[1] 张诗青, 王建伟, 郑文龙.中国交通运输碳排放及影响
因素时空差异分析[J]. 环境科学学报, 2017, 37(12):
4787-4797. [ZHANG S Q, WANG J W, ZHENG W L.
Spatio-temporal difference of transportation carbon
emission and its influencing factors in China[J]. Acta
Scientiae Circumstantiae, 2017, 37(12): 4787-4797.]
[2] 中共中央国务院印发《交通强国建设纲要》[N]. 北京:
人 民 日 报, 2019. [The Central Committee of the
Communist Party of China and the State Council issued
the “Outline for Building a country with strong
transportation network”[N]. Beijing: The People's Daily,
2019.]
[3] PARRY I W H, SMALL K A. Should urban transit
subsidies be reduced?[J]. American Economic Review,
2009, 99(3): 700-724.
[4] POOJA S, CHANI P S, PARIDA M. Sustainable transport
strategies: An approach towards low carbon cities[J].
Journal of Environmental Research and Development,
2013,7(4): 1450-1458.
[5] HICKMANR, ASHIRUO, BANISTER D. Transport and
climate change: Simulating the options forcarbon
reduction in London[J]. Transport Policy, 2010, 17(2):
110-125.
[6] LI M W, ZHAO H J. Contribution of low-carbon transport
policy to the improvement of urban traffic ecological
environment[J]. Nature Environment and Pollution
Technology, 2021, 20(1): 363-370.
[7] CHATZIIOANNOU I, ALVAREZ LCAZA L,
BAKOGIANNIS E, et al. A structural analysis for the
categorization of the negative externalities of transport
and the hierarchical organization of sustainable
mobility's strategies[J]. Sustainability, 2020, 12(15):
6011.
[8] ARIOLI M, FULTON L, LAH O. Transportation
strategies for a 1.5 °C world: A comparison of four
countries[J]. Transportation Research Part D, 2020, 87:
102526.
[9] 王波, 张海霞. 广州市低碳交通发展策略研究[J]. 城市
交 通, 2018, 16(4): 74- 80. [WANG B, ZHANG H X.
Development strategies of low carbon transportation in
Guangzhou[J]. Urban Transport of China, 2018, 16(4):
74-80.]
[10] 高怡. 城市低碳交通的政策选择方法研究[D]. 西 安 :长 安 大 学, 2014. [GAO Y. Research of policy
choice method for urban low-carbon transport[D]. Xi'an:
Chang'an University, 2014.]
[11] 陈铭, 孟咏文.低碳化城市交通发展战略模式研究: 基
于苏州市数据的实证分析[J]. 科技管理研究, 2015, 35
(11): 235-240. [CHEN M, MENG Y W. Research on the
strategy mode of low-carbon urban transportation: A case
study based on the data of Suzhou city[J]. Science and
Technology Management Research, 2015, 35(11): 235-
240.]
[12] 赵继敏.超大城市交通碳减排的激励机制与实现途径
[J]. 生 态 经 济, 2021, 37(9): 34- 39. [ZHAO J M.
Incentive mechanism and realization of carbon emission
reduction in meqacities[J]. Ecological Economy, 2021, 37
(9): 34-39.]
[13] WELLA R B. Sampler of commentaries on methods and
techniques that could be used in making decisions about
identifying, adopting, or implementing sustainable
transport practices, research report 3[R]. Ottawa:
Transport Canada, 2009.
[14] 张毅, 张丽, 万丽娟, 等. 基于机动车政策的城市交通
可持续发展建模研究[J]. 公路交通科技, 2015, 32(6):
142-147, 153. [ZHANG Y, ZHANG L, WAN L J, et al.
Modelling of sustainable development of urban traffic
based on vehicle policy[J]. Journal of Highway and
Transportation Research and Development, 2015, 32(6):
142-147, 153.]
[15] 高妍南, 郝晴. 低碳经济下城市交通系统动力学模型
及政策仿真[J]. 公路交通科技, 2021, 38(3): 96-104.
[GAO Y N, HAO Q. A system dynamics model and
simulation of policy for urban traffic system under low
carbon economy[J]. Journal of Highway and
Transportation Research and Development, 2021, 38(3):
96-104.]
[16] WEN L, BAI L. System dynamics modeling and policy
simulation for urban traffic: A case study in Beijing[J].
Environmental Modeling & Assessment, 2017, 22: 363-
378.
[17] 王继峰, 陆化普, 彭唬. 城市交通系统的 SD 模型及其
应用[J]. 交通运输系统工程与信息, 2008, 8(3): 83-89.
[WANG J F, LU H P, PENG H. System dynamics model
of urban transportation system and its application[J].
Journal of Transportation Systems Engineering and
Information Technology, 2008, 8(3): 83-89.]
[18] 杨浩雄, 李金丹, 张浩, 等. 基于系统动力学的城市交
通拥堵治理问题研究[J]. 系统工程理论与实践, 2014,
34(8): 2135- 2143. [YANG H X, LI J D, ZHANG H,
et al. Research on the governance of urban traffic jam
based on system dynamics[J]. Systems EngineeringTheory & Practice, 2014, 34(8): 2135-2143.]
[19] WANG P, YANG M, MAMARIL K, et al. Explaining the
slow progress of coal phase-out: The case of GuangdongHong Kong-Macao Greater Bay Region[J]. Energy Policy,
2021, 155: 112331.
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