This study chose major Chinese cities and used the creative model of Smart Low-carbon Strength Quo- tient (SLSQ) to investigate the level and state of urban smart low-carbon development. The results show that: (1...This study chose major Chinese cities and used the creative model of Smart Low-carbon Strength Quo- tient (SLSQ) to investigate the level and state of urban smart low-carbon development. The results show that: (1) three main categories of smart low-carbon cities are found; namely, leaders with high SLSQ, steady ones with av- erage SLSQ and lagging ones with low SLSQ; (2) the SLSQ level shows a spatial change trend of diminishing from the southeast to the northwest and differing within regions; (3) the SLSQ level indicates an urban scale change trend of decreasing from the big to the small and differing within each scale; (4) the SLSQ level suggests an ad- ministrative hierarchy change trend of descending from the high to the low and differing within each class; (5) based on the SLSQ, three dynamic patterns were identified: leading mode, steady mode and preparing mode, among which the steady mode accounts for the vast majority of smart low-carbon development in major Chinese cities.展开更多
基金Key program of the National Natural Science Foundation of China(71433008)General program of the National Natural Science Foundation of China(41571151)
文摘This study chose major Chinese cities and used the creative model of Smart Low-carbon Strength Quo- tient (SLSQ) to investigate the level and state of urban smart low-carbon development. The results show that: (1) three main categories of smart low-carbon cities are found; namely, leaders with high SLSQ, steady ones with av- erage SLSQ and lagging ones with low SLSQ; (2) the SLSQ level shows a spatial change trend of diminishing from the southeast to the northwest and differing within regions; (3) the SLSQ level indicates an urban scale change trend of decreasing from the big to the small and differing within each scale; (4) the SLSQ level suggests an ad- ministrative hierarchy change trend of descending from the high to the low and differing within each class; (5) based on the SLSQ, three dynamic patterns were identified: leading mode, steady mode and preparing mode, among which the steady mode accounts for the vast majority of smart low-carbon development in major Chinese cities.
