Qingyao Huang scite author profile

Exploring the coordinated development process of people–land allocation in the urbanization process of urban agglomerations is of great significance to promote improvement of the urbanization development level and quality and realize the healthy development of urbanization. We took nine urban agglomerations in China as the research object and the coupling between urban expansion and population growth as the entry point. The overall coupling and the spatial coupling were used to reveal the people–land coupling relationship of nine urban agglomerations at different time periods. We found that both construction land and population within each urban agglomeration were in the stage of continuous growth, and the increase of both was similar and synchronous. The overall and spatial coupling between urban expansion and population growth is increasing. The expansion rate of construction land is a factor that influences the overall and spatial coupling between urban expansion and population growth, i.e., the greater the expansion rate of construction land, the higher the overall and spatial coupling between urban expansion and population growth. This study provides a new perspective for exploring the coupling between urban expansion and population growth and offers a new approach for studying the relationship between the two.

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Spatial heterogeneity of the thermal environment based on the urban expansion of natural cities using open data in Guangzhou, China

Yang

Chen

et al. 2019

Ecological Indicators

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Application of building geometry indexes to assess the correlation between buildings and air temperature

Yang

Chen

Zheng

et al. 2020

Building and Environment

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Spatial and Temporal Analysis on the Evolution Characteristics of Land Surface Temperature in the Pearl River Delta Region

Huang

Jing

2020

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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Abstract. With the rapid development of social economy and the continuous progress of urbanization in the Pearl River Delta region, the urban surface temperature had a significant change, which seriously affects people's normal life. The MOD11B3 LST_Day_6km product and other auxiliary data were selected as data sources, and the temperature-standard deviation method, the profile method and the coefficient method were used to analyze the spatial and temporal evolution characteristics of land surface temperature in the Pearl River Delta Region from 2000–2015. The research results showed that: (1) the maximum surface temperature from 2000 to 2015 in June, July and August showed an upward trend, while the minimum temperature showed a fluctuation downward trend, and the average temperature changed gently. (2) the surface temperature had a spatial pattern of low on all sides, and high in the middle. The high temperature zone were mainly distributed in Guangzhou, Dongguan, Foshan and Shenzhen cities and the surrounding areas. And the high temperature areas were more concentrated and showed a spreading direction of East and South. (3) The profile analysis showed that the surface temperature had a double-peak feature along the profile line, and the temperature decreased with the distance farther away from the center of the high temperature zone. (4) The correlation coefficient between land surface temperature and elevation, vegetation index were −0.551 and −0.734 respectively, both passing p < 0.01 significance test, indicating that the surface temperature had a significant negative correlation relationship with elevation and vegetation index. Therefore, strengthen urban greening is of great significance to the healthy development of the city.

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Qingyao Huang

The coupling relationship between construction land expansion and high-temperature area expansion in China’s three major urban agglomerations

The Coupling between Urban Expansion and Population Growth: An Analysis of Urban Agglomerations in China (2005–2020)

Spatial heterogeneity of the thermal environment based on the urban expansion of natural cities using open data in Guangzhou, China

Application of building geometry indexes to assess the correlation between buildings and air temperature

Spatial and Temporal Analysis on the Evolution Characteristics of Land Surface Temperature in the Pearl River Delta Region

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