|本期目录/Table of Contents|

[1]魏 嶶,叶长盛*,蔡 鑫,等.基于生态网络分析模型的武汉市“三生空间”碳代谢特征[J].地球科学与环境学报,2024,46(04):528-543.[doi:10.19814/j.jese.2023.12010]
 WEI Wei,YE Chang-sheng*,CAI Xin,et al.Characteristics of Carbon Metabolism of Production-living-ecologicalSpace in Wuhan City of Hubei Province,China Based on Ecological Network Analysis Model[J].Journal of Earth Sciences and Environment,2024,46(04):528-543.[doi:10.19814/j.jese.2023.12010]
点击复制

基于生态网络分析模型的武汉市“三生空间”碳代谢特征(PDF)
分享到:

《地球科学与环境学报》[ISSN:1672-6561/CN:61-1423/P]

卷:
第46卷
期数:
2024年第04期
页码:
528-543
栏目:
环境与可持续发展
出版日期:
2024-07-15

文章信息/Info

Title:
Characteristics of Carbon Metabolism of Production-living-ecologicalSpace in Wuhan City of Hubei Province,China Based on Ecological Network Analysis Model
文章编号:
1672-6561(2024)04-0528-16
作者:
魏 嶶叶长盛*蔡 鑫肖 蔚
(东华理工大学 地球科学学院,江西 南昌 330013)
Author(s):
WEI Wei YE Chang-sheng* CAI Xin XIAO Wei
(School of Earth Sciences, Ease China University of Technology, Nanchang 330013, Jiangxi, China)
关键词:
生产空间 生活空间 生态空间 碳代谢 生态网络分析模型 生态关系 空间分布 武汉
Keywords:
production space living space ecological space carbon metabolism ENA model ecological relationship spatial distribution Wuhan
分类号:
F301.2; X321
DOI:
10.19814/j.jese.2023.12010
文献标志码:
A
摘要:
通过模拟生物代谢来剖析城市生产、生活及生态空间(简称“三生空间”)碳代谢机理有助于实现区域要素整合和结构优化,是寻求城市绿色低碳发展的有效途径之一。以武汉市为例,基于“三生空间”分类体系构建水平方向上的碳流模型,剖析2005~2020年“三生空间”演化过程中碳要素的流向; 运用生态网络分析(ENA)模型对“三生空间”碳代谢进行分析,评估不同用地之间的生态关系; 最后利用互惠指数综合评价“三生空间”演化对城市碳代谢的作用。结果表明:①2005~2020年,武汉市整体以负碳流为主导,2010~2015年达到峰值; 2005~2015年整体上呈现碳代谢紊乱局面; 2015~2020年,碳减排效果显著,正、负碳流较弱,空间上分布零星,后期碳代谢逐渐趋向平衡; ②武汉市生态关系以掠夺限制关系为主,生态空间被生活空间和生产空间挤占,不同用地之间的生态冲突较为强烈,2015年后无生态区域增加,生态关系明显改善; ③互惠指数呈先减后增的变化趋势,但互惠指数的平均值为0.77(<1),表明“三生空间”演化对城市碳代谢平衡的作用仍为消极,武汉市的国土空间利用仍有不合理之处,碳代谢压力尚存,需进一步优化国土空间布局,促进绿色低碳发展。
Abstract:
Analyzing the carbon metabolism mechanism of production-living-ecological space through simulating biological metabolism can help to achieve the integration of regional elements and structural optimization, which is one of the effective ways to seek for the green and low-carbon development of cities. Taking Wuhan city, Hubei province as an example, a horizontal carbon flow model was constructed to analyze the flow direction of carbon elements from 2005 to 2020; and ecological network analysis(ENA)model was used to analyze the carbon metabolism of production-living-ecological space,and assessthe ecological relationship between different landuses; finally,the comprehensive effect of the evolution of production-living-ecological space on urban carbon metabolism was judged by using the mutualism index. The results show that ① from 2005 to 2020, Wuhan city is dominated by negative carbon flows, which peaks in 2010—2015, and the study area shows a disorganized carbon metabolism from 2005 to 2015; from 2015 to 2020, the effect of carbon emission reduction is significant, the positive and negative carbon flows are weaker, anddistribute sporadically in space,and carbon metabolism is gradually balanced at the later stage; ② ecological relationships in Wuhan city are dominated by predation-restriction,ecological space is crowded by living space and production space, ecological conflicts between different land uses are more intense, and ecological relationships improve significantlyafter 2015when the area without ecological relationships increase; ③ the mutualism index shows a trend of decreasing and then increasing, but the average value of mutualism index is 0.77(<1), which indicates that the evolution of the production-living-ecological space still has a negative effect on the balance of urban carbon metabolism, andthere are still irrationalities in spatial utilization of Wuhan's land and the pressure on carbon metabolism, which calls for the optimization of land and spatial layout, and the promotion of green and low-carbon development.

参考文献/References:

[1] 武汉大学国家发展战略研究院课题组.中国实施绿色低碳转型和实现碳中和目标的路径选择[J].中国软科学,2022(10):1-12.
Research Group of National Institute of Development Strategy at Wuhan University.Path Choice for China to Implement Green Low-carbon Transformation and Achieve Carbon Neutrality[J].China Soft Science,2022(10):1-12.
[2]CARPIO A,PONCE-LOPEZ R,LOZANO-GARCIA D F.Urban Form,Land Use,and Cover Change and Their Impact on Carbon Emissions in the Monterrey Metropolitan Area,Mexico[J].Urban Climate,2021,39:100947.
[3]陈绍晴,龙慧慧,陈 彬.代谢视角下的城市低碳表现评估[J].中国科学:地球科学,2021,51(10):1693-1706.
CHEN Shao-qing,LONG Hui-hui,CHEN Bin.Assessing Urban Low-carbon Performance from a Metabolic Perspective[J].Science China:Earth Sciences,2021,51(10):1693-1706.
[4]周 航,赵先超.县域尺度下湖南省碳排放空间分异特征与影响因素[J].地球科学与环境学报,2024,46(2):196-210.
ZHOU Hang,ZHAO Xian-chao.Spatial Differentiation Characteristics of Carbon Emission and Its Influencing Factors in Hunan Province,China at the Country Scale[J].Journal of Earth Sciences and Environment,2024,46(2):196-210.
[5]张正峰,张 栋.基于社会网络分析的京津冀地区碳排放空间关联与碳平衡分区[J].中国环境科学,2023,43(4):2057-2068.
ZHANG Zheng-feng,ZHANG Dong.Spatial Relatedness of CO2 Emission and Carbon Balance Zoning in Beijing Tianjin Hebei Counties[J].China Environmental Science,2023,43(4):2057-2068.
[6]QIAO W Y,HUANG X J.The Impact of Land Urbanization on Ecosystem Health in the Yangtze River Delta Urban Agglomerations,China[J].Cities,2022,130:103981.
[7]CHEN B Y,XU C,WU Y Y,et al.Spatiotemporal Carbon Emissions Across the Spectrum of Chinese Cities:Insights from Socioeconomic Characteristics and Ecological Capacity[J].Journal of Environmental Management,2022,306:114510.
[8]赵荣钦,黄贤金,郧文聚,等.碳达峰碳中和目标下自然资源管理领域的关键问题[J].自然资源学报,2022,37(5):1123-1136.
ZHAO Rong-qin,HUANG Xian-jin,YUN Wen-ju,et al.Key Issues in Natural Resource Management Under Carbon Emission Peak and Carbon Neutrality Targets[J].Journal of Natural Resources,2022,37(5):1123-1136.
[9]GRIMM N B,FAETH S H,GOLUBIEWSKI N E,et al.Global Change and the Ecology of Cities[J].Science,2008,319:756-760.
[10]杜金霜,付晶莹,郝蒙蒙.基于生态网络效用的昭通市“三生空间”碳代谢分析[J].自然资源学报,2021,36(5):1208-1223.
DU Jin-shuang,FU Jing-ying,HAO Meng-meng.Analyzing the Carbon Metabolism of “Production-living-ecological Space” Based on Ecological Network Utility in Zhaotong[J].Journal of Natural Resources,2021,36(5):1208-1223.
[11]YAN Z,XIA L L,XIANG W N.Analyzing Spatial Patterns of Urban Carbon Metabolism:A Case Study in Beijing,China[J].Landscape and Urban Planning,2014,130:184-200.
[12]谭 洁,刘 琴,唐晓佩,等.基于LMDI模型的土地利用碳排放时空差异及影响因素研究:以洞庭湖区为例[J].地域研究与开发,2024,43(1):160-166.
TAN Jie,LIU Qin,TANG Xiao-pei,et al.Spatial and Temporal Evolution of Carbon Emissions from Land Use and Its Influencing Factors Based on LMDI Model:A Case Study of the Dongting Lake Area[J].Areal Research and Development,2024,43(1):160-166.
[13]夏琳琳,张 妍,李名镜.城市碳代谢过程研究进展[J].生态学报,2017,37(12):4268-4277.
XIA Lin-lin,ZHANG Yan,LI Ming-jing.A Review of Urban Carbon Metabolism[J].Acta Ecologica Sinica,2017,37(12):4268-4277.
[14]曲福田,卢 娜,冯淑怡.土地利用变化对碳排放的影响[J].中国人口·资源与环境,2011,21(10):76-83.
QU Fu-tian,LU Na,FENG Shu-yi.Effects of Land Use Change on Carbon Emissions[J].China Population,Resources and Environment,2011,21(10):76-83.
[15]赵荣钦,黄贤金,揣小伟.中国土地利用碳排放的研究误区和未来趋向[J].中国土地科学,2016,30(12):83-92.
ZHAO Rong-qin,HUANG Xian-jin,CHUAI Xiao-wei.Misunderstandings and Future Trends of Researches on Land Use Carbon Emissions in China[J].China Land Science,2016,30(12):83-92.
[16]黄金川,林浩曦,漆潇潇.面向国土空间优化的三生空间研究进展[J].地理科学进展,2017,36(3):378-391.
HUANG Jin-chuan,LIN Hao-xi,QI Xiao-xiao.A Literature Review on Optimization of Spatial Development Pattern Based on Ecological-production-living Space[J].Progress in Geography,2017,36(3):378-391.
[17]邹 康,舒予晴,李桂娥,等.基于生态网络分析(ENA)的城市地-碳框架构建及其时空演变研究[J].生态与农村环境学报,2022,38(8):972-982.
ZOU Kang,SHU Yu-qing,LI Gui-e,et al.Urban Land-carbon Framework Construction Based on Ecological Network Analysis and Its Space-time Evolution Research[J].Journal of Ecology and Rural Environment,2022,38(8):972-982.
[18]胡佶熹,勒先文,王卫林,等.基于PLUS-InVEST模型的江西省生态系统碳储量时空演变与预测[J].环境科学,2024,45(6):3284-3296.
HU Ji-xi,LE Xian-wen,WANG Wei-lin,et al.Temporal and Spatial Evolution and Prediction of Ecosystem Carbon Storage in Jiangxi Province Based on PLUS-InVEST Model[J].Environmental Science,2024,45(6):3284-3296.
[19]高怡凡,宋长青,王元慧,等.顾及土地利用强度和生态-经济权衡的四川省陆地生态系统碳储量预测与热点分析[J].生态学报,2024,44(9):3958-3969.
GAO Yi-fan,SONG Chang-qing,WANG Yuan-hui,et al.Carbon Storage Prediction of Terrestrial Ecosystems and Hotspot Analysis in Sichuan Province by Considering Land Use Intensity and Eco-economic Trade-offs[J].Acta Ecologica Sinica,2024,44(9):3958-3969.
[20]AYRES R U,KNEESE A V.Production,Consumption,and Externalities[J].The American Economic Review,1969,59(3):282-297.
[21]WANG S,ZHAO Y H,WIEDMANN T.Carbon Emissions Embodied in China-Australia Trade:A Scenario Analysis Based on Input-output Analysis and Panel Regression Models[J].Journal of Cleaner Production,2019,220:721-731.
[22]SOVACOOL B K,BROWN M A.Twelve Metropolitan Carbon Footprints:A Preliminary Comparative Global Assessment[J].Energy Policy,2010,38(9):4856-4869.
[23]KARAKIEWICZ J.Urban Metabolism of Low Carbon Cities[C]∥ISOCARP.The 47th ISOCARP Congress.Wuhan:ISOCARP,2011.
[24]XIA C Y,CHEN B.Urban Land-carbon Nexus Based on Ecological Network Analysis[J].Applied Energy,2020,276:115465.
[25]XIA C Y,LI Y,XU T B,et al.Analyzing Spatial Patterns of Urban Carbon Metabolism and Its Response to Change of Urban Size:A Case of the Yangtze River Delta,China[J].Ecological Indicators,2019,104:615-625.
[26]XIA L L,ZHANG Y,YU X Y,et al.Hierarchical Structure Analysis of Urban Carbon Metabolism:A Case Study of Beijing,China[J].Ecological Indicators,2019,107:105602.
[27]XIA L L,LIU Y,WANG X J,et al.Spatial Analysis of the Ecological Relationships of Urban Carbon Metabolism Based on an 18 Nodes Network Model[J].Journal of Cleaner Production,2018,170:61-69.
[28]李 晶,陈松林,李晨欣,等.基于生态网络分析的厦漳泉地区土地碳代谢 [J].应用生态学报,2023,34(5):1375-1383.
LI Jing,CHEN SONG-lin,LI Chen-xin,et al.Land Carbon Metabolism in Xiamen-Zhangzhou-Quanzhou Region Based on Ecological Network Analysis[J].Chinese Journal of Applied Ecology,2023,34(5):1375-1383.
[29]路 昌,王之语.基于生态网络分析的黄河三角洲碳代谢分析[J].中国环境科学,2023,43(11):6090-6101.
LU Chang,WANG Zhi-yu.ENA-model Based Carbon Metabolism Analysis of the Yellow River Delta[J].China Environmental Science,2023,43(11):6090-6101.
[30]王志强,姜文桓,卢诗月.基于生态网络分析的新疆“水-能-碳”耦合系统特征研究[J].干旱区地理,2023,46(12):2005-2016.
WANG Zhi-qiang,JIANG Wen-huan,LU Shi-yue.Characteristics of “Water-energy-carbon” Coupling System in Xinjiang Based on the Ecological Network Analysis[J].Arid Land Geography,2023,46(12):2005-2016.
[31]常铭鑫,曾 晨,解 鹏,等.多情景下的土地利用模拟与特征分析:以武汉市为例[J].华中农业大学学报,2023,42(4):74-85.
CHANG Ming-xin,ZENG Chen,XIE Peng,et al.Land Use Simulation and Characteristic Analysis in Multiple Scenarios:A Case Study in Wuhan[J].Journal of Huazhong Agricultural University,2023,42(4):74-85.
[32]邹利林,王建英,胡学东.中国县级“三生用地”分类体系的理论构建与实证分析[J].中国土地科学,2018,32(4):59-66.
ZOU Li-lin,WANG Jian-ying,HU Xue-dong.An Classification Systems of Production-living-ecological Land on the County Level:Theory Building and Empirical Research[J].China Land Science,2018,32(4):59-66.
[33]刘 超,许月卿,刘焱序,等.基于系统论的土地利用多功能分类及评价指标体系研究[J].北京大学学报(自然科学版),2018,54(1):181-188.
LIU Chao,XU Yue-qing,LIU Yan-xu,et al.Researchon Land Use Functions Classification and Evaluation System Based on System Theory[J].Acta Scientiarum Naturalium Universitatis Pekinensis,2018,54(1):181-188.
[34]刘继来,刘彦随,李裕瑞.中国“三生空间”分类评价与时空格局分析[J].地理学报,2017,72(7):1290-1304.
LIU Ji-lai,LIU Yan-sui,LI Yu-rui.Classification Evaluation and Spatial-temporal Analysis of “Production-living-ecological” Spaces in China[J].Acta Geographica Sinica,2017,72(7):1290-1304.
[35]ZHANG Y,XIA L L,FATH B D,et al.Development of a Spatially Explicit Network Model of Urban Metabolism and Analysis of the Distribution of Ecological Relationships:Case Study of Beijing,China[J].Journal of Cleaner Production,2016,112:4304-4317.
[36]魏心雨,王雁杰,孙梦媛,等.基于土地利用结构变化的河南省碳排放时空格局及驱动力分析[J].农业现代化研究,2023,44(5):881-891.
WEI Xin-yu,WANG Yan-jie,SUN Meng-yuan,et al.Spatial-temporal Patterns and Driving Forces of Carbon Emissions in Henan Province Based on Land Use Structure Changes[J].Research of Agricultural Modernization,2023,44(5):881-891.
[37]董 捷,员开奇.湖北省土地利用碳排放总量及其效率[J].水土保持通报,2016,36(2):337-342,348.
DONG Jie,YUAN Kai-qi.Carbon Emission from Land Use and Its Efficiency in Hubei Province[J].Bulletin of Soil and Water Conservation,2016,36(2):337-342,348.
[38]方精云,郭兆迪,朴世龙,等.1981~2000年中国陆地植被碳汇的估算[J].中国科学:D辑,地球科学,2007,37(6):804-812.
FANG Jing-yun,GUO Zhao-di,PIAO Shi-long,et al.Estimation of Carbon Sink of Terrestrial Vegetation in China from 1981 to 2000[J].Science in China:Series D,Earth Sciences,2007,37(6):804-812.
[39]段晓男,王效科,逯 非,等.中国湿地生态系统固碳现状和潜力[J].生态学报,2008,28(2):463-469.
DUAN Xiao-nan,WANG Xiao-ke,LU Fei,et al.Carbon Sequestration and Its Potential by Wetland Ecosystems in China[J].Acta Ecologica Sinica,2008,28(2):463-469.
[40]WALSH J J.Importance of Continental Margins in the Marine Biogeochemical Cycling of Carbon and Nitrogen[J].Nature,1991,350:53-55.
[41]田 云,张俊飚.中国农业生产净碳效应分异研究[J].自然资源学报,2013,28(8):1298-1309.
TIAN Yun,ZHANG Jun-biao.Regional Differentiation Research on Net Carbon Effect of Agricultural Production in China[J].Journal of Natural Resources,2013,28(8):1298-1309.
[42]解天荣,王 静.交通运输业碳排放量比较研究[J].综合运输,2011(8):20-24.
XIE Tian-rong,WANG Jing.Research on Comparion of Carbon Emissions in Transportation[J].Comprehensive Transportation,2011(8):20-24.
[43]彭传圣.港口生产能耗和排放计算问题研究[J].港口装卸,2011(6):25-30.
PENG Chuan-sheng.Study on Calculation of Port Handling Energy Consumption and Air Exhaust[J].Port Operation,2011(6):25-30.
[44]齐玉春,董云社.土壤氧化亚氮产生、排放及其影响因素[J].地理学报,1999,54(6):534-542.
QI Yu-chun,DONG Yun-she.Nitrous Oxide Emissions from Soil and Some Influence Factors[J].Acta Geographica Sinica,1999,54(6):534-542.
[45]夏楚瑜,李 艳,叶艳妹,等.基于生态网络效用的城市碳代谢空间分析:以杭州为例[J].生态学报,2018,38(1):73-85.
XIA Chu-yu,LI Yan,YE Yan-mei,et al.Analyzing Urban Carbon Metabolism Based on Ecological Network Utility:A Case Study of Hangzhou City[J].Acta Ecologica Sinica,2018,38(1):73-85.
[46]贾顺平,毛保华,刘 爽,等.中国交通运输能源消耗水平测算与分析[J].交通运输系统工程与信息,2010,10(1):22-27.
JIA Shun-ping,MAO Bao-hua,LIU Shuang,et al.Calculation and Analysis of Transportation Energy Consumption Level in China[J].Journal of Transportation Systems Engineering and Information Technology,2010,10(1):22-27.
[47]谢光辉,韩东倩,王晓玉,等.中国禾谷类大田作物收获指数和秸秆系数[J].中国农业大学学报,2011,16(1):1-8.
XIE Guang-hui,HAN Dong-qian,WANG Xiao-yu,et al.Harvest Index and Residue Factor of Cereal Crops in China[J].Journal of China Agricultural University,2011,16(1):1-8.
[48]刘丽华,蒋静艳,宗良纲.农业残留物燃烧温室气体排放清单研究:以江苏省为例[J].环境科学,2011,32(5):1242-1248.
LIU Li-hua,JIANG Jing-yan,ZONG Liang-gang.Emission Inventory of Greenhouse Gases from Agricultural Residues Combustion:A Case Study of Jiangsu Province[J].Environmental Science,2011,32(5):1242-1248.
[49]赵荣钦,秦明周.中国沿海地区农田生态系统部分碳源/汇时空差异[J].生态与农村环境学报,2007,23(2):1-6,11.
ZHAO Rong-qin,QIN Ming-zhou.Temporospatial Variation of Partial Carbon Source/Sink of Farmland Ecosystem in Coastal China[J].Journal of Ecology and Rural Environment,2007,23(2):1-6,11.
[50]匡耀求,欧阳婷萍,邹 毅,等.广东省碳源碳汇现状评估及增加碳汇潜力分析[J].中国人口·资源与环境,2010,20(12):56-61.
KUANG Yao-qiu,OUYANG Ting-ping,ZOU Yi,et al.Present Situation of Carbon Source and Sink and Potential for Increase of Carbon Sink in Guangdong Province[J].China Population,Resources and Environment,2010,20(12):56-61.
[51]陶在朴.生态包袱与生态足迹:可持续发展的重量及面积观念[M].北京:经济科学出版社,2003.
TAO Zai-pu.Ecological Burden and Ecological Footprint:The Concept of Weight and Area for Sustainable Development[M].Beijing:Economic Science Press,2003.
[52]何坚坚.基于土地利用变化的黄河下游开封段背河洼地区碳排放测算与模拟研究[D].开封:河南大学,2019.
HE Jian-jian.The Low-lying Land of the Yellow River Kaifeng Section Based on Land Use Change Study on Carbon Emission Measurement and Simulation[D].Kaifeng:Henan University,2019.
[53]PATTEN B C,BOSSERMAN R W,FINN J T,et al.Propagation of Cause in Ecosystems[M]∥PATTEN B C.Systems Analysis and Simulation in Ecology, Volume Ⅳ.Amsterdam: Elsevier,1976:457-579.
[54]FATH B D.Network Mutualism:Positive Community-level Relations in Ecosystems[J].Ecological Modelling,2007,208(1):56-67.
[55]HANNON B.The Structure of Ecosystems[J].Journal of Theoretical Biology,1973,41(3):535-546.
[56]GUAN Y R,HUANG G H,LIU L R,et al.Ecological Network Analysis for an Industrial Solid Waste Metabolism System[J].Environmental Pollution,2019,244:279-287.
[57]BORRETT S R,SHEBLE L,MOODY J,et al.Bibliometric Review of Ecological Network Analysis:2010—2016[J].Ecological Modelling,2018,382:63-82.
[58]FATH B D,PATTEN B C.Network Synergism:Emergence of Positive Relations in Ecological Systems[J].Ecological Modelling,1998,107(2/3):127-143.

相似文献/References:

备注/Memo

备注/Memo:
收稿日期:2023-12-07; 修回日期:2024-04-26投稿网址:http:∥jese.chd.edu.cn/
基金项目:国家自然科学基金项目(42061041)
*通信作者:叶长盛(1977-),男,江西临川人,教授,理学博士,E-mail:ycs519@163.com。
更新日期/Last Update: 2024-08-20