Quantitative Analysis of the Coupling Coordination Degree Between Urbanization and Eco-environment in Mongolia

DONG Suocheng; ZHENG Ji; LI Yu; LI Zehong; LI Fujia; JIN Liang; YANG Yang; BILGAEV Alexey

doi:10.1007/s11769-019-1074-7

Volume 29 Issue 5

Oct. 2019

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Article Navigation > Chinese Geographical Science > 2019 > 20(5): 861-871

DONG Suocheng, ZHENG Ji, LI Yu, LI Zehong, LI Fujia, JIN Liang, YANG Yang, BILGAEV Alexey. Quantitative Analysis of the Coupling Coordination Degree Between Urbanization and Eco-environment in Mongolia[J]. Chinese Geographical Science, 2019, 20(5): 861-871. doi: 10.1007/s11769-019-1074-7

Citation:

DONG Suocheng, ZHENG Ji, LI Yu, LI Zehong, LI Fujia, JIN Liang, YANG Yang, BILGAEV Alexey. Quantitative Analysis of the Coupling Coordination Degree Between Urbanization and Eco-environment in Mongolia[J]. Chinese Geographical Science, 2019, 20(5): 861-871. doi: 10.1007/s11769-019-1074-7

Quantitative Analysis of the Coupling Coordination Degree Between Urbanization and Eco-environment in Mongolia

doi: 10.1007/s11769-019-1074-7

DONG Suocheng^1,2,
ZHENG Ji^{1,2
,},
LI Yu^1,2,
LI Zehong^1,2,
LI Fujia^1,2,
JIN Liang³,
YANG Yang^1,2,
BILGAEV Alexey^1,2

1.
Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, China;
2.
University of Chinese Academy of Sciences, Beijing 100049, China;
3.
Resources and Environment Economy College, Inner Mongolia University of Finance and Economics, Inner Mongolia 010070, China

Funds: Under the auspices of the Strategic Priority Research Program of the Chinese Academy of Sciences (No. XDA20030203, XDA20030202), National Social Science Found of China (No. 17VDL016), National Key Research and Development Program of China (No. 2017FY101304)

More Information

Corresponding author: ZHENG Ji.E-mail:zhengj.13s@igsnrr.ac.cn
Received Date: 2018-06-12
Rev Recd Date: 2018-09-28
Publish Date: 2019-10-01

Abstract

Mongolia is an important country in the Economic Corridor of China-Mongolia-Russia, a deep understanding of the coupling relationship between urbanization and the eco-environment in Mongolia is meaningful to achieve green development of the Belt and Road. The entropy method and coupling coordination degree model were integrated to evaluate the coupling coordination degree between urbanization and the eco-environment in Mongolia during 2000-2016. The results showed that the coupling coordination degree between urbanization and the eco-environment in Mongolia was generally at the stage of seriously unbalanced development, and that the main contributor of the urbanization and the eco-environment subsystem were demographic urbanization and eco-environment endowment, respectively. The southern part of Mongolia central zone should be paid more attention due to the lower degree of coupling coordination between urbanization and the eco-environment. To promote the healthy urbanization development in Mongolia, six-layer eco-city establishing green development pattern is proposed to provide scientific support for Mongolia.
- coupling coordination degree,
- urbanization,
- eco-environment,
- Mongolia,
- six-layer eco-city

References

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[2]	Bao C, Zou J J, 2017. Exploring the coupling and decoupling relationships between urbanization quality and water resources constraint intensity:spatiotemporal analysis for Northwest China. Sustainability, 9(11):1960. doi: 10.3390/su9111960
[3]	Chrysanthou A, Van Der Schrier G, Van Den Besselaar E J M et al., 2014. The effects of urbanization on the rise of the European temperature since 1960. Geophysical Research Letters, 41(21):7716-7722. doi: 10.1002/2014GL061154
[4]	Ding L, Zhao W T, Huang Y L et al., 2015. Research on the cou-pling coordination relationship between urbanization and the air environment:a case study of the area of Wuhan. Atmosphere, 6(10):1539-1558. doi: 10.3390/atmos6101539
[5]	Ding Y, Li F, 2017. Examining the effects of urbanization and industrialization on carbon dioxide emission:evidence from China's provincial regions. Energy, 125:533-542. doi: 10.1016/j.energy.2017.02.156
[6]	Effiong E L, 2018. On the urbanization-pollution nexus in Africa:a semiparametric analysis. Quality & Quantity, 52(1):445-456. doi: 10.1007/s11135-017-0477-8
[7]	Elliott J R, Clement M T, 2014. Urbanization and carbon emis-sions:a nationwide study of local countervailing effects in the United States. Social Science Quarterly, 95(3):795-816. doi: 10.1111/ssqu.12079
[8]	Fang Chuanglin, Wang Jing, 2013. A theoretical analysis of inter-active coercing effects between urbanization and eco-environment. Chinese Geographical Science, 23(2):147-162. doi: 10.1007/s11769-013-0602-2
[9]	Grimm N B, Faeth S H, Golubiewski N E et al., 2008. Global change and the ecology of cities. Science, 319(5864):756-760. doi: 10.1126/science.1150195
[10]	Gurney K R, Romero-Lankao P, Seto K C et al., 2015. Climate change:track urban emissions on a human scale. Nature, 525(7568):179-181. doi: 10.1038/525179a
[11]	Haseeb M, Hassan S, Azam M, 2017. Rural-urban transformation, energy consumption, economic growth, and CO2 emissions using STRIPAT model for BRICS countries. Environmental Progress & Sustainable Energy, 36(2):523-531. doi: 10.1002/ep.12461
[12]	He J Q, Wang S J, Liu Y Y et al., 2017. Examining the relationship between urbanization and the eco-environment using a coupling analysis:case study of Shanghai, China. Ecological Indicators, 77:185-193. doi: 10.1016/j.ecolind.2017.01.017
[13]	Li M C, Mao C M, 2019. Spatial-temporal variance of coupling relationship between population modernization and eco-environment in Beijing-Tianjin-Hebei. Sustainability, 11(4):991. doi: 10.3390/su11040991
[14]	Lin B Q, Zhu J P, 2018. Changes in urban air quality during ur-banization in China. Journal of Cleaner Production, 188:312-321. doi: 10.1016/j.jclepro.2018.03.293
[15]	Lin S F, Sun J, Marinova D et al., 2017. Effects of population and land urbanization on China's environmental impact:empirical analysis based on the extended STIRPAT model. Sustainability, 9(5):825. doi: 10.3390/su9050825
[16]	Liu X P, Ma L, Li X et al., 2014. Simulating urban growth by integrating landscape expansion index (LEI) and cellular au-tomata. International Journal of Geographical Information Science, 28(1):148-163. doi: 10.1080/13658816.2013.831097
[17]	Liu Y X, Wang Y L, Peng J et al., 2015. Correlations between urbanization and vegetation degradation across the world's metropolises using DMSP/OLS nighttime light data. Remote Sensing, 7(2):2067-2088. doi: 10.3390/rs70202067
[18]	Martellozzo F, Amato F, Murgante B et al., 2018. Modelling the impact of urban growth on agriculture and natural land in Italy to 2030. Applied Geography, 91:156-167. doi: 10.1016/j.apgeog.2017.12.004
[19]	National Statistics Office of Mongolia, 2000-2017. Mongolian Statistical Yearbook 2000-2017. National Statistics Office of Mongolia. Available at:http://1212.mn/BookLibrary.aspx?category=007.2018-01-02
[20]	Park H, Fan P L, John R et al., 2017. Urbanization on the Mongo-lian Plateau after economic reform:changes and causes. Applied Geography, 86:118-127. doi:10.1016/j.apgeog.2017. 06.026
[21]	Qiao Biao, Fang Chuanglin, 2005. The dynamic coupling model and its application of urbanization and eco-environment in Hexi Corridor. Journal of Geographical Sciences, 15(4):491-499. doi: 10.1007/BF02892157
[22]	Ren L J, Cui E Q, Sun H Y, 2014. Temporal and spatial variations in the relationship between urbanization and water quality. Environmental Science and Pollution Research, 21(23):13646-13655. doi: 10.1007/s11356-014-3242-8
[23]	Sadorsky P, 2014. The effect of urbanization on CO₂ emissions in emerging economies. Energy Economics, 41:147-153. doi: 10.1016/j.eneco.2013.11.007
[24]	Tang Y, Zhao W N, Gu C L, 2017. Urbanization and rural devel-opment in the Beijing-Tianjin-Hebei Metropolitan Region:coupling-degree model. Journal of Urban Planning and De-velopment, 143(1):04016028. doi: 10.1061/(ASCE)UP.1943-5444.0000357
[25]	United Nations, 2014. World Urbanization Prospects:The 2014 Revision. Available at:https://www.un-ilibrary.org/human-settlements-and-urban-issues/world-urbanization-prospects_527e5125-en.2014-08-12.
[26]	United Nations Educational, Scientific and Cultural Organization, 2018. UNESCO's Commitment to Biodiversity:Connecting People and Nature for An Inspiring Future. United Nations Educational, Scientific and Cultural Organization. Available at:https://unesdoc.unesco.org/ark:/48223/pf0000265200.2018-07-27.
[27]	Wang S J, Ma H T, Zhao Y B, 2014. Exploring the relationship between urbanization and the eco-environment-a case study of Beijing-Tianjin-Hebei region. Ecological Indicators, 45:171-183. doi: 10.1016/j.ecolind.2014.04.006
[28]	Xia T Y, Wang J Y, Song K et al., 2014. Variations in air quality during rapid urbanization in Shanghai, China. Landscape and Ecological Engineering, 10(1):181-190. doi: 10.1007/s11355-011-0174-z
[29]	Xu Q, Dong Y X, Yang R, 2018. Urbanization impact on carbon emissions in the Pearl River Delta region:kuznets curve rela-tionships. Journal of Cleaner Production, 180:514-523. doi: 10.1016/j.jclepro.2018.01.194
[30]	Yao L, Li X L, Li Q et al., 2019. Temporal and spatial changes in coupling and coordinating degree of new urbanization and ecological-environmental stress in China. Sustainability, 11(4):1171. doi: 10.3390/su11041171
[31]	Yazdi S K, Shakouri B, 2018. The effect of renewable energy and urbanization on CO₂ emissions:a panel data. Energy Sources, Part B:Economics, Planning, and Policy, 13(2):121-127. doi: 10.1080/15567249.2017.1400607
[32]	Yu Y, Tong Y, Tang W W et al., 2018. Identifying spatiotemporal interactions between urbanization and eco-environment in the urban agglomeration in the middle reaches of the Yangtze River, China. Sustainability, 10(1):290. doi: 10.3390/su10010290
[33]	Zhang X L, 2016. Sustainable urbanization:a bi-dimensional matrix model. Journal of Cleaner Production, 134:425-433. doi: 10.1016/j.jclepro.2015.08.036
[34]	Zhao Y B, Wang S J, Ge Y J et al., 2017. The spatial differentia-tion of the coupling relationship between urbanization and the eco-environment in countries globally:a comprehensive as-sessment. Ecological Modelling, 360:313-327. doi: 10.1016/j.ecolmodel.2017.07.009

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通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

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Quantitative Analysis of the Coupling Coordination Degree Between Urbanization and Eco-environment in Mongolia

1. Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, China;

2. University of Chinese Academy of Sciences, Beijing 100049, China;

3. Resources and Environment Economy College, Inner Mongolia University of Finance and Economics, Inner Mongolia 010070, China

Corresponding author: ZHENG Ji.E-mail:zhengj.13s@igsnrr.ac.cn

Received Date: 2018-06-12

Rev Recd Date: 2018-09-28

Publish Date: 2019-10-01

Key words:

Abstract: Mongolia is an important country in the Economic Corridor of China-Mongolia-Russia, a deep understanding of the coupling relationship between urbanization and the eco-environment in Mongolia is meaningful to achieve green development of the Belt and Road. The entropy method and coupling coordination degree model were integrated to evaluate the coupling coordination degree between urbanization and the eco-environment in Mongolia during 2000-2016. The results showed that the coupling coordination degree between urbanization and the eco-environment in Mongolia was generally at the stage of seriously unbalanced development, and that the main contributor of the urbanization and the eco-environment subsystem were demographic urbanization and eco-environment endowment, respectively. The southern part of Mongolia central zone should be paid more attention due to the lower degree of coupling coordination between urbanization and the eco-environment. To promote the healthy urbanization development in Mongolia, six-layer eco-city establishing green development pattern is proposed to provide scientific support for Mongolia.

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Reference (34)

[1]	Azam M, Khan A Q, 2016. Urbanization and environmental deg-radation:evidence from four SAARC countries-Bangladesh, India, Pakistan, and Sri Lanka. Environmental Progress & Sustainable Energy, 35(3):823-832. doi:10.1002/ep.12282
[2]	Bao C, Zou J J, 2017. Exploring the coupling and decoupling relationships between urbanization quality and water resources constraint intensity:spatiotemporal analysis for Northwest China. Sustainability, 9(11):1960. doi:10.3390/su9111960
[3]	Chrysanthou A, Van Der Schrier G, Van Den Besselaar E J M et al., 2014. The effects of urbanization on the rise of the European temperature since 1960. Geophysical Research Letters, 41(21):7716-7722. doi:10.1002/2014GL061154
[4]	Ding L, Zhao W T, Huang Y L et al., 2015. Research on the cou-pling coordination relationship between urbanization and the air environment:a case study of the area of Wuhan. Atmosphere, 6(10):1539-1558. doi:10.3390/atmos6101539
[5]	Ding Y, Li F, 2017. Examining the effects of urbanization and industrialization on carbon dioxide emission:evidence from China's provincial regions. Energy, 125:533-542. doi:10.1016/j.energy.2017.02.156
[6]	Effiong E L, 2018. On the urbanization-pollution nexus in Africa:a semiparametric analysis. Quality & Quantity, 52(1):445-456. doi:10.1007/s11135-017-0477-8
[7]	Elliott J R, Clement M T, 2014. Urbanization and carbon emis-sions:a nationwide study of local countervailing effects in the United States. Social Science Quarterly, 95(3):795-816. doi:10.1111/ssqu.12079
[8]	Fang Chuanglin, Wang Jing, 2013. A theoretical analysis of inter-active coercing effects between urbanization and eco-environment. Chinese Geographical Science, 23(2):147-162. doi:10.1007/s11769-013-0602-2
[9]	Grimm N B, Faeth S H, Golubiewski N E et al., 2008. Global change and the ecology of cities. Science, 319(5864):756-760. doi:10.1126/science.1150195
[10]	Gurney K R, Romero-Lankao P, Seto K C et al., 2015. Climate change:track urban emissions on a human scale. Nature, 525(7568):179-181. doi:10.1038/525179a
[11]	Haseeb M, Hassan S, Azam M, 2017. Rural-urban transformation, energy consumption, economic growth, and CO2 emissions using STRIPAT model for BRICS countries. Environmental Progress & Sustainable Energy, 36(2):523-531. doi:10.1002/ep.12461
[12]	He J Q, Wang S J, Liu Y Y et al., 2017. Examining the relationship between urbanization and the eco-environment using a coupling analysis:case study of Shanghai, China. Ecological Indicators, 77:185-193. doi:10.1016/j.ecolind.2017.01.017
[13]	Li M C, Mao C M, 2019. Spatial-temporal variance of coupling relationship between population modernization and eco-environment in Beijing-Tianjin-Hebei. Sustainability, 11(4):991. doi:10.3390/su11040991
[14]	Lin B Q, Zhu J P, 2018. Changes in urban air quality during ur-banization in China. Journal of Cleaner Production, 188:312-321. doi:10.1016/j.jclepro.2018.03.293
[15]	Lin S F, Sun J, Marinova D et al., 2017. Effects of population and land urbanization on China's environmental impact:empirical analysis based on the extended STIRPAT model. Sustainability, 9(5):825. doi:10.3390/su9050825
[16]	Liu X P, Ma L, Li X et al., 2014. Simulating urban growth by integrating landscape expansion index (LEI) and cellular au-tomata. International Journal of Geographical Information Science, 28(1):148-163. doi:10.1080/13658816.2013.831097
[17]	Liu Y X, Wang Y L, Peng J et al., 2015. Correlations between urbanization and vegetation degradation across the world's metropolises using DMSP/OLS nighttime light data. Remote Sensing, 7(2):2067-2088. doi:10.3390/rs70202067
[18]	Martellozzo F, Amato F, Murgante B et al., 2018. Modelling the impact of urban growth on agriculture and natural land in Italy to 2030. Applied Geography, 91:156-167. doi:10.1016/j.apgeog.2017.12.004
[19]	National Statistics Office of Mongolia, 2000-2017. Mongolian Statistical Yearbook 2000-2017. National Statistics Office of Mongolia. Available at:http://1212.mn/BookLibrary.aspx?category=007.2018-01-02
[20]	Park H, Fan P L, John R et al., 2017. Urbanization on the Mongo-lian Plateau after economic reform:changes and causes. Applied Geography, 86:118-127. doi:10.1016/j.apgeog.2017. 06.026
[21]	Qiao Biao, Fang Chuanglin, 2005. The dynamic coupling model and its application of urbanization and eco-environment in Hexi Corridor. Journal of Geographical Sciences, 15(4):491-499. doi:10.1007/BF02892157
[22]	Ren L J, Cui E Q, Sun H Y, 2014. Temporal and spatial variations in the relationship between urbanization and water quality. Environmental Science and Pollution Research, 21(23):13646-13655. doi:10.1007/s11356-014-3242-8
[23]	Sadorsky P, 2014. The effect of urbanization on CO₂ emissions in emerging economies. Energy Economics, 41:147-153. doi:10.1016/j.eneco.2013.11.007
[24]	Tang Y, Zhao W N, Gu C L, 2017. Urbanization and rural devel-opment in the Beijing-Tianjin-Hebei Metropolitan Region:coupling-degree model. Journal of Urban Planning and De-velopment, 143(1):04016028. doi:10.1061/(ASCE)UP.1943-5444.0000357
[25]	United Nations, 2014. World Urbanization Prospects:The 2014 Revision. Available at:https://www.un-ilibrary.org/human-settlements-and-urban-issues/world-urbanization-prospects_527e5125-en.2014-08-12.
[26]	United Nations Educational, Scientific and Cultural Organization, 2018. UNESCO's Commitment to Biodiversity:Connecting People and Nature for An Inspiring Future. United Nations Educational, Scientific and Cultural Organization. Available at:https://unesdoc.unesco.org/ark:/48223/pf0000265200.2018-07-27.
[27]	Wang S J, Ma H T, Zhao Y B, 2014. Exploring the relationship between urbanization and the eco-environment-a case study of Beijing-Tianjin-Hebei region. Ecological Indicators, 45:171-183. doi:10.1016/j.ecolind.2014.04.006
[28]	Xia T Y, Wang J Y, Song K et al., 2014. Variations in air quality during rapid urbanization in Shanghai, China. Landscape and Ecological Engineering, 10(1):181-190. doi:10.1007/s11355-011-0174-z
[29]	Xu Q, Dong Y X, Yang R, 2018. Urbanization impact on carbon emissions in the Pearl River Delta region:kuznets curve rela-tionships. Journal of Cleaner Production, 180:514-523. doi:10.1016/j.jclepro.2018.01.194
[30]	Yao L, Li X L, Li Q et al., 2019. Temporal and spatial changes in coupling and coordinating degree of new urbanization and ecological-environmental stress in China. Sustainability, 11(4):1171. doi:10.3390/su11041171
[31]	Yazdi S K, Shakouri B, 2018. The effect of renewable energy and urbanization on CO₂ emissions:a panel data. Energy Sources, Part B:Economics, Planning, and Policy, 13(2):121-127. doi:10.1080/15567249.2017.1400607
[32]	Yu Y, Tong Y, Tang W W et al., 2018. Identifying spatiotemporal interactions between urbanization and eco-environment in the urban agglomeration in the middle reaches of the Yangtze River, China. Sustainability, 10(1):290. doi:10.3390/su10010290
[33]	Zhang X L, 2016. Sustainable urbanization:a bi-dimensional matrix model. Journal of Cleaner Production, 134:425-433. doi:10.1016/j.jclepro.2015.08.036
[34]	Zhao Y B, Wang S J, Ge Y J et al., 2017. The spatial differentia-tion of the coupling relationship between urbanization and the eco-environment in countries globally:a comprehensive as-sessment. Ecological Modelling, 360:313-327. doi:10.1016/j.ecolmodel.2017.07.009

Quantitative Analysis of the Coupling Coordination Degree Between Urbanization and Eco-environment in Mongolia

doi: 10.1007/s11769-019-1074-7

Abstract

References

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通讯作者: 陈斌, bchen63@163.com

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