Study on Landscape Pattern Evolution of Ecological-Living-Industrial Land in Plateau Mountainous Area: A Case Study of Yuxi City, Yunnan Province
The coordination and development of ecological-living-industrial land uses are the premise foundations for the formulation and implementation of the current land space planning, and more attention should be paid to plateau mountainous areas. This research is based on spatial analysis technology and landscape pattern index method taking Yuxi city, a typical mountainous plateau as the research area. By using relevant software such as ArcGIS10.5, Fragstats 4.2 and the four remote sensing images of Yuxi city in 1980, 1995, 2005 and 2015, the temporal-spatial evolution and differentiation pattern of ecological-living-industrial land applications have been discussed. The research results show that: (1) From the perspective of land use type change, ecological land of Yuxi city has been the main source of land from 1980 to 2015, which totally occupies more than 78%. During this period, the spatial structure of the ecological-living-industrial land changed significantly, namely, the living land. Its land area increased significantly from 0.83% of the total area in 1980 to 1.25% in 2015, the change range of ecological land and industrial land is relatively small. (2) In terms of land use landscape pattern transfer matrix, from 1980 to 2015, the industrial land and ecological land in Yuxi city have been gradually transferred to living land. (3) In the aspect of landscape pattern changes, various landscape pattern indexes of Yuxi city indicate that the fragmentation degree of landscape pattern of the ecological-living-industrial land in this region is increasing. The degree of agglomeration goes down, and the landscape types have changed from being relatively simple to relatively rich. The landscape is more diverse, but the patch size is uneven, meanwhile, the integrity of the ecological space is destroyed.
[1] Shi Xujie, Hao Jinmin, Guan Qingchun, Li Mu, Wang Nan, Che Ao. Study on landscape pattern evolution and ecological service value response in quzhou county, hebei province (J). Journal of China agricultural university, 2017, 22(10): 147-158.
[2] Hua Wenjian, Chen Haishan, Li Xing. Research review on land use/cover change and its climatic effects in China (J). Progress in earth science, 2014, 29(09): 1025-1036.
[3] Jing Yunqing, Zhang Fei, Chen Lihua, et al. Study on land use/cover - Landscape pattern and ecological environmental effects of climate change in Aibi Lake Wetland (J). Chinese Journal of Environmental Science, 2017, 37(9).
[4] Ma Shifa, Huang Hongyuan, Cai Yumei, et al. Theoretical framework for comprehensive zoning of land space based on three living Function Optimization (J). Environmental Protection and Mineral Resources, 2014, 11(0031-3).
[5] Hua Jiqing, Ye Changsheng, Wang Fei, Han Ran. Evolution of “three living” land and its driving factors in foshan city (J). Agricultural modernization research, 2019, 40(01): 26-35.
[6] Huang Jinchuan, Lin Haoxi, Qi Xiaoxiao. Research progress of three living space oriented to territorial space optimization (J). Progress in geographical science, 2017, 36(03): 378-391.
[7] Li Chao, Du Zhaoyang, Chen Zhaoya, Xu Hobart, Chen Yaheng. Evaluation of high - standard basic farmland synthesis and construction time - block based on grid data - a case study of Lu Long county, Hebei province (J). Agricultural modernization research, 2015, 36(01): 111-117.
[8] Zhu Lin, Cheng Jiumiao, Jin Jing, Fei Luocheng, Cheng Jian. Study on spatial Pattern and Influencing Factors of “three living” Land Structure-Based on panel data of 284 cities (J). China Agricultural Resources and Zoning, 2008, 39(08): 105-115.
[9] Liu Jilai, Liu Yansui, Li Yurui. Classification evaluation and spatio-temporal pattern analysis of “three living space” in China (J). Acta geographica sinica, 2017, 72(07): 1290-1304.
[10] Zhang Hongqi, Xu Erqi, Zhu Huiyi. Classification and spatial pattern of “three living land” in China (J). Resources science, 2015, 37(07): 1332-1338.
[11] Bai Rushan, Jiang Yupei, Jiang Jinde. Multi-scale Analysis of the spatial Structure of the “Three Health” of The Jianghuai City Cluster (J). China City, 2016(10): 21-28.
[12] Li Qiuying, Fang Chuanglin, Wang Shaojian. Evaluation of space utilization quality of China's provincial land: based on the spatial perspective of “three living” (J). Regional research and development, 2016, 35(05): 163-169.
[13] Zhang Niexin, Guo Ruiqi, Wang Han, et al. Research review of ecological environment change in coastal zone based on GIS-RS (J). Bulletin of Marine Lakes, 2018, 3(12).
[14] Lin Yilin, Zhao Junsan, Zhang Meng, Chen Guoping. Spatial pattern recognition and spatio-temporal evolution characteristics analysis of urban agglomeration in central Yunnan (J). Chinese journal of agricultural machinery, 2019, 50(08): 176-191.
[15] Li Wu, Jing Zhou, Zhouhong Li. Applying of GA-BP Neural Network in the Land Ecological Security Evaluation. International Journal of Computer Science, 2020, 14(8).
[16] Fawen Yu, Xianchu Yu, To strengthen the strategic research on the sustainable development of mountainous areas in China (J). Guizhou Social Sciences, 2015, 308(08): 144-149.
[17] Xiaobo Jiang, Preliminary Study on Computing the Area of Mountain Regions in China Based on Geographic Information System (J). Journal of Mountain Science, 2008, 26(2):129-136.
[18] Jing Zhou, Li Wu. Research on Landscape Pattern Revolution of Land Use in Fuxian Lake Basin Based on RS and GIS (J). International Scholarly and Scientific Research & Innovation, 2020, 47(1).
[19] Wu L, Xie B G, The variation differences of cultivated land ecological security between flatland and mountainous areas based on LUCC. PLoS ONE, 2019, 14(8): e0220747.
[20] Yu Li, Song An, Zheng Yu, Jian Qing, Zhang Pengtao. Classification and spatial pattern analysis of “three living land” -- a case study of changli county (J). China agricultural resources and zoning, 2017, 38(02): 89-96.
[21] Wangmeng Chen, Tong Li, Li Zhang, et al. Change monitoring of aquaculture ponds on the west bank of Ha Long Bay based on remote sensing technology and analysis of its impact on production-living-ecological land (J). 2020, (9):66-71.
[22] Yanzhong Liu, Rongze Sun, Yong Chen etal. Change of Ecological-Living-Industrial Land and Its Response to Ecosystem Service Value in Linxiang City (J). Research of Soil and Water Conservation, 2019, 26(6): 303-310.
[23] Du Jinlong, Zhu Jiwei, Xie Jianchang, et al. Research progress of urban land use based on GIS (J). Remote Sensing of Land Resources, 2018, 30(3): 9-17.
[24] Huang Mengjia, Qi Lu, Li Shujie, Du Wanting, Cao Jingwen. Suitability analysis of urban land space development and construction in Wangqing county based on three living space (J). Journal of Jiangxi agricultural sciences, 2019, 31(08): 119-125.
[25] Meng Yaoyao, Xue Lifang. Analysis on land use and landscape pattern change in Nansihu basin (J). Water and soil conservation research, 2017, 24(03): 246-252.
[26] Zhai Jun, Shao Quanqin, Liu Jiyuan. Analysis on the influence of land use/cover change on temperature change in Inner Mongolia Plateau (J). Chinese Journal of Natural Resources, 2014, 29(6): 0967-78
[27] Gao Yi, Su Fenzhen, Sun Xiaoyu, Yang Xiaomei, Xue Zhenshan, Zhang Dandan. Analysis of land use change and driving force in coastal zone of guangdong province near 20a (J). Acta oceanica sinica (Chinese version), 2011, 33(04): 95-103.
[28] Guo Honglei, Zhou Qigang, Jiao Huan, Li Hui. Characteristics of land use change in the three gorges reservoir area (J). Water and soil conservation research, 2016, 23(02): 313-317359.
[29] Pan Jinghu, Liu Xiao. Dynamics of land use and landscape pattern in the dalai river basin in recent 30 years (J). Agricultural research in arid regions, 2013, 31(05): 142-149185.
[30] Tan Jie, Zhao Sainan, Tan Xuelan, Dong Li, Liu Jierui, Ji Qinyuan. Characteristics of land use and landscape pattern evolution in dongting lake district from 1996 to 2016 (J). Ecological science, 2017, 36(06): 89-97.
[31] Hu Mianhao, Yuan Juhong, Cai Jingyuan, Zhou Zaohong. Landscape pattern change and ecological risk Analysis of River City Land Use -- A Case study of Dexing city, Jiangxi Province (J). Ecological Science, 2008, 37(01): 78-86.
[32] Tian Yu, Zhou Baotong, Fu Wei, Wang Rong. Dynamic evolution of land use landscape pattern in mountain cities from 2000 to 2015 -- a case study of chongqing Yubei District (J). Resources and environment in the Yangtze river basin, 2019, 28(06): 1344-1353.
[33] Tian Xiwen, Wang Xinjun, K.G. Kadilov, Jia Hongtao. Analysis of land use/cover change and landscape pattern in kaila kumku district near 40a (J). Journal of agricultural engineering, 2014, 30(06): 232-241.
[34] Liu Jiyuan, Kuang Wenhui, Zhang Zengxiang, Xu Xinliang, Qin Yuanwei, Ning Jia, Zhou Wancun, Zhang Shuwen, Li Rendong, Yan Changzhen, Wu Shixin, Shi Xuecheng, Jiang Nan, Yu Dongsheng, Pan Xianzhang, Chi Wenfeng. Basic characteristics and spatial pattern of land use change in China since the end of 1980s (J). Acta geographica sinica, 2014, 69(01): 3-14.
[35] Wang Bei, Song Ge, Du Guoming, Yang Yijia, Li Zhiming. Influence of land remediation project on farmland utilization pattern: a case study of heilongjiang 859 farm (J). Journal of hunan university of science and technology (natural science edition), 2019, 34(01): 109-116.
[1] Shi Xujie, Hao Jinmin, Guan Qingchun, Li Mu, Wang Nan, Che Ao. Study on landscape pattern evolution and ecological service value response in quzhou county, hebei province (J). Journal of China agricultural university, 2017, 22(10): 147-158.
[2] Hua Wenjian, Chen Haishan, Li Xing. Research review on land use/cover change and its climatic effects in China (J). Progress in earth science, 2014, 29(09): 1025-1036.
[3] Jing Yunqing, Zhang Fei, Chen Lihua, et al. Study on land use/cover - Landscape pattern and ecological environmental effects of climate change in Aibi Lake Wetland (J). Chinese Journal of Environmental Science, 2017, 37(9).
[4] Ma Shifa, Huang Hongyuan, Cai Yumei, et al. Theoretical framework for comprehensive zoning of land space based on three living Function Optimization (J). Environmental Protection and Mineral Resources, 2014, 11(0031-3).
[5] Hua Jiqing, Ye Changsheng, Wang Fei, Han Ran. Evolution of “three living” land and its driving factors in foshan city (J). Agricultural modernization research, 2019, 40(01): 26-35.
[6] Huang Jinchuan, Lin Haoxi, Qi Xiaoxiao. Research progress of three living space oriented to territorial space optimization (J). Progress in geographical science, 2017, 36(03): 378-391.
[7] Li Chao, Du Zhaoyang, Chen Zhaoya, Xu Hobart, Chen Yaheng. Evaluation of high - standard basic farmland synthesis and construction time - block based on grid data - a case study of Lu Long county, Hebei province (J). Agricultural modernization research, 2015, 36(01): 111-117.
[8] Zhu Lin, Cheng Jiumiao, Jin Jing, Fei Luocheng, Cheng Jian. Study on spatial Pattern and Influencing Factors of “three living” Land Structure-Based on panel data of 284 cities (J). China Agricultural Resources and Zoning, 2008, 39(08): 105-115.
[9] Liu Jilai, Liu Yansui, Li Yurui. Classification evaluation and spatio-temporal pattern analysis of “three living space” in China (J). Acta geographica sinica, 2017, 72(07): 1290-1304.
[10] Zhang Hongqi, Xu Erqi, Zhu Huiyi. Classification and spatial pattern of “three living land” in China (J). Resources science, 2015, 37(07): 1332-1338.
[11] Bai Rushan, Jiang Yupei, Jiang Jinde. Multi-scale Analysis of the spatial Structure of the “Three Health” of The Jianghuai City Cluster (J). China City, 2016(10): 21-28.
[12] Li Qiuying, Fang Chuanglin, Wang Shaojian. Evaluation of space utilization quality of China's provincial land: based on the spatial perspective of “three living” (J). Regional research and development, 2016, 35(05): 163-169.
[13] Zhang Niexin, Guo Ruiqi, Wang Han, et al. Research review of ecological environment change in coastal zone based on GIS-RS (J). Bulletin of Marine Lakes, 2018, 3(12).
[14] Lin Yilin, Zhao Junsan, Zhang Meng, Chen Guoping. Spatial pattern recognition and spatio-temporal evolution characteristics analysis of urban agglomeration in central Yunnan (J). Chinese journal of agricultural machinery, 2019, 50(08): 176-191.
[15] Li Wu, Jing Zhou, Zhouhong Li. Applying of GA-BP Neural Network in the Land Ecological Security Evaluation. International Journal of Computer Science, 2020, 14(8).
[16] Fawen Yu, Xianchu Yu, To strengthen the strategic research on the sustainable development of mountainous areas in China (J). Guizhou Social Sciences, 2015, 308(08): 144-149.
[17] Xiaobo Jiang, Preliminary Study on Computing the Area of Mountain Regions in China Based on Geographic Information System (J). Journal of Mountain Science, 2008, 26(2):129-136.
[18] Jing Zhou, Li Wu. Research on Landscape Pattern Revolution of Land Use in Fuxian Lake Basin Based on RS and GIS (J). International Scholarly and Scientific Research & Innovation, 2020, 47(1).
[19] Wu L, Xie B G, The variation differences of cultivated land ecological security between flatland and mountainous areas based on LUCC. PLoS ONE, 2019, 14(8): e0220747.
[20] Yu Li, Song An, Zheng Yu, Jian Qing, Zhang Pengtao. Classification and spatial pattern analysis of “three living land” -- a case study of changli county (J). China agricultural resources and zoning, 2017, 38(02): 89-96.
[21] Wangmeng Chen, Tong Li, Li Zhang, et al. Change monitoring of aquaculture ponds on the west bank of Ha Long Bay based on remote sensing technology and analysis of its impact on production-living-ecological land (J). 2020, (9):66-71.
[22] Yanzhong Liu, Rongze Sun, Yong Chen etal. Change of Ecological-Living-Industrial Land and Its Response to Ecosystem Service Value in Linxiang City (J). Research of Soil and Water Conservation, 2019, 26(6): 303-310.
[23] Du Jinlong, Zhu Jiwei, Xie Jianchang, et al. Research progress of urban land use based on GIS (J). Remote Sensing of Land Resources, 2018, 30(3): 9-17.
[24] Huang Mengjia, Qi Lu, Li Shujie, Du Wanting, Cao Jingwen. Suitability analysis of urban land space development and construction in Wangqing county based on three living space (J). Journal of Jiangxi agricultural sciences, 2019, 31(08): 119-125.
[25] Meng Yaoyao, Xue Lifang. Analysis on land use and landscape pattern change in Nansihu basin (J). Water and soil conservation research, 2017, 24(03): 246-252.
[26] Zhai Jun, Shao Quanqin, Liu Jiyuan. Analysis on the influence of land use/cover change on temperature change in Inner Mongolia Plateau (J). Chinese Journal of Natural Resources, 2014, 29(6): 0967-78
[27] Gao Yi, Su Fenzhen, Sun Xiaoyu, Yang Xiaomei, Xue Zhenshan, Zhang Dandan. Analysis of land use change and driving force in coastal zone of guangdong province near 20a (J). Acta oceanica sinica (Chinese version), 2011, 33(04): 95-103.
[28] Guo Honglei, Zhou Qigang, Jiao Huan, Li Hui. Characteristics of land use change in the three gorges reservoir area (J). Water and soil conservation research, 2016, 23(02): 313-317359.
[29] Pan Jinghu, Liu Xiao. Dynamics of land use and landscape pattern in the dalai river basin in recent 30 years (J). Agricultural research in arid regions, 2013, 31(05): 142-149185.
[30] Tan Jie, Zhao Sainan, Tan Xuelan, Dong Li, Liu Jierui, Ji Qinyuan. Characteristics of land use and landscape pattern evolution in dongting lake district from 1996 to 2016 (J). Ecological science, 2017, 36(06): 89-97.
[31] Hu Mianhao, Yuan Juhong, Cai Jingyuan, Zhou Zaohong. Landscape pattern change and ecological risk Analysis of River City Land Use -- A Case study of Dexing city, Jiangxi Province (J). Ecological Science, 2008, 37(01): 78-86.
[32] Tian Yu, Zhou Baotong, Fu Wei, Wang Rong. Dynamic evolution of land use landscape pattern in mountain cities from 2000 to 2015 -- a case study of chongqing Yubei District (J). Resources and environment in the Yangtze river basin, 2019, 28(06): 1344-1353.
[33] Tian Xiwen, Wang Xinjun, K.G. Kadilov, Jia Hongtao. Analysis of land use/cover change and landscape pattern in kaila kumku district near 40a (J). Journal of agricultural engineering, 2014, 30(06): 232-241.
[34] Liu Jiyuan, Kuang Wenhui, Zhang Zengxiang, Xu Xinliang, Qin Yuanwei, Ning Jia, Zhou Wancun, Zhang Shuwen, Li Rendong, Yan Changzhen, Wu Shixin, Shi Xuecheng, Jiang Nan, Yu Dongsheng, Pan Xianzhang, Chi Wenfeng. Basic characteristics and spatial pattern of land use change in China since the end of 1980s (J). Acta geographica sinica, 2014, 69(01): 3-14.
[35] Wang Bei, Song Ge, Du Guoming, Yang Yijia, Li Zhiming. Influence of land remediation project on farmland utilization pattern: a case study of heilongjiang 859 farm (J). Journal of hunan university of science and technology (natural science edition), 2019, 34(01): 109-116.
@article{"International Journal of Earth, Energy and Environmental Sciences:80135", author = "Ying Pan and Li Wu and Jing Zhou and Lan Li", title = "Study on Landscape Pattern Evolution of Ecological-Living-Industrial Land in Plateau Mountainous Area: A Case Study of Yuxi City, Yunnan Province", abstract = "The coordination and development of ecological-living-industrial land uses are the premise foundations for the formulation and implementation of the current land space planning, and more attention should be paid to plateau mountainous areas. This research is based on spatial analysis technology and landscape pattern index method taking Yuxi city, a typical mountainous plateau as the research area. By using relevant software such as ArcGIS10.5, Fragstats 4.2 and the four remote sensing images of Yuxi city in 1980, 1995, 2005 and 2015, the temporal-spatial evolution and differentiation pattern of ecological-living-industrial land applications have been discussed. The research results show that: (1) From the perspective of land use type change, ecological land of Yuxi city has been the main source of land from 1980 to 2015, which totally occupies more than 78%. During this period, the spatial structure of the ecological-living-industrial land changed significantly, namely, the living land. Its land area increased significantly from 0.83% of the total area in 1980 to 1.25% in 2015, the change range of ecological land and industrial land is relatively small. (2) In terms of land use landscape pattern transfer matrix, from 1980 to 2015, the industrial land and ecological land in Yuxi city have been gradually transferred to living land. (3) In the aspect of landscape pattern changes, various landscape pattern indexes of Yuxi city indicate that the fragmentation degree of landscape pattern of the ecological-living-industrial land in this region is increasing. The degree of agglomeration goes down, and the landscape types have changed from being relatively simple to relatively rich. The landscape is more diverse, but the patch size is uneven, meanwhile, the integrity of the ecological space is destroyed.
", keywords = "Ecological-living-industrial land, spatio-temporal evolution, landscape pattern, plateau mountainous area.", volume = "15", number = "1", pages = "1-12", }
