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南京城市系统碳循环与碳平衡分析
Research on Carbon Cycle and Carbon Balance of Nanjing Urban System

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文摘 城市是人类能源活动和碳排放的集中地,开展城市系统碳循环研究有助于深入了解城市在区域碳循环过程中的地位和作用。本文集成了城市碳储量和碳通量的核算方法,并以南京市为例开展了城市系统碳循环与碳平衡的实证研究。结论如下:①南京市城市碳储量呈缓慢上升趋势,2009年为6937万t,其中自然碳储量占88%,且总量基本保持稳定;人为碳储量(特别是城市绿地和建筑物碳库)呈大幅增长趋势;②垂直碳输入通量以植物光合作用和水域碳吸收为主,历年来基本稳定;水平碳输入通量大幅增长,2009年为3043万t,其中能源和木材碳输入呈增长趋势,而食物碳输入则呈下降趋势;③垂直碳输出通量呈增长趋势,2009年为3295万t,其中化石能源碳排放占近80%,自然过程仅占6%;水平碳输出通量以能源制品、水产品和含碳废弃物为主,其总量呈明显下降趋势;④南京市历年城市碳输出均高于碳输入,且两者的差额呈现扩大趋势。总体而言,"隐流碳和加工需求碳"的比重有所下降,说明碳的利用率有所提升;⑤南京市碳补偿率明显下降,这表明自然生态系统的碳吸收能力不足以补偿人为活动的碳排放,城市碳循环压力在不断加大。
其他语种文摘 Cities are areas where human energy activities and carbon emission concentrated. The study on carbon cycle of urban system is helpful to understand the role of cities in the regional carbon cycle process,and can provide theoretical reference for establishing urban carbon emission estimation standard and low-carbon urban development pattern.Based on the method of IPCC and other researches,systematic urban carbon storage and carbon flux estimation methods was established,carbon cycle of urban system of Nanjing city was studied,and carbon storage,carbon flux and carbon balance of Nanjing city were analyzed. The main conclusions can be drawn as follows.(1)The total carbon storage of Nanjing city presented a slow rising trend.In 2009,the total carbon storage was 6937×10 4 t,in which natural carbon storage accounted for 88%.Human carbon storage,especially the carbon pool in urban greenbelt and buildings presented a drastically increasing trend.(2)Vertical carbon input flux of Nanjing city mainly included photosynthesis and water carbon absorption. Lateral carbon input flux rapidly increased and reached 3043×10 4 t,in which carbon input by energy and timber increased and carbon input by food deceased.(3)Vertical carbon output flux rapidly increased and reached 3295×10 4 t,in which carbon emission by fossil energy use accounted for nearly 80%,but carbon from natural process only accounted for 6%,indicating that human carbon emission constituted the main part of urban vertical carbon flux.Lateral carbon output flux presented a declining trend,which included energy products,aquatic products and organic waste.(4)In the past years,the carbon output was higher than carbon input of Nanjing city,and the balance between them showed an expanding trend.Generally, the percentage of hidden carbon flow and the carbon needed for manufacturing decreased, which indicated that the carbon efficiency was increasing.(5)Carbon compensation rate of Nanjing city obviously decreased,which indicated that the terrestrial carbon sink function of Nanjing city were not enough to compensate the anthropogenic carbon emissions,and the carbon balance of Nanjing city was seriously disturbed,which caused the increase of carbon cycle pressure.
来源 地理学报 ,2012,67(6):758-770 【核心库】
关键词 城市系统 ; 碳循环 ; 碳平衡 ; 碳储量 ; 碳通量 ; 南京市
地址

南京大学地理与海洋科学学院, 南京, 210093

语种 中文
文献类型 研究性论文
ISSN 0375-5444
学科 环境科学基础理论
基金 国家社会科学基金重大项目 ;  中国清洁发展机制基金赠款子项目(国家可持续发展实验区应对气候变化能力建设研究与示范) ;  中国博士后科学基金 ;  华北水利水电大学高层次人才科研启动项目
文献收藏号 CSCD:4582911

参考文献 共 36 共2页

1.  Churkina G. Modeling the carbon cycle of urban systems. Ecological Modeling,2008,216(2):107-113 被引 54    
2.  赵荣钦. 城市系统碳循环与碳管理研究进展. 自然资源学报,2009,24(10):1847-1859 被引 26    
3.  Svirejeva-Hopkins A. Modelling carbon dynamics from urban land conversion: Fundamental model of city in relation to a local carbon cycle. Carbon Balance and Management,2006,1(9):1-9 被引 16    
4.  Svirejeva-Hopkins A. Urban expansion and its contribution to the regional carbon emissions: Using the model based on the population density distribution. Ecological Modelling,2008,216(2):208-216 被引 28    
5.  Churkina G. Carbon stored in human settlements: the conterminous United States. Global Change Biology,2010,16(1):135-143 被引 30    
6.  Pataki D E. Urban ecosystems and the North American carbon cycle. Global Change Biology,2006,12(11):2092-2102 被引 37    
7.  Christen A. A LiDAR-based urban metabolism approach to neighborhood scale energy and carbon emissions modeling,2010 被引 2    
8.  钱杰. 大都市碳源碳汇研究:以上海市为例,2004 被引 1    
9.  赵敏. 上海碳源碳汇结构变化及其驱动机制研究,2010 被引 6    
10.  IPCC. 2006 IPCC Guidelines for National Greenhouse Gas Inventories,2006 被引 183    
11.  方精云. 1981~2000年中国陆地植被碳汇的估算. 中国科学:D辑,2007,37(6):804-812 被引 428    
12.  李克让. 中国植被和土壤碳贮量. 中国科学:D辑,2003,33(1):72-80 被引 259    
13.  方精云. 中国陆地生态系统的碳库. 温室气体浓度和排放监测及相关过程,1996:109-128 被引 68    
14.  方精云. 中国森林植被碳库的动态变化及其意义. 植物学报,2001,43(9):967-973 被引 299    
15.  王效科. 中国森林生态系统的植物碳储量和碳密度研究. 应用生态学报,2001,12(1):13-16 被引 387    
16.  徐新良. 中国森林生态系统植被碳储量时空动态变化研究. 地理科学进展,2007,26(6):1-10 被引 123    
17.  赵敏. 中国森林生态系统的植物碳贮量及其影响因子分析. 地理科学,2004,24(1):50-54 被引 166    
18.  管东生. 广州城市绿地系统碳的贮存、分布及其在碳氧平衡中的作用. 中国环境科学,1998,18(5):437-441 被引 46    
19.  Bramryd T. Fluxes and accumulation of organic carbon in urban ecosystems on a global scale. Urban Ecology,1980:3-12 被引 3    
20.  华南农业大学. 养牛学,1991 被引 1    
引证文献 39

1 郭谁琼 气候变化经济学研究综述 长江流域资源与环境,2012,21(11):1314-1322
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2 赵荣钦 南京市不同土地利用方式的碳储量与碳通量 水土保持学报,2012,26(6):164-170
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