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1.
Analysis on the key findings related to emission trends and drivers from the IPCC AR6 report北大核心CSCD
"Emission Trends and Drivers" chapter, an important basis for international climate negotiations, is one of the core contents of each assessment report. The trends and driving factors of greenhouse gas emissions from 1990 to 2019 are discussed in this chapter in the Sixth Assessment Report (AR6) released in April 2022. Compared with the content in the Fifth Assessment Report (AR5), in terms of historical emission trends, AR6 focuses on the changes from 2010 to 2019, highlights the importance of the 1.5°C temperature control target, pays more attention to carbon dioxide (CO2) emissions and non-carbon dioxide greenhouse gas emissions related to land use change, and further emphasizes the carbon emission trend and its regional evolution trend from the perspective of production and consumption. Besides, the short-term impact of COVID-19 on global carbon emissions is explored. In terms of driving factors, besides analyzing the global and regional economic driving factors, the economic driving factors and differences in energy, industry, construction, transportation, agriculture, forestry and other land use (AFOLU) sectors are also studied, which systematically reflects the similarities and differences of driving factors at the global, regional and departmental levels. The results affirm the positive impact of existing climate policies on climate mitigation highlight the benefits of technological change and innovation on climate mitigation, and identify the adverse impact of carbon locking of fossil energy infrastructure. Finally, based on the full analysis of the key conclusions in AR6, some suggestions on China's low-carbon development are given. © 2022 Chinese Journal of Digestive Endoscopy All rights reserved. 相似文献
2.
何建坤 刘滨 陈迎 Xu Huaqing Guo Yuan Hu Xiulian Zhang Xiliang Li Yu'e Zhang Aling Chen Wenying Wei Zhihong Duan Maosheng Zhang Xiaohua Lü Yingyun 《气候变化研究进展》2007,3(Z1):12-18
Climate change is increasingly becoming the hotspot issue of global attention. On the basis of review of the process responding to climate change of international community, this paper introduces the status of carbon emissions of the world and China, and the technology potential for China to mitigate carbon emissions. At the same time, this paper explores the macro-impacts of China's mitigation of carbon emissions, the equity of global mitigation of climate change, and the impacts of international cooperation in the field of climate change. Furthermore, this paper puts forward the ideas and countermeasures of mitigating climate change in China, indicating that China should positively adapt to the trends of international politics, economy and trade pattern changes and bring the strategies of mitigating climate change into national social and economic development strategy, planning to promote comprehensive, coordinated and sustainable development of national economy and society under the situation of global response to climate change. 相似文献
3.
庄贵阳 《气候变化研究进展》2007,3(Z1):92-96
The subsidy, as a measure, is widely applied by governments at all levels around the world as a way of policy interventions. However, there are two completely opposite opinions of subsidies on energy and environmental protection. The only reason for subsidy in existence is the internalization of external benefit. The paper firstly examines the energy subsidy policies relevant to climate change mitigation in China and their effectiveness, then points out the deficiency existing in energy conservation policies and renewable energy development policies, and finally suggests that China should exert positive role of subsidy policies and reduce negative effects in promoting climate change mitigation. 相似文献
4.
The cryosphere is a prominent factor in and an indicator of global climate change. It serves one of the most direct and sensitive feedbacks in the climate system, and plays an important role in the earth's climate system. Cryospheric research has attracted unprecedented attention in the context of global warming, and is now one of the most active areas in studies of global change, sustainable development, and the climate system. This paper addresses recent and potential future changes in the cryosphere both globally and within China under the background of global warming. Particular attention is paid to progress toward understanding the impacts of the Tibetan Plateau and Eurasian snow cover, Arctic and Antarctic sea ice, and permafrost and glaciers on Chinese climate. The future development of cryospheric research in China is also discussed. 相似文献
5.
YU Yongqiang ZHI Hai WANG Bin WAN Hui LI Chao LIU Hailong LI Wei ZHENG Weipeng ZHOU Tianjun 《大气科学进展》2008,25(4):641-654
Several scenario experiments of the IPCC 4th Assessment Report (AR4) are performed by version g1.0 of a Flexible coupled Ocean-Atmosphere-Land System Model (FGOALS) developed at the Institute of Atmospheric Physics, Chinese Academy of Sciences (IAP/CAS), including the "Climate of the 20th century experiment", "CO2 1% increase per year to doubling experiment" and two separate IPCC greenhouse gases emission scenarios AIB and B1 experiments. To distinguish between the different impacts of natural variations and human activities on the climate change, three-member ensemble runs are performed for each scenario experiment. The coupled model simulations show: (1) from 1900 to 2000, the global mean temper- ature increases about 0.5℃ and the major increase occurs during the later half of the 20th century, which is in consistent with the observations that highlights the coupled model's ability to reproduce the climate changes since the industrial revolution; (2) the global mean surface air temperature increases about 1.6℃ in the CO2 doubling experiment and 1.5℃ and 2.4℃ in the A1B and B1 scenarios, respectively. The global warming is indicated by not only the changes of the surface temperature and precipitation but also the temperature increase in the deep ocean. The thermal expansion of the sea water would induce the rise of the global mean sea level. Both the control run and the 20th century climate change run are carried out again with version g1.1 of FGOALS, in which the cold biases in the high latitudes were removed. They are then compared with those from version g1.0 of FGOALS in order to distinguish the effect of the model biases on the simulation of global warming. 相似文献
6.
A coupled model study on the intensification of the Asian summer monsoon in IPCC SRES Scenarios 总被引:1,自引:0,他引:1
The Asian summer monsoon is an important part of the climate system. Investigating the response of the Asian summer monsoon to changing concentrations of greenhouse gases and aerosols will be meaningful to understand and predict climate variability and climate change not only in Asia but also globally. In order to diagnose the impacts of future anthropogenic emissions on monsoon climates, a coupled general circulation model of the atmosphere and the ocean has been used at the Max-Planck-Institute for Meteorology. In addition to carbon dioxide, the major well mixed greenhouse gases such as methane, nitrous oxide, several chlorofluorocarbons, and CFC substitute gases are prescribed as a function of time. The sulfur cycle is simulated interactively, and both the direct aerosol effect and the indirect cloud albedo effect are considered. Furthermore, changes in tropospheric ozone have been pre-calculated with a chemical transport model and prescribed as a function of time and space in the climate simulations. Concentrations of greenhouse gases and anthropogenic emissions of sulfur dioxide are prescribed according to observations (1860-1990) and projected into the future (1990-2100) according to the Scenarios A2 and B2 in Special Report on Emissions Scenarios (SRES, Nakcenovic et al., 2000) developed by the Intergovernmental Panel on Climate Change (IPCC). It is found that the Indian summer monsoon is enhanced in the scenarios in terms of both mean precipitation and interannual variability. An increase in precipitation is simulated for northern China but a decrease for the southern part. Furthermore, the simulated future increase in monsoon variability seems to be linked to enhanced ENSO variability towards the end of the scenario integrations. 相似文献
7.
Tianjun Zhou 《大气科学进展》2020,37(10):1033-1033
正The Coupled Model Intercomparison Project (CMIP) supports research in climate change and assessment, including the Intergovernmental Panel on Climate Change (IPCC) Assessment Report (AR), through providing enormous datasets mainly produced by Earth system models (ESMs) and climate system models (CSMs). The newest (sixth) phase of CMIP(CMIP6) has been launched, including the DECK (Diagnostic, Evaluation and Characterization of Klima) and 23 endorsed MIP experiments, to address new scientific questions in climate fields (Eyring et al., 2016). Now, the datasets simulated by 相似文献
8.
《大气和海洋科学快报》2017,(4)
<正>1.Introduction The solar flux is considered the fundamental energy source of earth’s climate system,and the earth’s motion greatly influences climate change over long time scales(Imbrie and Imbrie 1980;Ruddiman 2001).Modern global climate change is one of the core issues in research on climate change.The degree to which astronomy and earth motion factors,which are characterized by quite weak and slow variations, 相似文献
9.
Jianhua LU 《大气科学进展》2020,37(1):16-17
An accurate estimate of equilibrium climate sensitivity(ECS)is pivotal to humankind’s responses,including both the mitigation and adaptation,to future global climate change(not necessarily that of a distant future).However,the uncertainty in estimates of ECS remains large,as shown in the past assessments by the Intergovernmental Panel on Climate Change(IPCC)(see IPCC,2013),though the level of understanding on the physics and dynamics of Earth’s climate system has improved considerably during the past four decades since the appearance of the Charney report(Charney et al.,1979). 相似文献
10.
Climate Simulation and Future Projection of Precipitation and the Water Vapor Budget in the Haihe River Basin 
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下载免费PDF全文 The climatological characteristics of precipitation and the water vapor budget in the Haihe River basin (HRB) are analyzed using daily observations at 740 stations in China in 1951-2007 and the 4-time daily ERA40 reanalysis data in 1958-2001. The results show that precipitation and surface air temperature present significant interannual and interdecadal variability, with cold and wet conditions before the 1970s but warm and dry conditions after the 1980s. Precipitation has reduced substantially since the 1990s, with a continued increase of surface air temperature. The total column water vapor has also reduced remarkably since the late 1970s. The multi-model ensemble from the Fourth Assessment Report (AR4) of the Intergovernmental Panel on Climate Change (IPCC) has capably simulated the 20th century climate features and successfully reproduced the spatial patterns of precipitation and temperature. Unfortunately, the models do not reproduce the interdecadal changes. Based on these results, future projections of the climate in the HRB are discussed under the IPCC Special Report on Emissions Scenarios (SRES) B1, A1B, and A2. The results show that precipitation is expected to increase in the 21st century, with substantial interannual fluctuations relative to the models’ baseline climatology. A weak increasing trend in precipitation is projected before the 2040s, followed by an abrupt increase after the 2040s, especially in winter. Precipitation is projected to increase by 10%-18% by the end of the 21st century. Due to the persistent warming of surface air temperature, water vapor content in the lower troposphere is projected to increase. Relative humidity will decrease in the mid-lower troposphere but increase in the upper troposphere. On the other hand, precipitation minus evaporation remains positive throughout the 21st century. Based on these projection results, the HRB region is expected to get wetter in the 21st century due to global warming. 相似文献
11.
2022年4月4日,IPCC第六次评估报告第三工作组《气候变化2022:减缓气候变化》报告和决策者摘要发布。报告全面评估了2010年以来减缓气候变化领域的最新科学进展,为国际社会深度认识和理解全球温室气体排放情况、不同温升水平下的减排路径以及可持续发展背景下的气候变化减缓和适应行动等提供了重要科学依据。基于报告主要结论,围绕温室气体排放的区域差异、减缓路径分类、与土地利用相关的排放评估及CO去除技术评估等方面的亮点,文中提出在应对气候变化减缓政策行动中,中国应坚定“双碳”战略目标,在综合考虑经济发展阶段和资源禀赋差异背景下,将可持续发展、公平和消除贫困植根于社会发展愿景中实施减缓路径,并加快提升气候变化综合评估核心科学技术的研发进度,以进一步提升国际影响力和话语权。 相似文献
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需求侧减排是协同实现碳中和目标与民生福祉、社会公平改善的重要抓手,也是以“人”为中心连接不同可持续发展目标的关键纽带。IPCC第六次评估报告首次独立成章(第五章)介绍应对气候变化的需求侧解决方案。报告将需求侧减排与福祉、公平等目标关联起来,依循“避免-转变-改进(ASI)”的战略框架,梳理了需求侧的减排措施和减排潜力;揭示了社会文化、心理活动、技术水平和基础设施等因素对需求侧减排的关键驱动作用,指出多种驱动因素之间相互依赖,呈现叠加效应;明确了激发需求侧减排的动力和能力需要科学的行为干预和政策设计以推动系统性变革。文中对该章主要结论做扼要解读,同时就该章节对中国的相关研究和政策启示展开讨论。 相似文献
13.
文中对IPCC第六次评估报告第二工作组报告关于观测和预估的气候变化影响与风险方面的主要结论进行了解读。报告表明,气候变化已经对自然和人类系统造成了广泛的不利影响,尤其是气候变化下的复合风险和极端事件呈现日益加剧和频繁的趋势。目前,不同地区和部门的关键风险已多达127种,且随着气候变暖以及生态社会脆弱性的加剧,将对人类和生态系统造成更加普遍和不可逆的影响。相对第五次评估报告,本报告进一步扩展了风险的内涵,归纳了8个代表性关键风险,更加全面地评估了5个“关注理由”的风险水平,评估结果有利于加深对于气候变化影响的认识和及时制定行动对策。 相似文献
14.
IPCC于2022年4月正式发布了第六次评估报告(AR6)第三工作组(WGⅢ)报告《气候变化2022:减缓气候变化》,该报告以已发布的第一和第二工作组报告作为基础,评估了各领域减缓气候变化的进展。报告的第九章建筑章节系统全面地评估了全球建筑领域的温室气体排放现状、趋势和驱动因素,综述并评估了建筑减缓气候变化的措施、潜力、成本和政策。报告主要结论认为,全球建筑领域有可能在2050年实现温室气体净零排放,但如果政策措施执行不力,将有可能在建筑领域形成长达几十年的高碳锁定效应。报告的主要结论将成为全球建筑领域应对气候变化行动的重要参考,对于我国建筑领域实现碳达峰、碳中和目标也有非常重要的借鉴意义。 相似文献
15.
IPCC第六次评估报告(AR6)第三工作组(WGⅢ)报告对全球工业部门碳排放现状、减排需求、主要措施等情况做了系统全面评估。报告指出,工业部门是2000年以来碳排放增长最快的部门;到21世纪中叶,工业部门实现CO净零排放是可能的,但面临巨大挑战,需要在持续推动工业节能的同时注重提升材料效率、推进电气化与燃料替代、发展CO捕集利用与封存(CCUS)等减排措施的应用。报告相关结论,对我国工业部门碳减排工作的部署具有重要参考价值。 相似文献
16.
气候变化科学的最新进展—IPCC第四次评估综合报告解析 总被引:69,自引:2,他引:67
政府间气候变化专门委员会(IPCC)第四次评估报告综合报告于2007年11月17日在西班牙正式发布。综合报告将温室气体排放、大气温室气体浓度与地球表面温度直接联系起来,综合评估了气候变化科学、气候变化的影响和应对措施的最新研究进展。综合报告指出:控制温室气体排放量的行动刻不容缓;能否减小全球变暖所带来的负面影响,将在很大程度上取决于人类在今后二三十年中在削减温室气体排放方面所作的努力和投资。这对国际社会和各国政府制定经济社会发展政策,适应和减缓气候变化有一定的指导和促进作用。 相似文献
17.
IPCC近期发布了第六次评估报告(AR6)第二工作组(WGII)报告《气候变化:影响、适应和脆弱性》,其中第7章“健康、福祉和不断变化的社区结构”评估了气候变化对人类健康和福祉的当前影响以及未来风险,提出了应对气候变化的解决方案和适应策略。报告明确指出,气候变化对气候敏感传染病和慢性非传染性疾病,以及精神心理健康等的威胁正在增加,并表现出复合暴露和连锁事件的风险,且预计未来风险还会随着全球变暖而进一步加剧。实施积极和有效的气候变化适应措施并快速采取行动,将会在很大程度上减少和避免气候变化导致的健康风险,但不会完全消除所有风险。报告凸显了气候变化健康影响的严重性和紧迫性,未来需要加大对健康领域适应气候变化的科技创新、规划、行动和资金支持。 相似文献
18.
情景是气候变化研究的重要工具。为了科学支撑气候变化科学评估和研究,2010年政府间气候变化专门委员会(IPCC)提出了共享社会经济路径(Shared Socioeconomic Pathways,SSPs)。作为从社会经济变化视角构建的气候情景,SSPs促进了气候变化科学基础、影响、脆弱性、风险、适应和减缓等学科的综合研究。本文介绍了SSPs情景研发与应用过程;阐述了全球和中国的人口经济、土地利用、能源和碳排放的模拟和预估主要成果;探讨了全球和中国碳排放路径及其与“双碳”目标的关系;并展望了SSPs应用前景。 相似文献
19.
IPCC第六次评估报告(AR6)第一工作组报告(简称报告)中提供了对气候系统和气候变化的最新物理解释,整合了来自古气候和仪器观测的多项证据、过程理解以及全球和区域的气候模拟,记录了气候科学的最新进展。报告旨在提供有关过去气候如何变化的事实,揭示人类活动在这些变化中所起的作用,并根据不同社会经济路径的排放情景对未来气候进行了预估。这些结果对于政策制定者来说很重要。它有助于减缓气候变化、根据灾害管理框架制定区域适应计划以及开展即将到来的2023年全球综合评估。本文聚焦该报告的背景、架构和方法,并介绍当前气候变化评估的主要进展。结果显示,与以前的评估报告相比,AR6提供了更综合实用的信息和认识,更加强调了区域气候变化,以及更好地约束了气候敏感度的估计。该报告最重要的结论之一是人类活动对气候变化的影响已从科学认知演变为不争的事实。 相似文献
20.
IPCC第六次评估报告第三工作组报告交通运输章评估了该行业温室气体的减缓措施和转型路径。1990年以来,全球交通运输部门温室气体排放量一直增长,2019年已经成为全球第四大排放源,仅次于电力、工业以及农业、林业和其他土地利用(AFOLU)部门,其增长速度超过其他最终用途行业。报告强调了交通减排的重要性,主要的减排措施包括三方面:首先是减少需求,其次是对陆路交通部门进行脱碳,再次是对重型的水运和航空运输等进行脱碳。评估的多种燃料和动力技术处于不同的商业化水平,它们未来应用时间节点和规模各有不同。对于陆路交通来说,需要继续推进电气化;对于水运和航空来说需要进一步应用低碳技术,并优化国际管理机制;从中长期来看,所有部门都需要强调运输服务需求管理和运输效率的提升。情景相关的文献评述分析表明,全球温升目标要求全经济部门采取减排措施,特别是交通电气化的减排潜力在很大程度上取决于电力部门的脱碳。如果不采取减缓措施,交通运输部门排放在2050年可能增长65%(相对2010年);如果成功实施减缓战略,该部门的排放量将减少68%,这也与全球1.5℃温升目标要求相一致。关于这些减缓措施的分析和判断,对我国交通运输部门实现碳中和与碳达峰具有重要的参考意义。 相似文献