Optimization and Regulation Policy for Land Use Changes Based on Low-carbon Emission in Developed Regions of China
Land use and cover change(LUCC) is one of the important causes of the Earth’s carbon cycle imbalances resulting from failure in optimizing land use. The solution to this problem has been the hotspot of research in land and environmental science. We took 'low carbon', 'ener...
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| Published in | Asian agricultural research Vol. 9; no. 6; pp. 67 - 76 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Cranston
Wu Chu (USA-China) Science and Culture Media Corporation
01.06.2017
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1943-9903 |
| DOI | 10.19601/j.cnki.issn1943-9903.2017.06.015 |
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| Abstract | Land use and cover change(LUCC) is one of the important causes of the Earth’s carbon cycle imbalances resulting from failure in optimizing land use. The solution to this problem has been the hotspot of research in land and environmental science. We took 'low carbon', 'energy saving' and 'high-efficiency' as the goals of land use optimization,and integrated Markov-CA(Cellular Automaton),the Grid-Fractal model and GIS,in order to study carbon emission objective function,to establish a simulation method for land use spatial allocation optimization,to evaluate the effect of the method on carbon emissions. Regulation policy on three types of land use spatial allocation was proposed,including 'low-carbon type', 'low-carbon-economic type' and 'economic type'. We applied the method to analyze the land use spatial allocation in Taixing City of the 'Yangtze River Delta' regions in China,and obtained the following results:(i) The three optimization types would improve carbon emissions by 3. 21%,1. 80% and 0. 36% respectively in 2020,compared with 2010;(ii) The actual planning for 2020 was close to the 'low-carbon-economic type';(iii) The optimization method and regulation policy,combining local optimization and global control,could meet the sustainable multi-objective requirements for low-carbon constraints of land use spatial allocation. The result of this research could also serve as a reference for exploration into patterns of regional low-carbon land use and measures for energy saving and emission reduction. |
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| AbstractList | Land use and cover change(LUCC) is one of the important causes of the Earth’s carbon cycle imbalances resulting from failure in optimizing land use. The solution to this problem has been the hotspot of research in land and environmental science. We took 'low carbon', 'energy saving' and 'high-efficiency' as the goals of land use optimization,and integrated Markov-CA(Cellular Automaton),the Grid-Fractal model and GIS,in order to study carbon emission objective function,to establish a simulation method for land use spatial allocation optimization,to evaluate the effect of the method on carbon emissions. Regulation policy on three types of land use spatial allocation was proposed,including 'low-carbon type', 'low-carbon-economic type' and 'economic type'. We applied the method to analyze the land use spatial allocation in Taixing City of the 'Yangtze River Delta' regions in China,and obtained the following results:(i) The three optimization types would improve carbon emissions by 3. 21%,1. 80% and 0. 36% respectively in 2020,compared with 2010;(ii) The actual planning for 2020 was close to the 'low-carbon-economic type';(iii) The optimization method and regulation policy,combining local optimization and global control,could meet the sustainable multi-objective requirements for low-carbon constraints of land use spatial allocation. The result of this research could also serve as a reference for exploration into patterns of regional low-carbon land use and measures for energy saving and emission reduction. Land not only has functions on production, carrying and asset, also on control and optimization inputs structure, type and layout of labor, capital, energy and other resources. Since the existing " Energy Saving" technology system can not completely solve the problem of carbon emissions[17], we need to seek a lowcarbon direction of land use to achieve the optimal allocation of land resources in space-time. Carbon control of land use change has been a hotspot in Land and Environmental Sciences. Since carbon intensity and environmental capacity are closely related to land use structure, spatial allocation and intensity, regulation of land use change based on low-carbon and economy constraints is a dynamic multi-objective optimization problem [12]. According to the land use spatial scale denoted by Q(r) in formula (7) based on land type lk into ls under parameter r and rules f (matrix low-carbon regulation matrix of land use structure changes) , we determine appropriate parameters rs by pk„ after obtaining formula (7) parameters. 2.5 Evaluation on simulation Referring to " low-carbon type ?[" j "low-carbon-economy type ? 82% , 28.59% and 30.86% in " economy type" ; 2.50% , 29.84% and 29.34% in 2020 physical planning. [...]the proportion of arable land in the main city zone and four parks decreases but increases in other towns at optimization and physical planning in which " economy type" optimization changes fast This is consistent with the Main Functional Area's position and constraints of land use suitability, (b) In aspect of urban industrial land spatial allocation optimization, to improve the efficiency of construction land, we focus on protection of the secondary and tertiary industries and residential land agro-processing park in the main city zone, economic development zone ( Binjiang Park) , Hongqiao Industrial Park, Huangqiao Industrial Park and the northern part of New Street, at the junction of Yuanzhu. |
| Author | Degui YU Qun WU |
| AuthorAffiliation | College of Humanities and Social Development,Nanjing Agricultural University;College of Land Management,Nanjing Agricultural University |
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| Notes | Degui YU;Qun WU;College of Humanities and Social Development,Nanjing Agricultural University;College of Land Management,Nanjing Agricultural University ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 |
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| Snippet | Land use and cover change(LUCC) is one of the important causes of the Earth’s carbon cycle imbalances resulting from failure in optimizing land use. The... Land not only has functions on production, carrying and asset, also on control and optimization inputs structure, type and layout of labor, capital, energy and... |
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| StartPage | 67 |
| SubjectTerms | Carbon Carbon cycle Climate change Economic development Emissions Environmental science GDP Gross Domestic Product Land use Linear programming Optimization Planning Science Simulation Water conservation |
| Title | Optimization and Regulation Policy for Land Use Changes Based on Low-carbon Emission in Developed Regions of China |
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