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2022 Vol. 42, No. 4
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ZHAO Yinbing, NI Zhongyun, OUYANG Yuan, YUAN Caidong, CHEN Xinyi, WANG Dong, LIU Jingjing, LIU Hong. 2022. Research progress of eco-geological environment carrying capacity. Sedimentary Geology and Tethyan Geology, 42(4): 529-541. doi: 10.19826/j.cnki.1009-3850.2022.04021
Citation: ZHAO Yinbing, NI Zhongyun, OUYANG Yuan, YUAN Caidong, CHEN Xinyi, WANG Dong, LIU Jingjing, LIU Hong. 2022. Research progress of eco-geological environment carrying capacity. Sedimentary Geology and Tethyan Geology, 42(4): 529-541. doi: 10.19826/j.cnki.1009-3850.2022.04021
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Research progress of eco-geological environment carrying capacity

  • 1. College of Tourism and Urban-Rural Planning, Chengdu University of Technology, Chengdu 610059, China;

  • 2. College of Earth Sciences, Chengdu University of Technology, Chengdu 610059, China;

  • 3. Chengdu Center, China Geological Survey, Chengdu 610081, China;

  • 4. Key Laboratory of Wetland Ecology and Protection of Hebei Province (under preparation), Hengshui 053000, China;

  • 5. Geological Environment Investigation Institute of Qinghai Environmental Geological Exploration Bureau, Xining 810007, China

More Information
  • Corresponding author: NI Zhongyun  
Received Date:  17 February 2022
Revised Date:  05 April 2022
    Abstract
  • Eco-geological environment is developed from ecological geology and environmental geology, and constitutes an organic whole by three subsystems of geological environment, ecological environment and social and economic environment. It is combined with the carrying capacity of environment to form the carrying capacity of eco-geological environment, which is used to characterize the threshold of human activities that can be tolerated. Domestic research on eco-geological environment carrying capacity can be divided into three stages: the preparation stage before 2000, the exploration stage from 2000 to 2010, and the stable development stage from 2011 to the present. The implementation of major national guidelines and policies and major eco-geological environmental events have affected the research direction of carrying capacity. There is a certain difference between the development degree of the carrying capacity of eco-geological environment subsystems and systems. There are more studies on the carrying capacity of ecological environment, followed by the carrying capacity of geological environment, and the carrying capacity of social and economic environment is the last. During the same period, research on the carrying capacity of system is in the process of continuous integration. Existing research has deficiencies in terms of interdisciplinary integration, coupling mechanism, integration of simulation and forecasting models, and response to major national demand services. In the future, the research on the carrying capacity of eco-geological environment should adhere to the system view, integrate the two scales of subsystem and system, and push the research to a new height from the aspects of expanding the in-depth correlation of disciplines, deepening the multi-dimensional coupling mechanism, developing integrated simulation and prediction model, and responding to the needs of the state and society.
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  • Anputhas M, Janmaat J A, Nichol C F, et al., 2016. Modelling spatial association in pattern based land use simulation models[J]. Journal of Environmental Management, 181:465-476.

    Google Scholar

    Arrow K, Bolin B, Costanza R, et al., 1996. Economic growth, carrying capacity, and the environment[J]. Science, 268:520-521.

    Google Scholar

    Chen Y, Zhao L, 2019. Exploring the relation between the industrial structure and the eco-environment based on an integrated approach: A case study of Beijing, China[J]. Ecological Indicators, 103(2):83-93.

    Google Scholar

    Cooper G S, Dearing J A, 2019. Modelling future safe and just operating spaces in regional social-ecological systems[J]. Science of the Total Environment, 651(2):2105-2117.

    Google Scholar

    Daily G C, Ehrlich P R, 1992. Population, sustainability, and earth's carrying capacity[J]. BioScience, 42(10):761-771.

    Google Scholar

    He X, Mai X, Shen G, 2019. Delineation of urban growth boundaries with SD and CLUE-s Models under Multi-Scenarios in Chengdu Metropolitan Area[J]. Sustainability,11(21):5919.

    Google Scholar

    Kang P, Xu L, 2010. The urban ecological regulation based on ecological carrying capacity[J]. Procedia Environmental Sciences, 2:1692-1700.

    Google Scholar

    Li W, Liu S, Pei Y, et al., 2018.Zoning for eco-geological environment before mining in Yushenfu mining area, northern Shaanxi, China[J]. Environmental monitoring and assessment,190:61910.

    Google Scholar

    Liu D, Zheng X, Zhang C, et al., 2017. A new temporal-spatial dynamics method of simulating land-use change[J]. Ecological Modelling, 350:1-10.

    Google Scholar

    Liu K, Qiao Y, Shi T, et al., 2021. Study on coupling coordination and spatiotemporal heterogeneity between economic development and ecological environment of cities along the Yellow River Basin[J]. Environmental Science and Pollution Research, 28(7):1-15.

    Google Scholar

    Nava Guerrero G D C, Schwarz P, Slinger J H, 2016. A recent over- view of the integration of system dynamics and agent- based modelling and simulation: Proceedings of the 34th International Conference of the System Dynamics Society, Delft, Netherlands [C].

    Google Scholar

    Park R, Burgess E, 1921. Introduction to the science of sociology[M]. Chicago: University of Chicago Press.

    Google Scholar

    Piccinno F, Hischier R, Seeger S, et al., 2017. Predicting the environmental impact of a future nanocellulose production at industrial scale: application of the life cycle assessment scale-up framework[J]. Journal of Cleaner Production, 174:283-295.

    Google Scholar

    Qin S, Zhong G, Wang J, 2010. The Influence of climate patterns on grassland NPP and the study on livestock carrying capacity in Naqu[J]. Journal of Arid Land Resources and Environment, 24:159-164.

    Google Scholar

    Ralha C G, Abreu C G, Coelho C G C, et al., 2013. A multi-agent model system for land-use change simulation[J]. Environmental Modelling & Software, 42:30-46.

    Google Scholar

    Shi T, Yang S, Zhang W, et al., 2020. Coupling coordination degree measurement and spatiotemporal heterogeneity between economic development and ecological environment -Empirical evidence from tropical and subtropical regions of China[J]. Journal of Cleaner Production, 244:118739.

    Google Scholar

    Swiąder M, Lin D, Szewrański S, et al., 2020. The application of ecological footprint and biocapacity for environmental carrying capacity assessment: A new approach for European cities[J]. Environmental Science & Policy, 105:56-74.

    Google Scholar

    Trofimov V T, 2013. Current state, tasks, and problems of the further development of ecological geology[J]. Moscow University Geology Bulletin, 68(3):155-164.

    Google Scholar

    Trofimov V T, 2001. Ecology a novel branch of geological sciences[J]. Earth Science Frontiers, 1(8):27-35.

    Google Scholar

    Wan J, Zhang L, Yan J, et al., 2020. Spatial-temporal characteristics and influencing factors of coupled coordination between Urbanization and eco-environment: A case study of 13 Urban Agglomerations in China[J]. Sustainability, 12:882121.

    Google Scholar

    Wan L, Zhang Y, Qi S, et al., 2017. A study of regional sustainable development based on GIS/RS and SD model - Case of Hadaqi industrial corridor[J]. Journal of Cleaner Production,142(SI2):654-662.

    Google Scholar

    Xue Q, Song W, Zhang Y, et al., 2017. Research Progress in Ecological Carrying Capacity: Implications, Assessment Methods and Current Focus[J]. Journal of Resources and Ecology,8(5):514-525.

    Google Scholar

    Yang Z, Li W, Li X, et al., 2019. Assessment of eco-geo-environment quality using multivariate data: A case study in a coal mining area of Western China[J]. Ecological Indicators,107:105651.

    Google Scholar

    Zhou X, Zheng B, Khu S. Simulation platform of human-environment systems for water environment carrying capacity research[J]. Journal of Cleaner Production,2020,250:119577.

    Google Scholar

    毕思文,2003.地球系统科学导论[M].北京:科学出版社.

    Google Scholar

    补建伟,孙自永,周爱国,等,2016.我国矿山地质环境承载力研究现状[J].中国矿业,25(1):61-68.

    Google Scholar

    蔡玉梅,刘彦随,宇振荣,等,2004.土地利用变化空间模拟的进展--CLUE-S模型及其应用[J].地理科学进展,23(4):63-71.

    Google Scholar

    曹小曙,2019.基于人地耦合系统的国土空间重塑[J].自然资源学报,34(10):2051-2059.

    Google Scholar

    曹智,闵庆文,刘某承,等,2015.基于生态系统服务的生态承载力:概念、内涵与评估模型及应用[J].自然资源学报,30(1):1-11.

    Google Scholar

    曾卫,杨春,周瀚韬,2018.地质生态环境与城市化关联性研究--以重庆市为例[J].山地学报,36(5):679-692.

    Google Scholar

    陈成忠,林振山,2007.中国人均生态足迹与生物承载力变化的EMD分析及情景预测[J].生态学报,27(12):5291-5299.

    Google Scholar

    陈发虎,吴绍洪,刘鸿雁,等,2021.自然地理学学科体系与发展战略要点[J].地理学报,76(9):2074-2082.

    Google Scholar

    陈梦熊,1995.环境地质科学的基本理论与发展前景[J].工程地质学报,13(3):31-34.

    Google Scholar

    崔学刚,方创琳,刘海猛,等,2019.城镇化与生态环境耦合动态模拟理论及方法的研究进展[J].地理学报,74(6):1079-1096.

    Google Scholar

    狄乾斌,韩帅帅,韩增林,2016.中国地级以上城市经济承载力的空间格局[J].地理研究,35(2):337-352.

    Google Scholar

    狄乾斌,韩帅帅,2015.城市经济承载力的综合评价及其时空差异研究--以我国15个副省级城市为例[J].经济地理,35(9):57-64.

    Google Scholar

    丁月清,杨建华,洪增林,等,2019.面向“三区三线”划定的城市群资源环境承载力评价方法研究--以关中平原城市群评价为例[J].西北地质,52(3):223-230.

    Google Scholar

    董和金,2000.关于城市生态地质环境研究[J].中国地质,27(5):33-35.

    Google Scholar

    董俊丽,任栋,2012.基于经济文化强省建设目标的山东经济社会承载力研究[J].东岳论丛,33(5):158-161.

    Google Scholar

    杜蕾,谢婉丽,2018.城市地质环境承载力研究进展及展望[J].防灾科技学院学报,20(2):15-20.

    Google Scholar

    杜尧,马腾,邓娅敏,等,2017.潜流带水文-生物地球化学:原理、方法及其生态意义[J].地球科学,42(5):661-673.

    Google Scholar

    樊杰,陶岸君,陈田,等,2008.资源环境承载能力评价在汶川地震灾后恢复重建规划中的基础性作用[J].中国科学院院刊,23(5):387-392.

    Google Scholar

    樊杰,周侃,王亚飞,2017.全国资源环境承载能力预警(2016版)的基点和技术方法进展[J].地理科学进展,36(3):266-276.

    Google Scholar

    方创琳,周成虎,顾朝林,等,2016.特大城市群地区城镇化与生态环境交互耦合效应解析的理论框架及技术路径[J].地理学报,71(4):531-550.

    Google Scholar

    方鸿琪,杨闽中,2002.城市工程地质环境与防灾规划[J].中国地质灾害与防治学报,13(1):3-6.

    Google Scholar

    方精云,2021.碳中和的生态学透视[J].植物生态学报,45(11):1-4.

    Google Scholar

    傅伯杰,冷疏影,宋长青,2015.新时期地理学的特征与任务[J].地理科学,35(8):939-945.

    Google Scholar

    高传昌,谢虹,2009.基于多目标动态规划的郑州水资源承载力研究[J].人民黄河,31(4):55-56.

    Google Scholar

    葛全胜,刘卫东,孙鸿烈,等,2020.地理科学与资源科学的国家智库建设[J].地理学报,75(12):2655-2668.

    Google Scholar

    巩固,2019.“生态环境”宪法概念解析[J].吉首大学学报(社会科学版),40(5):70-80.

    Google Scholar

    顾朝林,张悦,翟炜,等,2016.城市与区域定量研究进展[J].地理科学进展,35(12):1433-1446.

    Google Scholar

    官冬杰,谭静,张梦婕,等,2017.重庆市人口与经济发展空间耦合分布研究[J].人文地理,32(2):122-128.

    Google Scholar

    郭巨海,陆彦,侯庆志,等,2015.滩涂资源承载力指标及评价方法研究[J].人民黄河,37(6):63-66.

    Google Scholar

    郭倩,汪嘉杨,张碧,2017.基于DPSIRM框架的区域水资源承载力综合评价[J].自然资源学报,32(3):484-493.

    Google Scholar

    哈承祐,2006.环境地质研究进展与展望[J].地质通报,22(11):1247-1256.

    Google Scholar

    韩帅帅,狄乾斌,2017.产业结构变动对城市经济承载力增长的贡献--以辽宁省14个城市为例[J].地域研究与开发, 36(4): 37-42+48.

    Google Scholar

    何政伟,刘峻杉,赵银兵,等,2011.西部矿产资源开发的地质生态环境承载力理论与方法探讨[J]. 地球与环境,39(2):237-241.

    Google Scholar

    胡宝清,刘顺生,张洪恩,等,2001.长江流域地质-生态环境的演化机制及综合自然灾害区划[J]. 自然灾害学报,10(3):13-19.

    Google Scholar

    黄建军,2015.生态环境与地质构造的耦合关系研究[J].地球环境学报,6(4):231-237.

    Google Scholar

    黄润秋,2001.生态环境地质的基本特点与技术支撑[J].中国地质,28(11):20-24.

    Google Scholar

    黄贤金,宋娅娅,2019.基于共轭角力机制的区域资源环境综合承载力评价模型[J].自然资源学报,34(10):2103-2112.

    Google Scholar

    蒋伟,1989.生态系统的人口承载力理论初探[J].生态学杂志,8(1):31-35.

    Google Scholar

    孔伟,魏红磊,任亮,等,2017.城市社会承载力评价及提升策略研究--以张家口市为例[J].河北北方学院学报(社会科学版),33(1):53-56.

    Google Scholar

    兰恒星,彭建兵,祝艳波,等,2022.黄河流域地质地表过程与重大灾害效应研究与展望[J].中国科学:地球科学,52(2):199-221.

    Google Scholar

    黎斌,何建华,屈赛,等,2018.基于贝叶斯网络的城市生态红线划定方法[J].生态学报,38(3):800-811.

    Google Scholar

    李东序,赵富强,2008.城市综合承载力结构模型与耦合机制研究[J].城市发展研究,15(6):37-42.

    Google Scholar

    李剑,金小燕,王伦澈,等,2021.我国资源环境承载力研究的进展与展望[J].矿产与地质,35(2):322-329.

    Google Scholar

    李新,袁林旺,裴韬,等,2021.信息地理学学科体系与发展战略要点[J].地理学报,76(9):2094-2103.

    Google Scholar

    刘洪,黄瀚霄,欧阳渊,等,2021.新构造活动的生态地质环境效应讨论--以扬子西缘西昌市为例[J].中国地质调查,8(6):63-77.

    Google Scholar

    刘佳骏,董锁成,李泽红,2011.中国水资源承载力综合评价研究[J].自然资源学报,26(2):258-269.

    Google Scholar

    刘文斌,徐伟铭,王杏锋,等,2020.区域国土开发强度与资源环境承载力时空耦合关系[J].华侨大学学报(自然科学版),41(4):525-533.

    Google Scholar

    刘学,张志强,郑军卫,等,2014.关于人类世问题研究的讨论[J].地球科学进展,29(5):640-649.

    Google Scholar

    刘晏冰,韩宝龙,刘晶茹,等,2021.我国城市人与自然耦合系统的协调度[J].生态学报,41(14):5578-5585.

    Google Scholar

    刘焱序,傅伯杰,王帅,等,2021.旱区人地耦合系统水-粮食-生态关联研究述评[J].地理研究,40(2):541-555.

    Google Scholar

    卢小丽,武春友,于海峰,2005.旅游社会承载力的量测及管理研究[J].南开管理评论,8(1):75-77.

    Google Scholar

    毛汉英,余丹林,2001.环渤海地区区域承载力研究[J].地理学报,56(3):363-371.

    Google Scholar

    苗俊霞,郑续,孙萍萍,等,2021.黄土高原县域资源环境承载力及耦合协调性评价--以陕西省延川县为例[J].西北师范大学学报(自然科学版),57(2):94-100.

    Google Scholar

    倪忠云,2011.西藏曲水-桑日地区生态地质环境承载力研究[D].成都:成都理工大学.

    Google Scholar

    聂洪峰,肖春蕾,任伟祥,等,2021.生态地质研究进展与展望[J].中国地质调查,8(6):1-8.

    Google Scholar

    宁佳,刘纪远,邵全琴,等,2014.中国西部地区环境承载力多情景模拟分析[J].中国人口·资源与环境,24(11):136-146.

    Google Scholar

    牛方曲,孙东琪,2019.资源环境承载力与中国经济发展可持续性模拟[J].地理学报,74(12):2604-2613.

    Google Scholar

    欧阳渊,张景华,刘洪,等,2021.基于地质建造的西南山区成土母质分类方案--以大凉山区为例[J].中国地质调查,8(6):50-62.

    Google Scholar

    曲修齐,刘淼,李春林,等,2019.生态承载力评估方法研究进展[J].气象与环境学报,35(4):113-119.

    Google Scholar

    史培军,1997.人地系统动力学研究的现状与展望[J].地学前缘,4(1-2):205-215.

    Google Scholar

    宋强,张磊,陈晓,1996.珠江三角洲经济区城市生态环境承载力研究[J].生态科学,15(2):104-106.

    Google Scholar

    孙书勤,黄润秋,2010.遂宁城市地质灾害危险性评价[J].成都理工大学学报(自然科学版),37(2):174-180.

    Google Scholar

    唐华俊,吴文斌,杨鹏,等,2009.土地利用/土地覆被变化(LUCC)模型研究进展[J].地理学报,64(4):456-468.

    Google Scholar

    田丛珊,方一平,2019.地质灾害胁迫下的社会经济恢复力评估及其提升策略-以都江堰市为例[J].自然灾害学报,28(6):127-136.

    Google Scholar

    田海兰,程林,刘西汉,等,2020.基于供需平衡法的河北省海域承载力测算[J].海洋湖沼通报,42(3):95-104.

    Google Scholar

    童玉芬,2010.北京市水资源人口承载力的动态模拟与分析[J].中国人口·资源与环境,20(9):42-47.

    Google Scholar

    汪宙峰,张廷山,王蕾,等,2016.都汶公路沿线生态地质环境承载力综合评价[J].测绘科学,41(7):77-81.

    Google Scholar

    王滨,张发旺,陈立,等,2013.黑龙港地区水土资源经济系统耦合协调评价研究[J].水土保持通报,33(2):276-280.

    Google Scholar

    王俭,李雪亮,李法云,等,2009.基于系统动力学的辽宁省水环境承载力模拟与预测[J].应用生态学报,20(9):2233-2240.

    Google Scholar

    王俭,孙铁珩,李培军,等,2007.基于人工神经网络的区域水环境承载力评价模型及其应用[J].生态学杂志,26(1):139-144.

    Google Scholar

    王娟娟,惠盛隆,2015.藏区牧民定居点文化承载力与文化适应力协同度测算[J].统计与决策,(12):98-101.

    Google Scholar

    王奎峰,李娜,于学峰,等,2014.基于P-S-R概念模型的生态环境承载力评价指标体系研究--以山东半岛为例[J].环境科学学报,34(8):2133-2139.

    Google Scholar

    王蕾,鲁小丫,胡云华,等,2018.都汶公路沿线地质生态环境承载力评价[J].测绘科学,43(2):51-57.

    Google Scholar

    王立勇,杨文,孙永泉,等,2005.试论三江平原生态地质环境保护的对策[J].环境科学与管理,30(1):45-49.

    Google Scholar

    王孟本,2003.“生态环境”概念的起源与内涵[J].生态学报,(9):1910-1914.

    Google Scholar

    王念秦,李仁伟,蒲凯超,等,2019.中国地质环境承载力评价研究进展[J].环境科学与技术,42(1):150-155.

    Google Scholar

    王秦,李伟,2020.区域资源环境承载力评价研究进展及展望[J].生态环境学报,29(7):1487-1498.

    Google Scholar

    王秦,张艳,杨永芳,2020.雄安新区资源环境承载力评价指标体系研究[J].环境科学与技术,43(5):203-212.

    Google Scholar

    王世杰,2003.喀斯特石漠化--中国西南最严重的生态地质环境问题[J].矿物岩石地球化学通报,22(2):120-126.

    Google Scholar

    王顺祥,2001.贵州新一轮国土资源大调查的思考[J].中国岩溶,20(2):39-42.

    Google Scholar

    王思敬,1997.论人类工程活动与地质环境的相互作用及其环境效应[J].地质灾害与环境保护,8(1):20-27.

    Google Scholar

    王长生,王大可,1997.试论1∶5万生态地质调查[J].中国区域地质,16(1):56-59.

    Google Scholar

    魏晓旭,颜长珍,2019.生态承载力评价方法研究进展[J].地球环境学报,10(5):441-452.

    Google Scholar

    吴连霞,赵媛,马定国,等,2015.江西省人口与经济发展时空耦合研究[J].地理科学,35(6):742-748.

    Google Scholar

    肖炳成,1990.试论城市地质环境承载力[J].中国地质,17(1):19-21.

    Google Scholar

    肖春蕾,聂洪峰,刘建宇,等,2021.生态-地质作用模式:诠释表生地质过程与生态特征的耦合[J].中国地质调查,8(6):9-24.

    Google Scholar

    宿星,王得楷,张连科,等,2012.甘肃省地质灾害与社会经济脱钩关系初探[J].中国水土保持,(1):24-26.

    Google Scholar

    徐堇,彭璧玉,2019.种群密度与环境承载力对组织种群灭绝的影响[J].科研管理,40(3):143-152.

    Google Scholar

    徐勇,张雪飞,周侃,等,2017.资源环境承载能力预警的超载成因分析方法及应用[J].地理科学进展,36(3):277-285.

    Google Scholar

    薛倩,宋伟,张镱锂,等,2017.生态承载力研究进展:内涵、评估方法与热点领域(英文)[J].Journal of Resources and Ecology, 8(5):514-525.

    Google Scholar

    杨建锋,张翠光,2014.地球关键带:地质环境研究的新框架[J].水文地质工程地质,41(3):98-104.

    Google Scholar

    杨建锋,2008.我国地质环境与社会经济的物质流分析[J].自然资源学报,23(4):553-559.

    Google Scholar

    杨盼盼,王念秦,郭有金,等,2020.城镇化与地质环境耦合协调时空演化分析--以临潼区为例[J].科学技术与工程,20(9):3790-3797.

    Google Scholar

    袁道先,2004.评《地质生态环境与可持续发展--中国西南及邻近岩溶地区发展途径》[J].水资源保护,(2):63.

    Google Scholar

    岳东霞,杨超,江宝骅,等,2019.基于CA-Markov模型的石羊河流域生态承载力时空格局预测[J].生态学报,39(6):1993-2003.

    Google Scholar

    翟羽佳,王丽婧,郑丙辉,等,2015.基于系统仿真模拟的三峡库区生态承载力分区动态评价[J].环境科学研究,28(4):559-567.

    Google Scholar

    张琛,汪宙峰,汪裕峻,等,2020.基于TOPSIS和热点分析的都汶公路沿线地质生态环境承载力评价[J].冰川冻土,42(2):704-715.

    Google Scholar

    张芳怡,濮励杰,张健,2006.基于能值分析理论的生态足迹模型及应用--以江苏省为例[J].自然资源学报,(4):653-660.

    Google Scholar

    张林波,李文华,刘孝富,等,2009.承载力理论的起源、发展与展望[J].生态学报,29(2):878-888.

    Google Scholar

    张茂省,王尧,2018.基于风险的地质环境承载力评价[J].地质通报,37(Z1):467-475.

    Google Scholar

    张腾蛟,刘洪,欧阳渊,等,2021.不同地质建造类型的生态环境功能特征--以西昌地区为例[J].中国地质调查,8(6):35-49.

    Google Scholar

    张兴,桂梅,2017.资源环境承载力评价指标体系研究[J].中国土地,(8):18-20.

    Google Scholar

    张引,杨庆媛,闵婕,2016.重庆市新型城镇化质量与生态环境承载力耦合分析[J].地理学报,71(5):817-828.

    Google Scholar

    张志强,徐中民,程国栋,等,2001.中国西部12省(区市)的生态足迹[J].地理学报,56(5):598-609.

    Google Scholar

    赵东升,郭彩贇,郑度,等,2019.生态承载力研究进展[J].生态学报,39(2):399-410.

    Google Scholar

    赵莉,杨俊,李闯,等,2016.地理元胞自动机模型研究进展[J].地理科学,36(8):1190-1196.

    Google Scholar

    赵银兵,何政伟,倪忠云,等,2010.矿产资源开发的生态地质环境风险研究--以甘孜州东部为例[J].地球与环境,38(2):207-213.

    Google Scholar

    郑晶,于浩,黄森慰,2017.基于DPSIR-TOPSIS模型的福建省生态环境承载力评价及障碍因素研究[J].环境科学学报,37(11):4391-4398.

    Google Scholar

    周爱国,孙自永,马瑞,2007.干旱区地质生态学导论[M].北京:中国环境科学出版社.

    Google Scholar

    周景阳,常莎莎,李振功,2021.国内外城市承载力研究进展[J].国土资源情报,(6):31-38.

    Google Scholar

    朱嘉伟,谢晓彤,李心慧,2017.生态环境承载力评价研究--以河南省为例[J].生态学报,37(21):7039-7047.

    Google Scholar

    朱晓丽,李文龙,薛中正,等,2011.基于3S技术的甘南州生态健康与生态承载力耦合[J].草业科学,28(6):939-945.

    Google Scholar

    朱永官,李刚,张甘霖,等,2015.土壤安全:从地球关键带到生态系统服务[J].地理学报,70(12):1859-1869.

    Google Scholar

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