将全球高分辨率缩小比例的化石燃料二氧化碳排放数据集与全球14个城市基于当地清单的估计进行比较

IF 3.9 3区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES Carbon Balance and Management Pub Date : 2020-05-19 DOI:10.1186/s13021-020-00146-3
Jingwen Chen, Fang Zhao, Ning Zeng, Tomohiro Oda
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引用次数: 17

摘要

编制城市排放清单是评估《巴黎气候协定》规定的地方缓解气候变化努力的一项全新挑战。一些城市已经开始编制环境影响评价,通常遵循全球社区协议。然而,由于环境影响评价的编制方式(数据收集和排放计算)和报告方式(部门定义和直接与消费),往往难以系统地进行审查。此外,由于缺乏空间排放程度,这种EI估计不容易适用于利用建模和观测进行客观评价。科学界使用的城市排放估算通常基于缩小的网格化环境影响指数,而缩小的城市水平排放的准确性没有得到充分评估。本研究试图在城市层面上评估缩减排放的效用。我们收集了全球14个主要城市的环境影响指数,并将其与科学界常用的全球高分辨率化石燃料二氧化碳排放数据产品(ODIAC)的估算值进行了比较。我们对估计数字进行了必要的调整,以使我们的比较尽可能合理。我们发现,这两种方法对上海和德里的全区域排放估算非常接近(<?10%的差异),并在一半的被调查城市达到了良好的一致性(<?30%的差异)。ODIAC数据集显示,与开普敦(+ 148%)、圣保罗(+ 43%)和北京(+ 40%)的库存估算值相比,排放量要高得多,这可能与夜间照明强度与人类活动之间的相关性较差有关,例如发展中国家的高排放和低照明工业园区。另一方面,ODIAC在曼哈顿(62%)、纽约市(45%)、华盛顿特区(42%)和多伦多(33%)的估算值较低,这些城市都位于北美,这可能是由于ODIAC基于夜灯的方法低估了住宅供暖排放,而在库存估算的统计数据中高估了地面运输排放。相对较好的一致性表明,ODIAC数据产品有可能作为城市级CO2排放先验估计的第一来源,这对大气CO2反演建模和与卫星CO2观测比较具有价值。我们对14个城市的境内排放估计数的汇编有助于建立一个准确的全球境内城市碳排放数据集,这是未来负责任的地方气候减缓政策所必需的。
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Comparing a global high-resolution downscaled fossil fuel CO2 emission dataset to local inventory-based estimates over 14 global cities

Compilation of emission inventories (EIs) for cities is a whole new challenge to assess the subnational climate mitigation effort under the Paris Climate Agreement. Some cities have started compiling EIs, often following a global community protocol. However, EIs are often difficult to systematically examine because of the ways they were compiled (data collection and emission calculation) and reported (sector definition and direct vs consumption). In addition, such EI estimates are not readily applicable to objective evaluation using modeling and observations due to the lack of spatial emission extents. City emission estimates used in the science community are often based on downscaled gridded EIs, while the accuracy of the downscaled emissions at city level is not fully assessed.

This study attempts to assess the utility of the downscaled emissions at city level. We collected EIs from 14 major global cities and compare them to the estimates from a global high-resolution fossil fuel CO2 emission data product (ODIAC) commonly used in the science research community. We made necessary adjustments to the estimates to make our comparison as reasonable as possible. We found that the two methods produce very close area-wide emission estimates for Shanghai and Delhi (<?10% difference), and reach good consistency in half of the cities examined (<?30% difference). The ODIAC dataset exhibits a much higher emission compared to inventory estimates in Cape Town (+?148%), Sao Paulo (+?43%) and Beijing (+?40%), possibly related to poor correlation between nightlight intensity with human activity, such as the high-emission and low-lighting industrial parks in developing countries. On the other hand, ODIAC shows lower estimates in Manhattan (??62%), New York City (??45%), Washington D.C. (??42%) and Toronto (??33%), all located in North America, which may be attributable to an underestimation of residential emissions from heating in ODIAC’s nightlight-based approach, and an overestimation of emission from ground transportation in registered vehicles statistics of inventory estimates.

The relatively good agreement suggests that the ODIAC data product could potentially be used as a first source for prior estimate of city-level CO2 emission, which is valuable for atmosphere CO2 inversion modeling and comparing with satellite CO2 observations. Our compilation of in-boundary emission estimates for 14 cities contributes towards establishing an accurate inventory in-boundary global city carbon emission dataset, necessary for accountable local climate mitigation policies in the future.

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来源期刊
Carbon Balance and Management
Carbon Balance and Management Environmental Science-Management, Monitoring, Policy and Law
CiteScore
7.60
自引率
0.00%
发文量
17
审稿时长
14 weeks
期刊介绍: Carbon Balance and Management is an open access, peer-reviewed online journal that encompasses all aspects of research aimed at developing a comprehensive policy relevant to the understanding of the global carbon cycle. The global carbon cycle involves important couplings between climate, atmospheric CO2 and the terrestrial and oceanic biospheres. The current transformation of the carbon cycle due to changes in climate and atmospheric composition is widely recognized as potentially dangerous for the biosphere and for the well-being of humankind, and therefore monitoring, understanding and predicting the evolution of the carbon cycle in the context of the whole biosphere (both terrestrial and marine) is a challenge to the scientific community. This demands interdisciplinary research and new approaches for studying geographical and temporal distributions of carbon pools and fluxes, control and feedback mechanisms of the carbon-climate system, points of intervention and windows of opportunity for managing the carbon-climate-human system. Carbon Balance and Management is a medium for researchers in the field to convey the results of their research across disciplinary boundaries. Through this dissemination of research, the journal aims to support the work of the Intergovernmental Panel for Climate Change (IPCC) and to provide governmental and non-governmental organizations with instantaneous access to continually emerging knowledge, including paradigm shifts and consensual views.
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