编号 lyqk011837

中文标题 城市绿化群落抗火性研究现状与展望

作者 张德顺  朱瑞琳  姚鳗卿  张振  胡菊 

作者单位 1. 同济大学建筑与城市规划学院 上海 20009;
2. 玉林师范学院智慧农业学院 广西玉林 537000

期刊名称 中国城市林业 

年份 2025 

卷号 23

期号 2

栏目名称 综述 

中文摘要 随着全球气候逐年变暖和城市化进程的加速,绿化火灾的频发性、严重性、广泛性和多变性愈发凸显。植物群落是城市绿地系统应对气候变化的关键单元,具有助燃和抑火的双重属性。文章在对国内外关于植物群落抗火性表现、抗火性研究及评价等方面综合分析的基础上,探讨目前我国植物群落抗火性研究中存在的不足,并结合植物群落空间结构、预测模型等提出进一步深化研究的方向,为城市绿地火灾防控提供理论基础和技术对策。

关键词 植物群落  抗火性  水平结构  垂直结构  群落尺度 

基金项目 国家自然科学基金(32071824),2024年同济大学研究生教材建设项目(2024JC07),同济大学中央高校基本科研业务费专项资金(22120240668)

英文标题 Research Status and Prospects of Fire Resistance in Urban Greening Community

作者英文名 Zhang Deshun, Zhu Ruilin, Yao Manqing, Zhang Zhen, Hu Ju

单位英文名 1. College of Architecture and Urban Planning, Tongji University, Shanghai 200092, China;
2. College of Smart Agriculture, Yulin Normal University, Yulin 537000, Guangxi, China

英文摘要 As the global warming intensifies and the urbanization process accelerates, fires in urban green spaces have increased frequency, severity, extensiveness and variability. Plant community is the key unit of urban green space to address climate change, which has the dual properties of combustion-supporting and fire suppression. The paper makes a comprehensive analysis of fire resistance performance of plant communities as well as the national and international research evaluation on fire resistance, discusses the shortcomings of current research on the fire resistance of plant communities in China, and proposes the direction of future in-depth research in consideration of the spatial structure of plant communities and the use of prediction models. The aim is to provide a theoretical basis and technical countermeasures for fire prevention in urban green spaces.

英文关键词 plant community;fire resistance;horizontal structure;vertical structure;community scale

起始页码 173

截止页码 179

投稿时间 2024/6/18

作者简介 张德顺(1964-),男,博士,教授,研究方向为城市生态安全与风景园林规划设计。E-mail:zds@#edu.cn

通讯作者介绍 胡菊(1986-),女,博士,讲师,研究方向为园林植物应用。E-mail:1029191614@qq.com

E-mail 1029191614@qq.com

DOI 10.12169/zgcsly.2024.06.18.0003

参考文献 [1] BASTIN J F,CLARK E,ELLIOTT T,et al.Understanding climate change from a global analysis of city analogues[J].PLoS One,2019,14(7):e0217592.
[2] 牛甜辉,耿佃桥,苑轶,等.基于火灾痕迹的起火点判定研究现状及展望[J].中国安全科学学报,2024,34(1):238-246.
[3] ESPELAND E K,KETTENRING K M.Strategic plant choices can alleviate climate change impacts:a review[J].Journal of Environmental Management,2018,222:316-324.
[4] REINER T,WEST C.Planting in a post-wild world: designing plant communities for resilient landscapes[M].Portland:Timber Press,2015.
[5] 胡海清.林火生态与管理[M].修订版.北京:中国林业出版社,2005.
[6] 袁惠,钟少波,靳薇.基于文本挖掘的WUI火灾致灾因子网络构建及特征分析[J].计算机系统应用,2024,33(6):251-258.
[7] 鞠伟轶,吴洁,王龙帅,等.基于AHP与历史灾情数据的城市森林火灾风险评估[J].工业安全与环保,2022,48(7):16-20.
[8] 崔小璐.特大城市火灾的社会特征及治理研究:以上海为例[J].武汉大学学报(哲学社会科学版),2016,69(1):32-45.
[9] BOND W J,SMYTHE K A,BALFOUR D A.Acacia species turnover in space and time in an African savanna[J].Journal of Biogeography,2001,28(1):117-128.
[10] 田晓瑞,舒立福.防火林带的应用与研究现状[J].世界林业研究,2000,13(1):20-26.
[11] MOREIRA F,DUARTE I,CATRY F,et al.Cork extraction as a key factor determining post-fire cork oak survival in a mountain region of southern Portugal[J].Forest Ecology and Management,2007,253(1/2/3):30-37.
[12] 刘朗,刘林,马风云,等.城市绿化树种抗火性能研究[J].森林防火,2015(2):25-29.
[13] 张德顺,陈一家,吴雪,等.园林树木的形态特征与阻火能力的相关性[J].中国城市林业,2020,18(5):23-28.
[14] WEAVER H.Fire as an ecological and silvicultural factor in the Ponderosa-Pine Region of the Pacific Slope[J].Journal of Forestry,1943,41(1):7-15.
[15] FERNANDES P M,LUZ A,LOUREIRO C.Changes in wildfire severity from maritime pine woodland to contiguous forest types in the mountains of northwestern Portugal[J].Forest Ecology and Management,2010,260(5):883-892.
[16] JACTEL H,BAUHUS J,BOBERG J,et al.Tree diversity drives forest stand resistance to natural disturbances[J].Current Forestry Reports,2017,3(3):223-243.
[17] HOFFMANN W A,GEIGER E L,GOTSCH S G,et al.Ecological thresholds at the savanna-forest boundary:how plant traits,resources and fire govern the distribution of tropical biomes[J].Ecology Letters,2012,15(7):759-768.
[18] KITZBERGER T,BROWN P M,HEYERDAHL E K,et al.Contingent Pacific-Atlantic Ocean influence on multicentury wildfire synchrony over western North America[J].Proceedings of the National Academy of Sciences of the United States of America,2007,104(2):543-548.
[19] 王伯荪.植物群落学[M].北京:高等教育出版社,1987.
[20] FERNANDES P M,CRUZ M G.Plant flammability experiments offer limited insight into vegetation-fire dynamics interactions[J].New Phytologist,2012,194(3):606-609.
[21] 牟晓明,于应文,王先之,等.青藏高原火绒草斑块群落空间格局分析[J].生态学报,2015,35(16):5306-5315.
[22] SILVA J S,MOREIRA F,VAZ P,et al.Assessing the relative fire proneness of different forest types in Portugal[J].Plant Biosystems-an International Journal Dealing with All Aspects of Plant Biology,2009,143(3):597-608.
[23] FENSHAM R J,FAIRFAX R J,BUTLER D W,et al.Effects of fire and drought in a tropical eucalypt savanna colonized by rain forest[J].Journal of Biogeography,2003,30(9):1405-1414.
[24] ARCHIBALD S,ROY D P,VAN WILGEN B W,et al.What limits fire?An examination of drivers of burnt area in Southern Africa[J].Global Change Biology,2009,15(3):613-630.
[25] LARSON A J,TRAVIS BELOTE R,ALINA CANSLER C,et al.Latent resilience in ponderosa pine forest:effects of resumed frequent fire[J].Ecological Applications,2013,23(6):1243-1249.
[26] SVÁTEK M,REJŽEK M,KVASNICA J,et al.Frequent fires control tree spatial pattern,mortality and regeneration in Argentine open woodlands[J].Forest Ecology and Management,2018,408:129-136.
[27] BROOKS M L,D'ANTONIO C M,RICHARDSON D M,et al.Effects of invasive alien plants on fire regimes[J].BioScience,2004,54(7):677-688.
[28] AZEVEDO J C,POSSACOS A,AGUIAR C F,et al.The role of holm oak edges in the control of disturbance and conservation of plant diversity in fire-prone landscapes[J].Forest Ecology and Management,2013,297:37-48.
[29] 陈宏伟,常禹,胡远满,等.大兴安岭呼中林区森林死可燃物载量及其影响因子[J].生态学杂志,2008,27(1):50-55.
[30] DE BOOYSEN P V,TAINTON N M.Ecological effects of fire in South African ecosystems[M].Berlin,Heidelberg:Springer Berlin Heidelberg,1984
[31] VIEDMA O,QUESADA J,TORRES I,et al.Fire severity in a large fire in a pinus pinaster forest is highly predictable from burning conditions,stand structure,and topography[J].Ecosystems,2015,18(2):237-250.
[32] CATRY F X,REGO F,MOREIRA F,et al.Post-fire tree mortality in mixed forests of central Portugal[J].Forest Ecology and Management,2010,260(7):1184-1192.
[33] 李修鹏,杨晓东,余树全,等.基于功能性状的常绿阔叶植物防火性能评价[J].生态学报,2013,33(20):6604-6613.
[34] 陈羚,陈锋,牛树奎,等.北京鹫峰景观格局空间特征与森林火险的关联分析[J].北京林业大学学报,2021,43(6):41-49.
[35] GUSTAFSON E J.How has the state-of-the-art for quantification of landscape pattern advanced in the twenty-first century?[J].Landscape Ecology,2019,34(9):2065-2072.
[36] PAIS C,MIRANDA A,CARRASCO J,et al.Deep fire topology:Understanding the role of landscape spatial patterns in wildfire occurrence using artificial intelligence[J].Environmental Modelling & Software,2021,143:105122.
[37] 张德顺,陈陆琪瑶,吴雪,等.上海金山区园林防护绿地群落调查及防火配置优化[J].中国城市林业,2021,19(1):19-24.
[38] 李小川,吴泽鹏,陈宏通,等.广东省珠江三角洲城市森林抗火树种筛选研究[J].热带亚热带植物学报,2003,11(4):316-318.
[39] 王叁.川西南地区主要针叶林可燃物空间分布及潜在火行为[D].北京:北京林业大学,2016.
[40] GANTEAUME A,GUILLAUME B,GIRARDIN B,et al.CFD modelling of WUI fire behaviour in historical fire cases according to different fuel management scenarios[J].International Journal of Wildland Fire,2023,32(3):363-379.
[41] SCHWILK D W,CAPRIO A C.Scaling from leaf traits to fire behaviour:community composition predicts fire severity in a temperate forest[J].Journal of Ecology,2011,99(4):970-980.
[42] PAUSAS J G,BRADSTOCK R A.Fire persistence traits of plants along a productivity and disturbance gradient in Mediterranean shrublands of south-east Australia[J].Global Ecology and Biogeography,2007,16(3):330-340.
[43] 李连强,牛树奎,陶长森,等.妙峰山油松林分结构与地表潜在火行为相关性分析[J].北京林业大学学报,2019,41(1):73-81.
[44] ENRIGHT N J,FONTAINE J B,LAMONT B B,et al.Resistance and resilience to changing climate and fire regime depend on plant functional traits[J].Journal of Ecology,2014,102(6):1572-1581.
[45] 张德顺,吴雪,陈陆琪瑶,等.上海市常见26种园林树种燃烧性评价[J].同济大学学报(自然科学版),2021,49(10):1399-1406.
[46] PRIOR L D,MURPHY B P,WILLIAMSON G J,et al.Does inherent flammability of grass and litter fuels contribute to continental patterns of landscape fire activity?[J].Journal of Biogeography,2017,44(6):1225-1238.
[47] 李艳芹,胡海清.帽儿山主要树种燃烧性分析与排序[J].东北林业大学学报,2010,38(5):34-36.
[48] BURTON J E,CAWSON J G,FILKOV A I,et al.Leaf traits predict global patterns in the structure and flammability of forest litter beds[J].Journal of Ecology,2021,109(3):1344-1355.
[49] YAO M Q,ZHANG D S,ZHU R L,et al.Predicting the integrated fire resistance of wildland-urban interface plant communities by spatial structure analysis learning for Shanghai,China[J].Forests,2024,15(7):1266.
[50] YAO M Q,ZHANG D S,CHEN Y Y,et al.Urban fire risk dynamics and mitigation strategies in Shanghai:integrating spatial analysis and game theory[J].Land,2024,13(8):1125.
[51] ZHANG D S,YAO M Q,CHEN Y Y,et al.The role of urban vegetation in mitigating fire risk under climate change:A Review[J].Sustainability.2025,17:2680.

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