Analysis of the impacts of carbon dioxide emission on climate change

Research Article
Open access

Analysis of the impacts of carbon dioxide emission on climate change

Yuyang Jiao 1*
  • 1 Durham University    
  • *corresponding author yuyang.jiao@durham.ac.uk
Published on 9 October 2023 | https://doi.org/10.54254/2753-8818/7/20230123
TNS Vol.7
ISSN (Print): 2753-8826
ISSN (Online): 2753-8818
ISBN (Print): 978-1-83558-015-8
ISBN (Online): 978-1-83558-016-5

Abstract

In recent years, the global excess carbon dioxide emission had caused severe climate change and increase in global temperature since the start of Industrial Revolution. To be specific, extreme weathers have been observed all over the world due to global warming. Therefore, it is of vital importance that the causes of excess carbon dioxide emission should be studied along with respective mitigating strategies. On this basis, this study aims to study and investigate the global history and causes of excess carbon dioxide emission, as well as the physical chemical mechanism of greenhouse effect. In detail, case analysis of excess carbon dioxide emission in China is provided with the relevant negative impact of climate change in China. According to the analysis, policies adopted by the Chinese government and their efficiencies and corresponding suggestions are also discussed in the meantime. Overall, these results shed light on guiding further exploration of carbon dioxide emission on climate change.

Keywords:

carbon dioxide emission, greenhouse effect, global warming, climate change in China, relevant policies in China

Jiao,Y. (2023). Analysis of the impacts of carbon dioxide emission on climate change. Theoretical and Natural Science,7,120-127.
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References

[1]. T. M. Gür, Prog. in Ener. & Comb. Sci. 89, 100965 (2022).

[2]. Rahmstorf, S., & Coumou, D. Increase of extreme events in a warming world. Proceedings of the National Academy of Sciences, 108(44), 17905-17909 (2011)

[3]. Knutti, R., & Rogelj, J. The legacy of cumulative carbon emissions. Nature Climate Change, 8(7), 563-568 (2018).

[4]. Climate Change 2014: Synthesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. IPCC. (2014).

[5]. S. Fecht, How Exactly Does Carbon Dioxide Cause Global Warming. Columbia Climate School. https://lamont. columbia. edu/news/how-exactly-does-carbon-dioxide-cause-global-warming (accessed on 25 February 2021).

[6]. René MOREAU, Overview of the physics of the atmospheric greenhouse effect, Encyclopedia of the Environment, Earth’s Atmosphere and Gaseous Envelope.

[7]. Revelle, HE Suess, Carbon dioxide exchange between atmosphere and ocean and the question of an increase of atmospheric CO2 during the past decades. Tellus 9, 18–27 (1957).

[8]. J. M. Wallace, P. V. Hobbs, Atmospheric science: an introductory survey (Vol. 92) (Elsevier London, 2006).

[9]. M. R. Allen, W. J. Ingram, Nature 419, 224–232 (2002).

[10]. E. J. Burke, S. J. Brown, N. Christidis, J Hyd. 7, 1113–1125 (2006).

[11]. B. R. Parizek, R. B. Alley, Quat Sci Rev 23, 1013–1027 (2004).

[12]. H. Ritchie, M. Roser, P. Rosado, CO₂ and Greenhouse Gas Emissions, Published online at OurWorldInData.org. Retrieved from: 'https://ourworldindata.org/co2-and-greenhouse-gas-emissions' [Online Resource] (2020).

[13]. International Energy Agency, CO2 emissions from fuel combustion. https://westore.idea.org/co2-emissions-from-fuel-combustion-2018-highlights, (2018).

[14]. K. Fang, S. J. Davis, L. Sun, K. Hubacek, Nay. Commun. 6, 7714 (2015).

[15]. J. Y. Fang, Ecography 35, 1059–1071 (2012).

[16]. Q. Du, M. Zhang, S. Wang, C. Che, R. Ma, Z. Ma, Col. of Geo. and Env. Sci., 1, 730070, China (2019).

[17]. Chinese Academy of Sciences, Causes of Extreme Weather and Climate Events in China During 2020/21, PHYS.ORG, (28th April 2021).

[18]. National Development and Reform Commission, The energy production and consumption revolution strategy (2016-2030).

[19]. X. Zheng, Y. Lu, J. Yuan, et al., Roy. Swe. Aca. of Sci., Stockholm, Sweden (2019).

[20]. Q. Liu, Adv. Clim. Chang. Res. 9, 27–33 (2018).

Cite this article

Jiao,Y. (2023). Analysis of the impacts of carbon dioxide emission on climate change. Theoretical and Natural Science,7,120-127.

Data availability

The datasets used and/or analyzed during the current study will be available from the authors upon reasonable request.

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About volume

Volume title: Proceedings of the 2023 International Conference on Environmental Geoscience and Earth Ecology

ISBN:978-1-83558-015-8(Print) / 978-1-83558-016-5(Online)
Editor:Florian Nuţă
Conference website: https://www.icegee.org/
Conference date: 27 August 2023
Series: Theoretical and Natural Science
Volume number: Vol.7
ISSN:2753-8818(Print) / 2753-8826(Online)

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References

[1]. T. M. Gür, Prog. in Ener. & Comb. Sci. 89, 100965 (2022).

[2]. Rahmstorf, S., & Coumou, D. Increase of extreme events in a warming world. Proceedings of the National Academy of Sciences, 108(44), 17905-17909 (2011)

[3]. Knutti, R., & Rogelj, J. The legacy of cumulative carbon emissions. Nature Climate Change, 8(7), 563-568 (2018).

[4]. Climate Change 2014: Synthesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. IPCC. (2014).

[5]. S. Fecht, How Exactly Does Carbon Dioxide Cause Global Warming. Columbia Climate School. https://lamont. columbia. edu/news/how-exactly-does-carbon-dioxide-cause-global-warming (accessed on 25 February 2021).

[6]. René MOREAU, Overview of the physics of the atmospheric greenhouse effect, Encyclopedia of the Environment, Earth’s Atmosphere and Gaseous Envelope.

[7]. Revelle, HE Suess, Carbon dioxide exchange between atmosphere and ocean and the question of an increase of atmospheric CO2 during the past decades. Tellus 9, 18–27 (1957).

[8]. J. M. Wallace, P. V. Hobbs, Atmospheric science: an introductory survey (Vol. 92) (Elsevier London, 2006).

[9]. M. R. Allen, W. J. Ingram, Nature 419, 224–232 (2002).

[10]. E. J. Burke, S. J. Brown, N. Christidis, J Hyd. 7, 1113–1125 (2006).

[11]. B. R. Parizek, R. B. Alley, Quat Sci Rev 23, 1013–1027 (2004).

[12]. H. Ritchie, M. Roser, P. Rosado, CO₂ and Greenhouse Gas Emissions, Published online at OurWorldInData.org. Retrieved from: 'https://ourworldindata.org/co2-and-greenhouse-gas-emissions' [Online Resource] (2020).

[13]. International Energy Agency, CO2 emissions from fuel combustion. https://westore.idea.org/co2-emissions-from-fuel-combustion-2018-highlights, (2018).

[14]. K. Fang, S. J. Davis, L. Sun, K. Hubacek, Nay. Commun. 6, 7714 (2015).

[15]. J. Y. Fang, Ecography 35, 1059–1071 (2012).

[16]. Q. Du, M. Zhang, S. Wang, C. Che, R. Ma, Z. Ma, Col. of Geo. and Env. Sci., 1, 730070, China (2019).

[17]. Chinese Academy of Sciences, Causes of Extreme Weather and Climate Events in China During 2020/21, PHYS.ORG, (28th April 2021).

[18]. National Development and Reform Commission, The energy production and consumption revolution strategy (2016-2030).

[19]. X. Zheng, Y. Lu, J. Yuan, et al., Roy. Swe. Aca. of Sci., Stockholm, Sweden (2019).

[20]. Q. Liu, Adv. Clim. Chang. Res. 9, 27–33 (2018).

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