References

1. E.F. Papavasileiou, P. Tzouvanas, Tourism carbon kuznets-curve hypothesis: a systematic literature review and a paradigm shift to a corporation-performance perspective, J. Travel Res., 60 (2021) 896–911.
2. Y.Y. Sun, Global value chains and national tourism carbon competitiveness, J. Travel Res., 58 (2019) 808–823.
3. J. Zhang, Impacts of the emissions policies on tourism: an important but neglected aspect of sustainable tourism, J. Hospitality Tourism Manage., 47 (2021) 453–461.
4. A. Rico, J. Martínez-Blanco, M. Montlleó, G. Rodríguez, N. Tavares, A. Arias, J. Oliver-Solà, Carbon footprint of tourism in Barcelona, Tourism Manage., 70 (2019) 491–504.
5. J. Vourdoubas, Mitigation and compensation of CO₂ emissions due to international tourism in the Island of Crete, Greece, Energy Environ. Res., 9 (2019) 61–69.
6. X. Tian, F. Bélaïd, N. Ahmad, Exploring the nexus between tourism development and environmental quality: role of renewable energy consumption and income, Struct. Change Econ. Dyn., 56 (2021) 53–63.
7. F. Ahmad, M.U. Draz, L. Su, A. Rauf, Taking the bad with the good: the nexus between tourism and environmental degradation in the lower middle-income Southeast Asian economies, J. Cleaner Prod., 233 (2019) 1240–1249.
8. Y. Wang, L. Wang, H. Liu, Y. Wang, The robust causal relationships among domestic tourism demand, carbon emissions, and economic growth in China, SAGE Open, 11 (2021) 423–432.
9. S.S. Akadiri, G. Uzuner, A.C. Akadiri, T.T. Lasisi, Environmental Kuznets curve hypothesis in the case of tourism island states: the moderating role of globalization, Int. J. Finance Econ., 26 (2021) 2846–2858.
10. K.G. Debbage, N. Debbage, Aviation carbon emissions, route choice and tourist destinations: are non-stop routes a remedy?, Ann. Tourism Res., 79 (2019) 102765, doi: 10.1016/j.annals.2019.102765.
11. X. Li, X. Yao, Can energy supply-side and demand-side policies for energy saving and emission reduction be synergistic?, Energy Policy, 138 (2020) 111232, doi: 10.1016/j.enpol.2019.111232.
12. J. Wu, B. Li, Spatio-temporal evolutionary characteristics of carbon emissions and carbon sinks of marine industry in China and their time-dependent models, Mar. Policy, 135 (2022) 104879, doi: 10.1016/j.marpol.2021.104879.
13. Y.J. Zhang, The CO₂ emission efficiency, reduction potential and spatial clustering in China’s industry: evidence from the regional level, Appl. Energy, 174 (2020) 213–223.
14. Z. Zhang, B. Lin, Energy conservation and emission reduction of Chinese cement industry: from a perspective of factor substitutions, Emerging Mark. Financ. Trade, 55 (2019) 967–979.
15. B. Hu, B. Huang, Z. Liu, H. Guo, Z. Chen, L. Shi, Optimization model of carbon footprint of fresh products in cold chain from the energy conservation and emission reduction perspective, Math. Probl. Eng., 11 (2021) 1–11, doi: 10.1155/2021/5559021.
16. Y. Hu, S. Ren, Y. Wang, X. Chen, Can carbon emission trading scheme achieve energy conservation and emission reduction? Evidence from the industrial sector in China, Energy Econ., 85 (2020) 104590, doi: 10.1016/j.eneco.2019.104590.
17. S.F. Peter, S. Joseph, Greenhouse gas inventorying: estimation of carbon dioxide emissions from road transport in a central district in Kerala, India, Clim. Change Environ. Sustainability, 7 (2019) 94–96.
18. E. Bottani, L. Tebaldi, I. Lazzari, G. Casella, A model for assessing economic and environmental sustainability dimensions of a fashion supply chain and a case study, IFAC-Papers OnLine, 52 (2019) 361–366.
19. Y. Ning, K. Chen, B. Zhang, T. Ding, F. Guo, M. Zhang, Energy conservation and emission reduction path selection in China: a simulation based on bi-level multi-objective optimization model, Energy Policy, 137 (2020) 111116, doi: 10.1016/j.enpol.2019.111116.
20. H.W. Song, B.R. Fan, Assessment of energy saving and emission reduction for Yangshan deep water port container water-water, Int. Core J. Eng., 5 (2019) 130–137.
21. S. Wen, B. Lin, Y. Zhou, Does financial structure promote energy conservation and emission reduction? evidence from China, Int. Rev. Econ. Financ., 76 (2021) 755–766.
22. X. Li, Design of energy-conservation and emission-reduction plans of China’s industry: evidence from three typical industries, Energy, 209 (2020) 118358, doi: 10.1016/j.energy.2020.118358.
23. Y. Wang, S. Yin, X. Fang, W. Chen, Interaction of economic agglomeration, energy conservation and emission reduction: evidence from three major urban agglomerations in China, Energy, 241 (2022) 122519, doi: 10.1016/j.energy.2021.122519.
24. L. Du, H. Zhao, H. Tang, P. Jiang, W. Ma, Analysis of the synergistic effects of air pollutant emission reduction and carbon emissions at coal‐fired power plants in China, Environ. Prog. Sustainable Energy, 40 (2021) 13630, doi: 10.1002/ep.13630.
25. S. Hou, L. Tang, J. Xue, J. Lu, Measurement and enhancement of environmental responsibility level of an energy enterprise in the context of energy transformation, Discrete Dyn. Nat. Soc., 1 (2021) 8294286, doi: 10.1155/2021/8294286.
26. Z. Wang, W. Wei, M. Calderon, X. Liao, Impacts of biofuel policy on the regional economy and carbon emission reduction in Yunnan, China, Energy Environ., 30 (2019) 930–948.
27. J. Zeng, L. Liu, X. Liang, S. Chen, J. Yuan, Evaluating fuel consumption factor for energy conservation and carbon neutral on an industrial thermal power unit, Energy, 232 (2021) 120887, doi: 10.1016/j.energy.2021.120887.
28. S. Wang, S. Gao, Y. Huang, C. Shi, Spatiotemporal evolution of urban carbon emission performance in China and prediction of future trends, J. Geogr. Sci., 30 (2020) 757–774.
29. X. Teng, L.C. Lu, Y.H. Chiu, Energy and emission reduction efficiency of China’s industry sector: a non-radial directional distance function analysis, Carbon Manage., 10 (2019) 333–347.
30. Y. Ning, K. Chen, B. Zhang, T. Ding, F. Guo, M. Zhang, Energy conservation and emission reduction path selection in China: a simulation based on bi-level multi-objective optimization model, Energy Policy, 137 (2020) 111116, doi: 10.1016/j.enpol.2019.111116.
31. Y. Zhou, C. Zhuo, F. Deng, Can the rise of the manufacturing value chain be the driving force of energy conservation and emission reduction in China?, Energy Policy, 156 (2021) 112408, doi: 10.1016/j.enpol.2021.112408.
32. S.X. Yang, T. Nie, C.C. Li, H. Lund, M.J. Kaiser, Research on the contribution of regional energy internet emission reduction considering time-of-use tariff, Energy, 239 (2022) 122170.1–122170.16.
33. J. Jiao, C. Chen, Y. Bai, Is green technology vertical spillovers more significant in mitigating carbon intensity? evidence from Chinese industries, J. Cleaner Prod., 257 (2020) 120354, doi: 10.1016/j.jclepro.2020.120354.