仇保兴,2021. 推进以城市碳中和为主体的五大良性变革 [EB/OL].(2021-11-25)[2022-05-10]. http://www.eeo.com.cn/autozt/df439b8d-a18b-4f4b-923f-efb51cf53c4d/.
国家发展改革委,工业和信息化部,自然资源部,等,2019. 绿色产业指导目录(2019年版)[Z]. 北京.
蒋小谦,房伟权,庄贵阳,等,2014. 城市温室气体核算工具指南(测试版1.0)[EB/OL]. (2017-08-26)[2022-05-10]. https://www.docin.com/p-2002925389.
html.
王绍博,2021. “碳中和”道路上的隐藏机遇[R]. 海南:海南省绿色金融研究院.
徐丽笑,2018. 城市碳排放核算研究进展[J]. 经济统计学(季刊)(2):15-37.〔XU L X, 2018. A brief summary on
city carbon emission accounting[J]. China Economic Statistics Quarterly (2): 15-37.〕
张琳利,金雅宁,2021. 北京发布碳核算地方标准, 调整多行业边界和缺省值[Z]. (2021-01-15)[2022-05-10].
https://mp.weixin.qq.com/s/tUe-LfmSEOCs0SqkhO3J_w.
ATHANASSIADIS A, CHRISTIS M, BOUILLARD P,
et al, 2018. Comparing a territorial-based and a consumption-based approach to assess the local and
global environmental performance of cities[J]. Journal of Cleaner Production,
173: 112-123.
ATKINSON G, HAMILTON K, RUTA G, et al,
2011. Trade in ‘virtual carbon’: empirical results and
implications for policy[J]. Global Environmental Change, 21(2): 563-574.
BATTY M, FERGUSON P, 2011. Defining city
size[J]. Environment and Planning B: Planning and Design, 38(5): 753-756.
British Standards Institution (BSI), 2013.
PAS 2070: 2013 Specification for the assessment of greenhouse gas emissions of
a city[M]. London: BSI Standards Limited.
British Standards Institution (BSI), 2014.
Application of PAS 2070-London, United Kingdom: an assessment of greenhouse gas
emissions of a city[M]. London: BSI Standards Limited.
CAI B F, GUO H X, CAO L B, et al, 2018.
Local strategies for China’s carbon mitigation: an investigation of Chinese
city-level CO2 emissions[J]. Journal of Cleaner Production, 178: 890-902.
CAI B F, LU J, WANG J N, et al, 2019. A
benchmark city-level carbon dioxide emission inventory for China in 2005[J].
Applied Energy, 233-234: 659-673.
CHAVEZ A, RAMASWAMI A, 2013. Articulating a
trans-boundary infrastructure supply chain greenhouse gas emission footprint
for cities: mathematical relationships and policy relevance[J]. Energy Policy,
54: 376-384.
CHAVEZ A, RAMASWAMI A, 2011. Progress
toward low carbon cities: approaches for transboundary GHG emissions’
footprinting[J]. Carbon Management, 2(4): 471-482.
CHEN G W, SHAN Y L, HU Y C, et al, 2019.
Review on city-level carbon accounting[J]. Environmental Science and
Technology, 53(10): 5545-5558.
DHAKAL S, 2009. Urban energy use and carbon
emissions from cities in China and policy implications[J]. Energy Policy,
37(11): 4208-4219.
European Environment Agency (EEA), 2013.
European Union CO2 emissions: different accounting perspectives[M].
Luxembourg: Publications Office of the European Union.
HILLMAN T, RAMASWAMI A, 2010. Greenhouse
gas emission footprints and energy use benchmarks for eight U.S. cities[J].
Environmental Science and Technology, 44(6): 1902-1910.
HOWARD A, TANG M, YEE L P, et al, 2021. A
framework for avoided emissions analysis uncovering climate opportunities not
captured by conventional metrics [EB/OL]. [2022-05-10]. Schroders and GIC. https://www.schroders.com/en/uk/tp/markets2/markets/a-framework-for-avoided-emissions-analysis/.
HU Y C, LIN J Y, CUI S H, et al, 2016.
Measuring urban carbon footprint from carbon flows in the global supply chain[J].
Environmental Science and Technology, 50(12): 6154-6163.
Intergovernmental Panel on Climate Change (IPCC),
2006. Guidelines for national greenhouse gas inventories[M]. Hayama: Institute
for Global Environmental Strategies (IGES).
International Council for Local
Environmental Initiatives (ICLEI), 2009. International local government GHG
emissions analysis protocol, version 1.0 (IEAP)[R].
KENNEDY C, STEINBERGER J, GASSON B, et al,
2009. Greenhouse gas emissions from global cities[J]. Environmental Science and
Technology, 43(19): 7297-7302.
KLAASSENL, STOLL C, 2021. Harmonizing
corporate carbon footprints[J]. Nature Communications, 12(1): 6149.
LARSEN H N, HERTWICH E G, 2009. The case
for consumption-based accounting of greenhouse gas emissions to promote local
climate action[J]. Environmental Science and Policy, 12(7): 791-798.
LIN J Y, HU Y C, CUI S H, et al, 2015.
Tracking urban carbon footprints from production and consumption perspectives[J].
Environmental Research Letters, 10(5): 054001.
LOMBARDI M, LAIOLA E, TRICASE C, et al,
2017. Assessing the urban carbon footprint: an overview[J]. Environmental
Impact Assessment Review, 66: 43-52.
LOMBARDI M, LAIOLA E, TRICASE C, et al,
2018. Toward urban environmental sustainability: the carbon footprint of Foggia’s
municipality[J]. Journal of Cleaner Production, 186: 534-543.
MI Z F, ZHANG Y K, GUAN D B, et al, 2016.
Consumption-based emission accounting for Chinese cities[J]. Applied Energy,
184: 1073-1081.
PARKER R W R, BLANCHARD J L, GARDNER C, et
al, 2018. Fuel use and greenhouse gas emissions of world fisheries[J]. Nature
Climate Change, 8(4): 333-337.
PETERS G P, 2008. From production-based to
consumption-based national emission inventories[J]. Ecological Economics,
65(1): 13-23.
PICHLER P P, ZWICKEL T, CHAVEZ A, et al,
2017. Reducing urban greenhouse gas footprints[J]. Scientific Reports, 7:
14659.
RAMASWAMI A, CHAVEZ A, EWING-THIEL J, et
al, 2011. Two approaches to greenhouse gas emissions foot-printing at the city-scale[J].
Environmental Science and Technology, 45(10): 4205-4206.
RAMASWAMI A, CHAVEZ A, 2013. What metrics
best reflect the energy and carbon intensity of cities? Insights from theory
and modeling of 20 US cities[J]. Environmental Research Letters, 8(3): 035011.
RAMASWAMI A, HILLMAN T, JANSON B, et al,
2008. A demand-centered, hybrid life-cycle methodology for city-scale
greenhouse gas inventories[J]. Environmental Science and Technology, 42(17):
6455-6461.
RAMASWAMI A, RUSSELL A G, CULLIGAN P J, et
al, 2016. Meta-principles for developing smart, sustainable, and healthy cities[J].
Science, 352(6288): 940-943.
RAMASWAMI A, TONG K K, CANADELL G J, et al,
2021. Carbon analytics for net-zero emissions sustainable cities[J]. Nature
Sustainability, 4(6): 460-463.
RAN L S, BUTMAN D E, BATTIN T J, et al,
2021. Substantial decrease in CO2 emissions from Chinese inland
waters due to global change[J]. Nature Communications, 12(1): 1730.
SETO K C, DHAKAL S, BIGIO A G, et al, 2014.
Human settlements, infrastructure and spatial planning[C]//Climate change 2014:
Mitigation of climate change. Working Group III Contribution to the Fifth
Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge:
Cambridge University Press.
SHAN Y L, GUAN D B, LIU J H, et al, 2017b.
Methodology and applications of city level CO2 emission accounts in
China[J]. Journal of Cleaner Production, 161: 1215-1225.
SHAN Y L, ZHENG H R, GUAN D B, et al,
2017a. Energy consumption and CO2 emissions in Tibet and its cities
in 2014[J]. Earth’s Future, 5(8): 854-864.
STEININGER K, LININGER C, DROEGE S, et al,
2014. Justice and cost effectiveness of consumption-based versus production-based
approaches in the case of unilateral climate policies[J]. Global Environmental
Change-Human and Policy Dimensions, 24: 75-87.
TONG K K, FANG A, BOYER D, et al, 2016.
Greenhouse gas emissions from key infrastructure sectors in larger and smaller
Chinese cities: method development and benchmarking[J]. Carbon Management, 7(1-2):
27-39.
United Nations Human Settlements Programme
(UN-HABITAT), 2011. Cities and climate change: global report on human
settlements 2011[M]. London: Earthscan Limited, Dunstan House.
United Nations Environment Programme (UNEP),
United Nations Human Settlements Programme (UN-HABITAT), World Bank, 2010.
International Standard for Determining Greenhouse Gas Emissions for Cities (Version
2.1)[R].
WANG H, ZHANG R, LIU M, et al, 2012. The
carbon emissions of Chinese cities[J]. Atmospheric Chemistry and Physics,
12(14): 6197-6206.
WIEDMANN T, 2009. A review of recent multi-region
input-output models used for consumption-based emission and resource accounting[J].
Ecological Economics, 69(2): 211-222.
World Resources Institute (WRI), C40 Cities
Climate Leadership Group (C40), International Council for Local Environmental
Initiatives(ICLEI), 2014. Global protocol for community-scale greenhouse gas
emission inventories: an accounting and reporting standard for cities[R]. [2022-05-10].
http://ghgprotocol.org/files/ghgp/GHGP_GPC.pdf.
XI F M, GENG Y, CHEN X D, et al, 2011.
Contributing to local policy making on GHG emission reduction through inventorying
and attribution: a case study of Shenyang, China[J]. Energy Policy, 39(10):
5999-6010.
YUAN J J, XIANG J, LIU D Y, et al, 2019.
Rapid growth in greenhouse gas emissions from the adoption of industrial-scale
aquaculture[J]. Nature Climate Change, 9(4): 318-322.
ZHANG
J Y, ZHANG Y, YANG Z F, et al, 2013. Estimation of energy-related carbon
emissions in Beijing and factor decomposition analysis[J]. Ecological
Modelling, 252: 258-265. |