Geographical Space Development Zone Classification:An Essential Guide for Transformation of Mountain Resource Cities

ZHANG Jifei; DENG Wei; LIU Shaoquan

doi:10.1007/s11769-015-0755-0

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ZHANG Jifei, DENG Wei, LIU Shaoquan. Geographical Space Development Zone Classification:An Essential Guide for Transformation of Mountain Resource Cities[J]. Chinese Geographical Science, 2015, 25(3): 361-374. doi: 10.1007/s11769-015-0755-0

Citation:

ZHANG Jifei, DENG Wei, LIU Shaoquan. Geographical Space Development Zone Classification:An Essential Guide for Transformation of Mountain Resource Cities[J]. Chinese Geographical Science, 2015, 25(3): 361-374. doi: 10.1007/s11769-015-0755-0

Geographical Space Development Zone Classification:An Essential Guide for Transformation of Mountain Resource Cities

doi: 10.1007/s11769-015-0755-0

Institute of Mountain Hazards and Environment, Chinese Academy of Sciences, Chengdu 610041, China

Funds: Under the auspices of National Basic Research Program of China (No. 2015CB452706), National Natural Science Foundation of China (No. 41301193), Knowledge Innovation Program of Chinese Academy of Sciences (No. KZCX2-YW-333)

More Information

Corresponding author: DENG Wei. E-mail:Dengwei@imde.ac.cn
Received Date: 2014-08-12
Rev Recd Date: 2014-12-05
Publish Date: 2015-03-27

Abstract

Sustainable development of mountain areas and resource cities has been a significant issue worldwide. Transformation of mountain resource cities is facing tremendous difficulties. In the context of National Major Function-oriented Zone Planning raised to a national strategic level in China, it is important to effectively implement the planning by studying geographical space development zone classification of prefecture- and county-level cities based on their major function orientation. This research is even more critical for the transformation of mountain resource cities. In this study, we evaluated geographical space development suitability, and classified geo-graphical space development zones for Dongchuan Distric in Kunming City of Yunan Province, China, a typical mountain resource city. A quantitative grid-based evaluation was conducted using key-factor identification and restrictive-supportive comprehensive index determinati based on a geographic information system framework with different source data. The results included a classification of geographical space of Dongchuan into five types:the prohibited development zone, the inappropriate development zone, the controlled development zone, the moderate development zone and the preferential development zone. The distribution characteristics of geographical space development zones showed that the proportion of the prohibited development zone is the highest, while that of the other four development zones is comparatively lower and significantly fragmented. The geographical space development suitability is greatly controlled by the geomorphic pattern. Although Dongchuan is extremely restrained in terms of suitable geographical space for industrialization and urbanization, it still has the certain preferential and moderate development zones with an area of 207.81 km² with large parts being concentrated and contiguous, which makes these areas the most favorable for development. Only by adapting to this reality and implementing centralized development strategy in the regions with higher suitability may Dongchuan achieve smooth transformation from expansion mode to compact mode and its sustainable development capacity may be improved. Suggestions with an angle of industrial and spatial development pattern were put forward for the transformation of the city in future.
- geographical space development suitability,
- mountain resource city,
- transformation of resource cities

References

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[25]	Li Qian, Zhang Wenzhong, Wangdai, 2013. Geographical research on isolated mining and industrial areas. Progress in Geography, 32(7):1092-1101. (in Chinese)
[26]	Lin Jinlin, 2006. Research on Ecospace Construction of Mountain Resource-based Cities. Chongqing:Chongqing University. (in Chinese)
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[28]	Liu Yungang, 2002. Study Of Development Mechanism and Reg-ulation of Chinese Resource-based City. Changchun:Northeast Normal University. (in Chinese)
[29]	Long R Y, Chen H, Li H J et al., 2013. Selecting alternative in-dustries for Chinese resource cities based on intra- and in-ter-regional comparative advantages. Energy Policy, 57:82-88. doi: 10.1016/j.enpol.2012.10.047
[30]	Lu Yuqi, Lin Kang, Zhang Li, 2007. The methods of spatial de-velopment regionalization:a case study of Yizheng City. Acta Geographica Sinica, 62(4):351-363. (in Chinese)
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[32]	Ma Renfeng, Wang Xiaochun, Zhang Meng et al., 2011. The application and reflection of Major Function Oriented Zoning in Yunnan. Geographical Research, 30(7):1296-1308. (in Chinese)
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[35]	Papyrakis E, Gerlagh R, 2007. Resource abundance and economic growth in the United States. European Economic Review, 51(4):1011-1039. doi:10.1016/j.euroecorev.2006.04. 001
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[45]	Wang Shengyun, Ma Renfeng, Shen Yufang, 2012. The turn of China's regional development research paradigms and the theoretical response of Major Function Oriented Zoning. Areal Research and Development, 31(6):7-11. (in Chinese)
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Geographical Space Development Zone Classification:An Essential Guide for Transformation of Mountain Resource Cities

Institute of Mountain Hazards and Environment, Chinese Academy of Sciences, Chengdu 610041, China

Corresponding author: DENG Wei. E-mail:Dengwei@imde.ac.cn

Received Date: 2014-08-12

Rev Recd Date: 2014-12-05

Publish Date: 2015-03-27

Key words:

geographical space development suitability /
mountain resource city /
transformation of resource cities

Abstract: Sustainable development of mountain areas and resource cities has been a significant issue worldwide. Transformation of mountain resource cities is facing tremendous difficulties. In the context of National Major Function-oriented Zone Planning raised to a national strategic level in China, it is important to effectively implement the planning by studying geographical space development zone classification of prefecture- and county-level cities based on their major function orientation. This research is even more critical for the transformation of mountain resource cities. In this study, we evaluated geographical space development suitability, and classified geo-graphical space development zones for Dongchuan Distric in Kunming City of Yunan Province, China, a typical mountain resource city. A quantitative grid-based evaluation was conducted using key-factor identification and restrictive-supportive comprehensive index determinati based on a geographic information system framework with different source data. The results included a classification of geographical space of Dongchuan into five types:the prohibited development zone, the inappropriate development zone, the controlled development zone, the moderate development zone and the preferential development zone. The distribution characteristics of geographical space development zones showed that the proportion of the prohibited development zone is the highest, while that of the other four development zones is comparatively lower and significantly fragmented. The geographical space development suitability is greatly controlled by the geomorphic pattern. Although Dongchuan is extremely restrained in terms of suitable geographical space for industrialization and urbanization, it still has the certain preferential and moderate development zones with an area of 207.81 km² with large parts being concentrated and contiguous, which makes these areas the most favorable for development. Only by adapting to this reality and implementing centralized development strategy in the regions with higher suitability may Dongchuan achieve smooth transformation from expansion mode to compact mode and its sustainable development capacity may be improved. Suggestions with an angle of industrial and spatial development pattern were put forward for the transformation of the city in future.

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Reference (59)

[1]	Anderson L T, 1987. Seven Methods for Calculating Land Capa-bility/Suitability. Planning Advisory Service (PAS) Report. Chicago:American Planning Association.
[2]	Bastin O, 2000. Landscape classification in Saxony (Germany):a tool for holistic regional planning. Landscape and Urban Plan-ning, 50(3):145-155. doi:10.1016/S0169-2046(00)00086- 4
[3]	Chang X Y, Zhu B Q, 2002. Isotope geochemistry of the Dong-chuan copper deposit, Yunnan, SW China:stratigraphic chro-nology and application of lead isotopes in geochemical explo-ration. Chinese Journal of Geochemistry, 21(1):65-72. doi:10.1007/BF02838054
[4]	Chen Guojie, 2004. The Report of Chinese Mountain Area De-velopment 2003. Beijing:The Commercial Press, 165-166. (in Chinese)
[5]	Chen Wen, Sun Wei, Duan Xuejun et al., 2006. Regionalization of regional potential development in Suzhou City. Acta Geo-graphica Sinica, 61(8):839-846. (in Chinese)
[6]	Cui P, Chen X Q, Wang Y Y et al., 2005. Jiangjia Ravine debris flows in south-western China. In:Jakob M et al. (eds.). De-bris-flow Hazards and Related Phenomena. Heidelberg:Springer Berlin Heidelberg, 565-594.
[7]	Dong F, Long R Y, Chen H et al., 2013. The convergence test of transformation performance of resource cities in China consi-dering undesirable output. Mathematical and Computer Mod-eling, 58(5-6):948-955. doi:10.1016/j.mcm.2012.10.020
[8]	Dong Suocheng, Li Zehong, Li Bin et al., 2007. Problems and strategies of industrial transformation of China's resource- based cities. China Population, Resource and Environment, 17(5):12-17. (in Chinese)
[9]	Du J M, Yu B, Yao X L, 2012. Selection of leading industries for coal resource cities based on coupling coordination of industry's technological innovation. International Journal of Mining Science and Technology, 22(3):317-321. doi:10.1016/j.ijmst. 2012.04.006
[10]	Earl W H, William A B, 1997. Fault-rupture Hazard Zones in California:Alquist-Priolo Earthquake Fault Zoning Act with Index to Earthquake Fault Zones Maps. California:Division of Mines and Geology, 7-34.
[11]	Fan J, Tan A J, Ren Q, 2010. On the historical background, scien-tific intentions, goal orientation, and policy framework of Major Function-Oriented Zone Planning in China. Journal of Re-sources and Ecology, 1(4):289-298. doi:10.3969/j.issn.1674- 764x.2010.04.001
[12]	Fan Jie, 2007. The scientific foundation of Major Function Oriented Zoning in China. Acta Geographica Sinica, 62(4):339-350. (in Chinese)
[13]	Fan Jie, 2010. Resource Environment Carrying Capacity Evalua-tion for Post-Yushu Earthquake Restoration and Reconstruction. Beijing:Science Press, 34-50. (in Chinese)
[14]	Fan Jie, Sun Wei, Chen Dong, 2009. Scientific and technological innovation in spatial planning during 'the 11th Five-Year Plan' period and suggestions to the spatial planning of 'the 12th Five-Year Plan'. Bulletin of Chinese Academy of Sciences, 24(6):601-609. (in Chinese)
[15]	Fang Y P, Fan J, Shen M Y et al., 2014. Sensitivity of livelihood strategy to livelihood capital in mountain areas:empirical analysis based on different settlements in the upper reaches of the Minjiang River, China. Ecological Indicators, 38:225-235. doi:10.1016/j.ecolind.2013.11.007
[16]	Fang Zhongquan, 2008. The problem and adjusting thinking on construction of Principal Function Area. Areal Research and Development, 27(6):29-33. (in Chinese)
[17]	Feng Dexian, Zhang Li, Yang Ruixia et al., 2008. A study of panning in the main function regions based on the man-nature relationship theory of Henan Province. Areal Research and Development, 27(1):1-5. (in Chinese)
[18]	Gurung A B, Dach S W, Price M F et al., 2012. Global change and the world's mountains:research needs and emerging themes for sustainable development. Mountain Research and Development, 32(S1):47-54. doi:10.1659/MRD-JOURNAL-D- 11-00084.S1
[19]	Han Guifeng, Zhao Ke, Yuan Xingzhong et al., 2008. Evaluation of ecological sensitivity in mountain area based on spatial analysis:a case study of Wanyuan City in Sichuan Province. Journal of Mountain Science, 26(5):531-537. (in Chinese)
[20]	Hopkings L D, 1977. Methods for generating land suitability maps:a comparative evaluation planners. Journal of American Institute of Planners, 43(4):386-400.
[21]	Jankonwski P, Richard L, 1994. Integration of GIS-based suita-bility analysis and multi-criteria evaluation in a spatial decision support system for route selection. Environment and Planning B:Planning and Design, 21(3):323-340. doi:10.1068/b210323
[22]	Jansky L, Ives J D, Furuyashiki K et al., 2002. Global mountain research for sustainable development. Global Environmental Change, 12(3):231-239. doi:10.1016/S0959-3780(02)00015- 8
[23]	Kreutzmann H, 2001. Development indicators for mountain re-gions. Mountain Research and Development, 21(2):132-139. doi:10.1659/0276-4741(2001)021[0132:DIFMR]2.0.CO;2
[24]	Li H J, Long R Y, Chen H, 2013. Economic transition policies in Chinese resource-based cities:an overview of government ef-forts. Energy Policy, 55:251-260. doi:10.1016/j.enpol.2012. 12.007
[25]	Li Qian, Zhang Wenzhong, Wangdai, 2013. Geographical research on isolated mining and industrial areas. Progress in Geography, 32(7):1092-1101. (in Chinese)
[26]	Lin Jinlin, 2006. Research on Ecospace Construction of Mountain Resource-based Cities. Chongqing:Chongqing University. (in Chinese)
[27]	Lin Jinyao, Lixia, 2014. MFOZ planning of Dongguan based on spatial autocorrelation by using genetic algorithms. Geograph-ical Research, 33(2):349-357. (in Chinese)
[28]	Liu Yungang, 2002. Study Of Development Mechanism and Reg-ulation of Chinese Resource-based City. Changchun:Northeast Normal University. (in Chinese)
[29]	Long R Y, Chen H, Li H J et al., 2013. Selecting alternative in-dustries for Chinese resource cities based on intra- and in-ter-regional comparative advantages. Energy Policy, 57:82-88. doi:10.1016/j.enpol.2012.10.047
[30]	Lu Yuqi, Lin Kang, Zhang Li, 2007. The methods of spatial de-velopment regionalization:a case study of Yizheng City. Acta Geographica Sinica, 62(4):351-363. (in Chinese)
[31]	Ma Haixia, Li Huiling, 2009. Discussions about same problems to the western region of the main function division and construc-tion. Areal Research and Development, 28(3):12-16. (in Chi-nese)
[32]	Ma Renfeng, Wang Xiaochun, Zhang Meng et al., 2011. The application and reflection of Major Function Oriented Zoning in Yunnan. Geographical Research, 30(7):1296-1308. (in Chinese)
[33]	Malczewski J, 1999. GIS and Multicriteria Decision Analysis. Hoboken:John Wiley and Sons.
[34]	Maselli D, 2012. Promoting sustainable mountain development at the global level. Mountain Research and Development, 32(S1):64-70. doi:10.1659/MRD-JOURNAL-D-12-00131.1
[35]	Papyrakis E, Gerlagh R, 2007. Resource abundance and economic growth in the United States. European Economic Review, 51(4):1011-1039. doi:10.1016/j.euroecorev.2006.04. 001
[36]	Sachs J D, Warner A M, 2001. The curse of natural resources. European Economic Review, 45(4-6):827-838. doi:10.1016/S0014-2921(01)00125-8
[37]	Scarpaci J L, Patrick K J, 2006. Pittsburgh and the Appalachians:Cultural and Natural Resources in a Postindustrial Age. Pitts-burgh:University of Pittsburgh Press, 1-3.
[38]	Shao J, Zhou J Q, 2011. Study on the influences of industry transformation on the sustainable development of re-source-exhausted city space. Procedia Engineering, 21:421-427. doi:10.1016/j.proeng.2011.11.2034
[39]	Shen Lei, 2005. Theortical Study on the Transformation of Re-sources-based Cities in China. Beijing:Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences. (in Chinese)
[40]	Sun W, Han X X, Sheng K R et al., 2012. Geographical differ-ences and influencing factors of rural energy consumption in southwest mountain areas in China:a case study of Zhaotong City. Journal of Mountain Science, 9(6):842-852. doi:10. 1007/s11629-012-2355-0
[41]	Tang Changchun, 2011. Construction of method and index system of MFOZ in a river basin:a case study of Yangtze River Basin. Geographical Research, 30(12):2173-2184. (in Chinese)
[42]	Walker M, Jourdan P, 2003. Resource-based sustainable devel-opment:an alternative approach to industrialization in South Africa. Minerals & Energy Raw Materials Report, 18(3):25-43. doi:10.1080/14041040310019435
[43]	Wang Chuansheng, Zhao Haiying, Sun Guiyan et al., 2010. Function zoning of development-optimized area at a county level:a case study of Shangyu, Zhejiang. Geographical Research, 29(3):481-490. (in Chinese)
[44]	Wang Qiang, Wu Shidai, Li Yongshi et al., 2009. The application of Major Function Oriented Zoning in Fujian Province. Acta Geographica Sinica, 64(6):725-735. (in Chinese)
[45]	Wang Shengyun, Ma Renfeng, Shen Yufang, 2012. The turn of China's regional development research paradigms and the theoretical response of Major Function Oriented Zoning. Areal Research and Development, 31(6):7-11. (in Chinese)
[46]	Wu Jing, Wang Jinwu, 2009. Comprehensive summarization and discussion on the progress of Major Function Regionalization. Tropical Geography, 29(6):532-538. (in Chinese)
[47]	Xu Jianhua, 2002. Mathematical Methods in Contemporary Geo-graphy. Beijing:Higher Education Press, 224-230. (in Chinese)
[48]	Yan lei, Xu Xuegong, Xie Zhenglei et al., 2009. Integrated as-sessment on ecological sensitivity for Beijing. Acta Ecologica Sinica, 29(6):3117-3125. (in Chinese)
[49]	Ye Yuyao, Zhang Hongou, Li Bin, 2008. An ecologically based technique for the Principal Function Zoning. Progress in Geo-graphy, 27(1):39-45. (in Chinese)
[50]	Yeh A G O, Chow M H, 1996. An integrated GIS and loca-tion-allocation approach to public facilities planning:an example of open space planning. Computer, Environment and Urban System, 20(4-5):339-350. doi:10.1016/S0198-9715(97) 00010-0
[51]	Yu Jianhui, Zhang Wenzhong, Wang Dai, 2011. The transforma-tion path of China's resource-exhausted cities. World Regional Studies, 20(3):62-72. (in Chinese)
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Geographical Space Development Zone Classification:An Essential Guide for Transformation of Mountain Resource Cities

doi: 10.1007/s11769-015-0755-0

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通讯作者: 陈斌, bchen63@163.com

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