation in the industrial sector is largely dictated not only by political decisions and measures, but also by the intensity and nature of investments in certain types of economic activities, as well as by the environmentally-oriented requirements that are imposed on investment projects. Changing the priority and effectiveness of environmental regulation tools, the emergence of new and the abolition of traditional levers of influence depends on the trajectory of scientific and technological progress, the development of new fields of economic activity, such as digital services, the transformation of the ecological footprint of industry, as well as a new understanding of the environmental challenges of the future. Therefore, the relevance of priority approaches' foresighting, tools and directions of environmental regulation of the strategic development of a national industry based on the most persistent and dominant trends in the political and financial spheres that define long-term strategies of economic development at the macro level for 2030-2050, is increasing. The paper provides basic directions of foresight in the field of environmental regulation: monitoring and comprehensive analysis of the co-evolution of global economic and environmental systems under the auspices of the United Nations; problem-oriented foresighting of narrowly specific, micro-territorial unique ecosystems and phenomena with a strict local binding; national and supranational scientific and technical strategies for long-term economic development, including the transformation of investment priorities in industry. Based on the analysis of the main investment trends in the field of sustainable development, the main barriers to greening the industry were identified: the investment gap in developing countries and low activity of private investors. An overview of the nomenclature, geography of distribution and effectiveness of the practical application of "green" investment products, instruments and markets were presented. They include: "green" bonds, "sustainable" funds and ESG-funds, Indices of sustainable development stocks, "participatory investment" in the form of applied investment programs of public-private partnership. In addition to this, the specifics of national strategies for the development of the world's industrial centers - dynamically and innovatively developing macroeconomics of the United States, the EU and the People's Republic of China, aimed at decarbonizing the energy sector and achieving the so-called "carbon neutrality" of the economy within the framework of the "Green New Deal" were also established: quantitative goals, the volume of investment, the system of motivation of entrepreneurs. According to the results of the analysis, the main principles of environmental regulation of the future (for the perspective of 2030-2050) were defined: "achieving the Sustainable Development Goals" (SDGs), "monitoring investment trends", "indicative planning" and "scenario forecasting" of measures and initiatives to achieve the SDGs, "participativeness of investments" in the development of smart infrastructure and advanced innovations for the purpose of environmentally-oriented transformation of technological structures towards their carbon neutrality and "environmentally differentiated fiscal policy" - protectionist and sanctioned. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
48. Greenhouse gas protection and control based upon the evolution of overburden fractures under coal mining: A review of methods, influencing factors, and techniques.
- Author
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Zhao, Pengxiang, Zhuo, Risheng, Li, Shugang, Lin, Haifei, Shu, Chi-Min, Shuang, Haiqing, and Wei, Zongyong
- Subjects
- *
COAL mining , *GREENHOUSE gases , *COAL mining safety , *LONGWALL mining , *NUCLEAR magnetic resonance , *LIFE cycles (Biology) , *ENVIRONMENTAL protection , *CARBON offsetting - Abstract
In accordance with the Paris Agreement, many nations have set out a global framework to stabilise and prevent greenhouse gas (GHG) emissions to mitigate climate change. This study reviewed the literature on the GHG protection and control (GHGPC) impacts of overburden fractures in relation to coal mining. Different factors, such as geological conditions, mining conditions, and gas extraction methods, were compared because they influence GHGPC. Carbon emissions, coal mining safety, and environmental protection are crucial parameters. GHGPC can (1) improve the safety and efficiency of mining, (2) reduce GHG emissions, and (3) generate clean gas resources. During mining, cracks appear in overburden strata, causing GHG emissions. Various techniques, including scanning electron microscopy, nuclear magnetic resonance, two-dimensional and three-dimensional physical similarity simulations, permeability testing, and numerical simulations, have been adopted to determine the macroscopic and microscopic features of overburden fractures. Finally, the extraction method of GHG was optimised through field practice, namely, roadway, borehole, and pipe extraction, were analysed, and the comprehensive GHG extraction method was preferred to achieve superior management results. This paper reviewed studies that examine the development of fractures to elucidate the significance of GHGPC. Moreover, this article provides new insights into the achievement of the "dual carbon strategy" with particular reference to coal mining; it also summarises the holistic life cycle of gas management in terms of overburden activity, gas transport patterns, reservoir characteristics and typical technologies. It also summarises the holistic life span of GHGPC management in terms of overburden activity, GHG transport patterns, reservoir characteristics, and typical technologies. Finally, the authors discuss and conclude the article with proposed methods for future research directions. • The role of GHGPC in carbon neutrality was talked about from various aspects. • Technologies for GHG transport, extraction, and utilisation were elaborated. • GHG extraction technologies in coal mining were introduced. • New energy supply and the dual carbon strategy in coal mining were described. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
49. Optimal configuration of double carbon energy system considering climate change.
- Author
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Zhang, Zhonglian, Yang, Xiaohui, Yang, Li, Wang, Zhaojun, Huang, Zezhong, Wang, Xiaopeng, and Mei, Linghao
- Subjects
- *
CARBON offsetting , *CARBON emissions , *CARBON , *MACHINE learning , *CARBON nanofibers , *CLIMATE change - Abstract
How to achieve the "double carbon" goal in energy systems has been the concern of governments. Integrated energy system (IES) is affected by climate change during his operation, in order to study the impact of climate change on IES and achieve the "double carbon" goal in energy systems, this paper proposes an integrated machine learning(IML) to forecast the long-term load, then investigates IES costs and carbon emissions in relation to climate, followed by the establishment of carbon peak energy system(CPES) and carbon neutral energy system(CNES), finally the honey badger algorithm is used to optimize the configuration of CPES and CNES. The results show that: IML can accurately make load forecasts. Under climate change, changes in load reduce the cost and carbon emissions of IES, and changes in equipment efficiency increase the cost and carbon emissions of IES. When both are considered, the cost and carbon emissions of IES increase by 1.18% and 0.92% per decade respectively. The costs of CPES and CNES increase by 0.93% and 1% respectively for every 10 years earlier than the year of achievement. To meet China's "double carbon" goal, CPES and CNES need to increase their costs by 1.97% and 2% respectively. • Integrated machine learning proposed for long-term load forecasting. • Studied the impact of system equipment efficiency and load with climate change. • Proposing carbon peaking energy system to achieve the carbon peak goal. • Proposed carbon-neutral energy system to achieve carbon neutrality goal. • The increased costs of achieving carbon peak and carbon neutral were studied. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
50. Are air travellers willing to pay for reducing or offsetting carbon emissions? Evidence from Italy.
- Author
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Rotaris, Lucia, Giansoldati, Marco, and Scorrano, Mariangela
- Subjects
- *
CARBON emissions , *CARBON offsetting , *CARBON dioxide , *FOREST protection , *WILLINGNESS to pay - Abstract
• The WTP ranges between €12 and €38 per ton and between €14 and €66 per flight. • It is higher for projects aimed at forest protection, afforestation, reforestation. • It is significantly lower if the description of the project financed is missing. • Gender, occupational status and education degree influence the WTP. • Also travel habits and environmental consciousness influence the WTP. The aviation industry is one of the fastest-growing sectors in producing carbon emissions. In order to reduce its carbon footprint and to respond to the increasing number of people concerned about the impact caused by air transport on climate change, the International Civil Aviation Organization (ICAO) has recently passed the "carbon neutral growth from 2020" resolution requiring that the global net CO 2 emissions from international aviation do not exceed the 2019–2020 levels. Airlines, however, can act beyond their obligations under the ICAO resolution investing in projects aimed at reducing or offsetting all the emissions produced not only by their international flights but also by their domestic flights. The aim of this paper is to test whether Italian air travellers would be willing to donate a contribution to finance these projects and whether the willingness to pay depends on the projects' type and on the projects' effectiveness. To this aim we performed a stated-choice experiment involving a sample of 1228 Italians who travelled by plane at least once in the last 3 years. We find that their willingness to pay ranges from €12 to €38 per ton and from €14 to €66 per flight. The description of the project type to be financed via the passengers' donations is one of the most important factors influencing their willingness to pay. Other key factors are the quantity of CO 2 reduced or offset via the project and the respondents' gender, education degree, occupational status, environmental consciousness and travel habits. Our results are useful for airlines to design the donation proposals and improve the corporate image and for policy makers to support air travellers' environmental conscious behaviour and airlines' environmental sustainable strategies. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
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