Changing urban forms and carbon dioxide emissions in China: A case study of 30 provincial capital cities

Fang, Chuanglin; Wang, Shuanjin; Li, Guangdong

doi:10.1016/j.apenergy.2015.08.095

Cited by 327 publications

(108 citation statements)

References 59 publications

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“…As indicated by Figure 3, both the absolute amount and density of infrastructure's material stocks have reached a relatively high level in the eastern region, comparing to those in the central and western regions. It has also been confirmed by our panel analysis that the increase of infrastructure stock density will reduce CO 2 emissions in the eastern region, which is consistent with the findings in many existing studies that a spatially compact urban form usually consumes less energy [9,37,38]. Moreover, as shown in Figure 4, in some highly urbanized areas such as Yangtze River Delta (YRD), Pearl River Delta (PRD), and Beijing-Tianjin-Hebei (BTH), their economic development has reached a high level and thus had a large amount of infrastructure stocks and high stock density.…”

Section: Discussion and Policy Implicationssupporting

confidence: 77%

“…For example, Poumanyvong and Kaneko [7] suggested that the impact of urbanization on CO 2 emissions was positive for all income groups, while Sharma et al [8] held the opposite opinion that urbanization has a negative and statistically significant impact on CO 2 emissions for the global panel. Fang et al [9] selected a series of urban form indicators and found that increased urban continuity will led to reductions in CO 2 emissions and that, conversely, increased urban shape complexity and exerted a positive influence in relation to CO 2 emissions. Yang et al [10] found that socio-economic development and increased income were the primary driving factors for the growth of per capita CO 2 emissions from transportation.…”

Section: Introductionmentioning

confidence: 99%

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The Impact of Infrastructure Stock Density on CO2 Emissions: Evidence from China Provinces

et al. 2017

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Abstract:Infrastructure not only plays an import role in socioeconomic development, but also results in a remarkable increase of CO 2 emissions. Based on a panel data analysis of 29 provinces in China from 1995 to 2013, we investigated the relationship between socioeconomic development and CO 2 emissions with special focus on the impact of infrastructure stock density in both the country and regional scales. The results confirmed that a 1% increase of material stocks in infrastructure per built-up area would lead to a 0.11% decrease in CO 2 emissions at the country level. The effect of infrastructure stock density on CO 2 emissions varied across regions, for which elasticity was −0.34, 0.06, and 0.14 for the eastern, central, and western region, respectively. In order to achieve a low-carbon and sustainable development, it is crucial to improve the spatial compactness of infrastructure in the future. Policy implications include upgrading the economic structure to a low-carbon one for the eastern region, accelerating the development of renewable energy infrastructure, and constructing and utilizing infrastructure in an energy-efficient way for the central and western regions.

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Section: Discussion and Policy Implicationssupporting

confidence: 77%

Section: Introductionmentioning

confidence: 99%

The Impact of Infrastructure Stock Density on CO2 Emissions: Evidence from China Provinces

et al. 2017

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“…Moreover, decelerating the economic growth process could be the most effective method of reducing energy consumption and mitigating global climate change. However, rapid economic growth and urbanization are currently the main goals of the Chinese government [50]. Therefore, the government faces the arduous challenge of continuously balancing increases in urban energy consumption and rapid economic growth with meeting environmental goals [25].…”

Section: Development Recommendationsmentioning

confidence: 99%

Investigation of the Impacts of Urban Land Use Patterns on Energy Consumption in China: A Case Study of 20 Provincial Capital Cities

Zhao

Thinh

2017

Sustainability

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Urban land use patterns are increasingly recognized as significant contributors to energy consumption. However, few studies have quantified the impacts of urban land use patterns on energy consumption. In this study, we analyzed the impacts of urban land use patterns on energy consumption for 20 provincial capital cities in China from 2000 to 2010. Landsat data and spatial metrics were first used to quantify the urban land use patterns, and then city-level energy consumption was estimated based on nighttime light (NTL) data and statistical provincial energy consumption data. Finally, a panel data analysis was applied to investigate the impacts of urban land use patterns on energy consumption. Our results showed that NTL data were effective for estimating energy consumption at the city level and indicated that accelerated energy consumption was caused by increases in the irregularity of urban land forms and the expansion of urban land. Moreover, significant regional differences in the impacts of urban land use patterns on energy consumptions were identified. Our results provide insights into the relationship between urban growth and energy consumption and may support effective planning towards sustainable development.

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“…This is questionable due to its multiple facets (e.g., urban area, urban density, residential dwelling spatial structure) across countries and geographical regions. In addition, many recent empirical studies have found that some urban form variables (e.g., urban area, residential density, housing sizes and types, urban structure) can have significant impacts on environment (i.e., carbon emission, energy use) (Boyko and Cooper, 2011;Fang et al, 2015;Lee and Lee, 2014;Norman et al, 2006;Perkins et al, 2009;Reingewertz, 2012 ;Yang et al, 2015;Yin et al, 2015). Therefore, further studies with careful considerations of the different urban forms become imperative.…”

Section: Introductionmentioning

confidence: 99%

Does urbanization lead to less energy use on road transport? Evidence from municipalities in Norway

Liu

Huang

Kaloudis

et al. 2017

Transportation Research Part D: Transport and Environment

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The relationship between urbanization, energy use, and CO2 emissions has been extensively studied in recent years, however little attention paid to the differences in urban forms. Previous studies implicitly assume that the urban form is homogenous across different urban areas. Such an assumption is questionable as urban form can have many different facets. This paper investigates the effects of urbanization on the road transport energy use by considering different urban forms from a dataset of (3) there is a non-linear (quadratic) relationship between road energy use per capita and urban population. This implies that an increase in total municipality population over a specific turning point can result in a decrease in road energy use per capita. However, (4) the ratio of urban residential buildings with private gardens has a negative and significant influence on road transport energy use.This implies that there may be a trade-off between compact and sprawl city development strategies, highlighting that sustainable energy use requires further investigation.

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Changing urban forms and carbon dioxide emissions in China: A case study of 30 provincial capital cities

Cited by 327 publications

References 59 publications

The Impact of Infrastructure Stock Density on CO2 Emissions: Evidence from China Provinces

The Impact of Infrastructure Stock Density on CO2 Emissions: Evidence from China Provinces

Investigation of the Impacts of Urban Land Use Patterns on Energy Consumption in China: A Case Study of 20 Provincial Capital Cities

Does urbanization lead to less energy use on road transport? Evidence from municipalities in Norway

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