长江中游城市群生态系统健康时空演变及其城镇化驱动机制研究
发布时间:2022-10-10 20:00
一、研究背景“人类世”概念的提出表明人类活动已经对整个地球表层系统产生了深远影响,人类活动对地球表层系统的影响已经远远超过了自然要素对地球表层系统的影响。城市群是经济、工业化和城镇化快速发展的区域,同时也是社会问题、资源枯竭、环境恶化和土地利用问题等人地矛盾突出的地区。随着全球化的深入和全球范围内竞争的日益激烈,城市群越来越成为全球经济竞争的新空间。《国家新城镇化规划(2014-2020)》指出,中国的城市群是促进中国城镇化发展的主体形态。当前中国主要的国家级城市群包括长三角城市群、京津冀城市群、珠三角城市群、成渝城市群和长江中游城市群,这些城市群在当前的中国经济发展中扮演着重要角色,同时经历着大规模的城镇化进程。以充满活力的城市群为动力,完善中国城镇化的主体形态将成为中国特色城镇化道路的重要选择。中国的新城镇化正处于从土地城镇化到人口城镇化的过渡时期,城市人口集聚、非农产业集聚、经济集聚和景观格局变化将促进土地利用转型,同时严重影响生态系统健康。另外,城市群快速城镇化和工业化,极大地促进了城乡转型的转型升级,加剧了土地利用转型,导致城市无序扩张、耕地占用和严重的生态环境问题。同时,生...
【文章页数】:268 页
【学位级别】:博士
【文章目录】:
作者简历
摘要
abstract
Chapter1 Introduction
1.1 Research background
1.1.1 The increasingly severe contradiction between human and natural systems
1.1.2 Rapid urbanization in urban agglomerations
1.1.3 The need to identify the impact of urbanization on ecosystem health
1.1.4 The need for ecological civilization construction
1.2 Literature review
1.2.1 Land use/land cover change
1.2.2 Landscape pattern index
1.2.3 Ecosystem services
1.2.4 Ecosystem health
1.2.5 Shortcomings in previous studies
1.3 Research objectives,questions,and contributions
1.3.1 Research objectives
1.3.2 Research questions
1.3.3 Research contributions
1.3.4 Outline of the dissertation
Chapter2 Research theoretical basis
2.1 Main conceptual definition
2.1.1 Landscape pattern index
2.1.2 Ecosystem services
2.1.3 Ecosystem health
2.2 Theoretical basis
2.2.1 Man-land relationship systems
2.2.2 Sustainable development theory
2.2.3 First law of geography
2.2.4 Environmental Kuznets curve
2.2.5 Telecoupling
Chapter3 Ecosystem health assessment in the MRYRUA
3.1 Study area
3.1.1 Location and natural environment
3.1.2 Socioeconomic background
3.1.3 Policy background
3.2 Land use change analysis in the MRYRUA from1995 to 2015
3.2.1 Materials and methods
3.2.2 Quantity change of land use
3.2.3 Spatial change of land use
3.3 Modeling ecosystem health in the MRYRUA from1995 to 2015
Chapter4 Ecosystem physical health assessment in the MRYRUA
4.1 Ecosystem organization
4.1.1 Landscape pattern metrics
4.1.2 Spatiotemporal landscape pattern in the MRYRUA from 1995 to 2015
4.1.3 Spatiotemporal ecosystem organization pattern in the MRYRUA from to 2015
4.2 Ecosystem vigor
4.3 Ecosystem resilience
4.4 Spatiotemporal evolution pattern of ecosystem physical health in the MRYRUA from1995 to
Chapter5 Ecosystem services assessment in the MRYRUA
5.1 Quantifying ecosystem services
5.1.1 Grain productivity
5.1.2 Water yield
5.1.3 Carbon storage
5.1.4 Soil conservation
5.1.5 Water purification
5.1.6 Biodiversity conservation
5.1.7 Cultural services
5.2 Mapping comprehensive ecosystem services index
5.3 Spatiotemporal evolution pattern of ecosystem services in the MRYRUA from 1995 to 2015
5.3.1 Changes of multiple ecosystem services from1995 to 2015
5.3.2 Spatiotemporal evolution pattern of grain productivity from1995 to 2015
5.3.3 Spatiotemporal evolution pattern of water yield from1995 to 2015
5.3.4 Spatiotemporal evolution pattern of carbon storage from 1995 to 2015
5.3.5 Spatiotemporal evolution pattern of soil conservation from 1995 to 2015
5.3.6 Spatiotemporal evolution pattern of water purification from 1995 to 2015
5.3.7 Spatiotemporal evolution pattern of biodiversity conservation from 1995 to 2015
5.3.8 Spatiotemporal evolution pattern of culture services from 1995 to 2015
5.4 Spatial pattern of comprehensive ecosystem services index in the MRYRUA from 1995 to 2015
Chapter6 Spatiotemporal evolution pattern of ecosystem health in the MRYRUA
6.1 Spatiotemporal distribution pattern of ecosystem health in the MRYRUA from 1995 to 2015
6.2 Hotspot analysis of ecosystem health in the MRYRUA from1995 to 2015
Chapter7 Influence mechanism of urbanization on ecosystem health in the MRYRUA
7.1 Driving factors of ecosystem health in the MRYRUA
7.1.1 Conceptual framework for dynamic mechanism of ecosystem health
7.1.2 Dependent variable
7.1.3 Explanatory variables
7.1.4 Control variables
7.2 Urbanization measurement in the MRYRUA from 1995 to 2015
7.2.1 Spatiotemporal evolution pattern of urbanization in the MRYRUA from 1995 to 2015
7.2.2 The relationship between urbanization and ecosystem health in the MRYRUA from1995 to
7.3 Spatial regression model
7.3.1 Spatial autocorrelation test
7.3.2 Spatial regression dealing with spatial dependence
7.3.3 Spatial regression dealing with spatial heterogeneity
7.3.4.Performance comparisons
7.4 Spatial regression results at global and local levels
7.4.1 Spatial correlations between ecosystem health and urbanization
7.4.2 Spatial regression results at global level
7.4.3 Spatial regression results at local level
7.4.4 Scale-dependent spatial non-stationarity
7.4.5 Advantage of GWR
Chapter8 Conclusions and policy implications
8.1 Main conclusions
8.1.1 Quantifying ecosystem services in the MRYRUA
8.1.2 Modeling ecosystem health in the MRYRUA
8.1.3 Mapping urbanization level in the MRYRUA
8.1.4 Influence mechanism of urbanization on ecosystem health in the MRYRUA
8.2 Policy implications
8.2.1 Bringing spatial spillover effect into ecosystem governance and land use decisions
8.2.2 Impact of urbanization on ecosystem health in the telecoupled world
8.2.3 Implication of spatial relationship between ecosystem health and urbanization for urban landscape planning
8.3 Limitations and future directions
致谢
References
【参考文献】:
期刊论文
[1]新中国成立70年来的城镇化建设及其未来应然走向[J]. 许伟. 武汉大学学报(哲学社会科学版). 2019(04)
[2]中国城镇化70年:基于地方政府治理视角的回顾和展望[J]. 王志锋,张维凡,朱中华. 经济问题. 2019(07)
[3]中国特色新型城镇化理论内涵的认知与建构[J]. 陈明星,叶超,陆大道,隋昱文,郭莎莎. 地理学报. 2019(04)
[4]远程耦合视角下的土地利用/覆被变化解释[J]. 马恩朴,蔡建明,林静,韩燕,廖柳文,韩炜. 地理学报. 2019(03)
[5]长江中游地区生态系统服务价值空间分异及敏感性分析[J]. 陈万旭,李江风,朱丽君. 自然资源学报. 2019(02)
[6]改革开放40年来中国城镇化与城市群取得的重要进展与展望[J]. 方创琳. 经济地理. 2018(09)
[7]流域景观破碎化对土壤保持服务的影响研究——以甘肃白龙江流域为例[J]. 张金茜,柳冬青,巩杰,马学成,曹二佳. 资源科学. 2018(09)
[8]基于GWR的中国城市用地扩张驱动力差异性研究[J]. 陈万旭,李江风,熊锦惠,张桀滈. 河南大学学报(自然科学版). 2018(05)
[9]基于地貌分区的1990-2015年中国耕地时空特征变化分析[J]. 程维明,高晓雨,马廷,徐新良,陈印军,周成虎. 地理学报. 2018(09)
[10]三峡库区社区水平乡村路网对森林景观变化的影响[J]. 曹飞,邵景安,马雪莹,李春梅,杜建平,蒋佳佳,强丹阳. 自然资源学报. 2018(08)
本文编号:3690260
【文章页数】:268 页
【学位级别】:博士
【文章目录】:
作者简历
摘要
abstract
Chapter1 Introduction
1.1 Research background
1.1.1 The increasingly severe contradiction between human and natural systems
1.1.2 Rapid urbanization in urban agglomerations
1.1.3 The need to identify the impact of urbanization on ecosystem health
1.1.4 The need for ecological civilization construction
1.2 Literature review
1.2.1 Land use/land cover change
1.2.2 Landscape pattern index
1.2.3 Ecosystem services
1.2.4 Ecosystem health
1.2.5 Shortcomings in previous studies
1.3 Research objectives,questions,and contributions
1.3.1 Research objectives
1.3.2 Research questions
1.3.3 Research contributions
1.3.4 Outline of the dissertation
Chapter2 Research theoretical basis
2.1 Main conceptual definition
2.1.1 Landscape pattern index
2.1.2 Ecosystem services
2.1.3 Ecosystem health
2.2 Theoretical basis
2.2.1 Man-land relationship systems
2.2.2 Sustainable development theory
2.2.3 First law of geography
2.2.4 Environmental Kuznets curve
2.2.5 Telecoupling
Chapter3 Ecosystem health assessment in the MRYRUA
3.1 Study area
3.1.1 Location and natural environment
3.1.2 Socioeconomic background
3.1.3 Policy background
3.2 Land use change analysis in the MRYRUA from1995 to 2015
3.2.1 Materials and methods
3.2.2 Quantity change of land use
3.2.3 Spatial change of land use
3.3 Modeling ecosystem health in the MRYRUA from1995 to 2015
Chapter4 Ecosystem physical health assessment in the MRYRUA
4.1 Ecosystem organization
4.1.1 Landscape pattern metrics
4.1.2 Spatiotemporal landscape pattern in the MRYRUA from 1995 to 2015
4.1.3 Spatiotemporal ecosystem organization pattern in the MRYRUA from to 2015
4.2 Ecosystem vigor
4.3 Ecosystem resilience
4.4 Spatiotemporal evolution pattern of ecosystem physical health in the MRYRUA from1995 to
Chapter5 Ecosystem services assessment in the MRYRUA
5.1 Quantifying ecosystem services
5.1.1 Grain productivity
5.1.2 Water yield
5.1.3 Carbon storage
5.1.4 Soil conservation
5.1.5 Water purification
5.1.6 Biodiversity conservation
5.1.7 Cultural services
5.2 Mapping comprehensive ecosystem services index
5.3 Spatiotemporal evolution pattern of ecosystem services in the MRYRUA from 1995 to 2015
5.3.1 Changes of multiple ecosystem services from1995 to 2015
5.3.2 Spatiotemporal evolution pattern of grain productivity from1995 to 2015
5.3.3 Spatiotemporal evolution pattern of water yield from1995 to 2015
5.3.4 Spatiotemporal evolution pattern of carbon storage from 1995 to 2015
5.3.5 Spatiotemporal evolution pattern of soil conservation from 1995 to 2015
5.3.6 Spatiotemporal evolution pattern of water purification from 1995 to 2015
5.3.7 Spatiotemporal evolution pattern of biodiversity conservation from 1995 to 2015
5.3.8 Spatiotemporal evolution pattern of culture services from 1995 to 2015
5.4 Spatial pattern of comprehensive ecosystem services index in the MRYRUA from 1995 to 2015
Chapter6 Spatiotemporal evolution pattern of ecosystem health in the MRYRUA
6.1 Spatiotemporal distribution pattern of ecosystem health in the MRYRUA from 1995 to 2015
6.2 Hotspot analysis of ecosystem health in the MRYRUA from1995 to 2015
Chapter7 Influence mechanism of urbanization on ecosystem health in the MRYRUA
7.1 Driving factors of ecosystem health in the MRYRUA
7.1.1 Conceptual framework for dynamic mechanism of ecosystem health
7.1.2 Dependent variable
7.1.3 Explanatory variables
7.1.4 Control variables
7.2 Urbanization measurement in the MRYRUA from 1995 to 2015
7.2.1 Spatiotemporal evolution pattern of urbanization in the MRYRUA from 1995 to 2015
7.2.2 The relationship between urbanization and ecosystem health in the MRYRUA from1995 to
7.3 Spatial regression model
7.3.1 Spatial autocorrelation test
7.3.2 Spatial regression dealing with spatial dependence
7.3.3 Spatial regression dealing with spatial heterogeneity
7.3.4.Performance comparisons
7.4 Spatial regression results at global and local levels
7.4.1 Spatial correlations between ecosystem health and urbanization
7.4.2 Spatial regression results at global level
7.4.3 Spatial regression results at local level
7.4.4 Scale-dependent spatial non-stationarity
7.4.5 Advantage of GWR
Chapter8 Conclusions and policy implications
8.1 Main conclusions
8.1.1 Quantifying ecosystem services in the MRYRUA
8.1.2 Modeling ecosystem health in the MRYRUA
8.1.3 Mapping urbanization level in the MRYRUA
8.1.4 Influence mechanism of urbanization on ecosystem health in the MRYRUA
8.2 Policy implications
8.2.1 Bringing spatial spillover effect into ecosystem governance and land use decisions
8.2.2 Impact of urbanization on ecosystem health in the telecoupled world
8.2.3 Implication of spatial relationship between ecosystem health and urbanization for urban landscape planning
8.3 Limitations and future directions
致谢
References
【参考文献】:
期刊论文
[1]新中国成立70年来的城镇化建设及其未来应然走向[J]. 许伟. 武汉大学学报(哲学社会科学版). 2019(04)
[2]中国城镇化70年:基于地方政府治理视角的回顾和展望[J]. 王志锋,张维凡,朱中华. 经济问题. 2019(07)
[3]中国特色新型城镇化理论内涵的认知与建构[J]. 陈明星,叶超,陆大道,隋昱文,郭莎莎. 地理学报. 2019(04)
[4]远程耦合视角下的土地利用/覆被变化解释[J]. 马恩朴,蔡建明,林静,韩燕,廖柳文,韩炜. 地理学报. 2019(03)
[5]长江中游地区生态系统服务价值空间分异及敏感性分析[J]. 陈万旭,李江风,朱丽君. 自然资源学报. 2019(02)
[6]改革开放40年来中国城镇化与城市群取得的重要进展与展望[J]. 方创琳. 经济地理. 2018(09)
[7]流域景观破碎化对土壤保持服务的影响研究——以甘肃白龙江流域为例[J]. 张金茜,柳冬青,巩杰,马学成,曹二佳. 资源科学. 2018(09)
[8]基于GWR的中国城市用地扩张驱动力差异性研究[J]. 陈万旭,李江风,熊锦惠,张桀滈. 河南大学学报(自然科学版). 2018(05)
[9]基于地貌分区的1990-2015年中国耕地时空特征变化分析[J]. 程维明,高晓雨,马廷,徐新良,陈印军,周成虎. 地理学报. 2018(09)
[10]三峡库区社区水平乡村路网对森林景观变化的影响[J]. 曹飞,邵景安,马雪莹,李春梅,杜建平,蒋佳佳,强丹阳. 自然资源学报. 2018(08)
本文编号:3690260
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