RESUMO
With the increase in haze pollution in Chinese cities, answering the question of whether using a high-speed rail (HSR) as a green and efficient transportation system can alleviate haze pollution in China has become a research hotspot. This study empirically tests the impact of HSR network construction on haze pollution and its spatial spillover effects. (1) The construction of a HSR would have a mitigation effect on haze pollution in node cities and surrounding cities, and the more developed the HSR is, the more significant that this effect would be. (2) Haze pollution persists for a long time, the haze pollution from the previous year may have a positive promoting effect on the haze pollution in the following year. (3) The use of a HSR reduces haze pollution by replacing traditional road transportation and promoting industrial structure upgrading and technological innovation. (4) The inhibitory effect of HSR use on haze pollution varies due to regional differences and variation in city size.
Assuntos
Poluição do Ar , Poluição do Ar/análise , Modelos Econométricos , Poluição Ambiental , Cidades , China , Rede Social , Desenvolvimento EconômicoRESUMO
Under China's "new normal," urban agglomeration (UA) has become a new direction for urbanization and regional coordinated development. The urban agglomeration in the middle reaches of the Yangtze River (MRYR-UA) is one of the locations where the haze concentration surpasses the Chinese standard. This study analyzes panel data from 284 Chinese prefecture-level cities from 2005 to 2018 to undertake an empirical investigation based on the MRYR-UA as a quasi-natural experiment for its development planning strategy. The results show that the establishment of the MRYR-UA greatly reduced regional haze pollution. In this paper, social, economic, and natural factors are considered: industrial structure, human capital, and population density can reduce haze pollution, while openness exacerbates urban pollution, confirming the pollution haven hypothesis. The increase in wind speed and rainfall can reduce the concentration of haze. The mediating effect test shows that economic, technological, and structural effects can alleviate haze pollution in the MRYR-UA. The heterogeneity analysis reveals that the number of enterprises decreased in core cities but significantly increased in edge cities, indicating that core cities transferred industrial enterprises to edge cities under the pressure of environmental regulation, resulting in the internal transfer of pollution.