园林植物防火性研究现状与展望

编号 lyqk009929

中文标题 园林植物防火性研究现状与展望

作者 李泓岍  张德顺 

作者单位 同济大学建筑与城市规划学院 上海 200092

期刊名称 中国城市林业 

年份 2022 

卷号 20

期号 3

栏目名称 综合评述 

中文摘要 随着气候变化加剧,发生频次及严重性日益增加的城市火灾对城市生态系统构成严重威胁,加强园林植物防火性研究可以增强绿地防灾避险功能、提升城市应对灾害能力。文章通过文献综述、重点归纳、比较分析等方法,梳理了园林植物的遮热性和抗火性评价方法与指标,以及防火性植物配置等方面的国内外研究现状,并针对现有研究存在的问题,提出未来园林植物防火性评价和防火性植物配置的技术对策。

关键词 园林植物  防火性  遮热性  抗火性 

基金项目 国家自然科学基金华东滨海地区抗风园林树种的选择机制研究:以上海为例(32071824);上海市绿化指导站合作项目上海城市绿化树种结构优化研究(wh0010020220683);应对台风侵袭的上海市行道树应用评价与优化策略研究(wh0010020220684)

英文标题 Research on Fireproof Landscape Plants: Progress and ProspectsLi Hongqian Zhang Deshun

作者英文名 Li Hongqian, Zhang Deshun

单位英文名 College of Architecture and Urban Planning, Tongji University, Shanghai 200092, China

英文摘要 Under the climate change, urban fires area intensified in frequency and severity, imposing a serious threat to urban ecosystems. In this sense, it is significant to strengthen the study of fireproof landscape plants so as to enhance green space's function in disaster prevention and improve cities' abilities to cope with disasters. Through literature review, generalization, and comparative analysis, this paper reviews the research at home and abroad on the methods and indexes of heat shielding and fire resistance of landscape plants and the configuration of fireproof plants, and proposes the technical countermeasures for fire-resistance evaluation of landscape plants and fireproof plant configuration.

英文关键词 landscape plant;fireproof;heat shielding;fire resistance

起始页码 133

截止页码 139

投稿时间 2021-12-10 00:00:00

作者简介 李泓岍(1998-),男,硕士生,研究方向为风景园林规划与设计方法与技术。E-mail:1079280279@qq.com

通讯作者介绍 张德顺(1964-),男,博士,教授,研究方向为园林植物应用与生态规划。E-mail:156548363@qq.com

E-mail 156548363@qq.com

DOI 10.12169/zgcsly.2021.12.10.0001

参考文献 [1] 吴慧玲.近20年气候灾害数量急剧上升[J].生态经济,2020,36(12):52-58.
[2] 周波涛,钱进.IPCC AR6报告解读:极端天气气候事件变化[J].气候变化研究进展,2021,17(6):713-718.
[3] SPRACKLEN D V,MICKLEY L J,LOGAN J A,et al.Impacts of climate change from 2000 to 2050 on wildfire activity and carbonaceous aerosol concentrations in the western United States[J].Journal of Geophysical Research:Atmospheres,2009,114(20):20301.
[4] WOTTON B M,NOCK C A,FLANNIGAN M D.Forest fire occurrence and climate change in Canada[J].International Journal of Wildland Fire,2010,19(3):253-271.
[5] FLANNIGAN M,STOCKS B,TURETSKY M,et al.Impacts of climate change on fire activity and fire management in the circumboreal forest[J].Global Change Biology,2009,15(3):549-560.
[6] 李树华,李延明,任斌斌,等.园林植物的防火功能以及防火型园林绿地的植物配置手法[J].风景园林,2008,4(6):92-97.
[7] 北京园林学会.抓住2008年奥运会机遇进一步提升北京城市园林绿化水平论文集[C].北京:北京市园林局,2005.
[8] BETHKE J A,BELL C E,ONZALES J G,et al.Research literature review of plant flammability testing,fire-resistant plant lists and relevance of a plant flammability key for ornamental landscape plants in the western states[R].San Diego:University of California Cooperative Extension.2016:176.
[9] WHITE R H,ZIPPERER W C.Testing and classification of individual plants for fire behaviour:plant selection for the wildland-urban interface[J].International Journal of Wildland Fire,2010,19(2):213-227.
[10] DETWEILE R A,FITZGERALD S.Fire-resistant plants for home landscapes[M].Corvallis:Oregon State University Extension Service,2006.
[11] SKELLY J,SMITH E.Choosing the right plants for Northern Nevada's high fire hazard areas[M].Nevada:University of Nevada Cooperative Extension,2007.
[12] 王丽俊,郑焕能.城市绿化树种抗火性的初步研究[J].森林防火,1988,6(4):23-25.
[13] 徐家琛.呼和浩特市21种园林植物抑燃性分析[D].呼和浩特:内蒙古农业大学,2020.
[14] 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.
[15] 文定元.关于防火林带几个问题的探讨[J].森林防火,1992,10(4):22-23,33.
[16] 齐藤庸平,岩河信文.樹木の防火機能に関する研究[J].造園雑誌,1982,46(5):158-163.
[17] 岩河信文.都市における樹木の防火機能に関する研究[J].造園雑誌,1984,48(1):26-31.
[18] 林寿則,篠原雅彦,松島早苗,等.火炎近傍の樹木による背後での受熱量の低減効果に関する実験研究[J].日本緑化工学会誌,2012,38(1):33-38.
[19] 林寿則,篠原雅彦,松島早苗,等.有風接炎条件下における樹木の燃焼性状と遮熱機能に関する実験研究[J].生態環境研究,2015,22(1):43-56.
[20] 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.
[21] 田晓瑞.防火林带阻火机理研究[D].北京:北京林业大学,2000.
[22] 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,2015,33(2):25-29.
[23] HUGGETT C.Estimation of rate of heat release by means of oxygen consumption measurements[J].Fire and Mater,1980,4(2):61-65.
[24] 田晓瑞,贺庆棠,舒立福.利用锥形量热仪分析树种阻火性能[J].北京林业大学学报,2001,23(1):48-51.
[25] 李克,倪泽仁,刘晓东,等.南京市5种常见树种的燃烧性研究[J].西北农林科技大学学报(自然科学版),2020,48(1):103-110.
[26] PHILPOT C W.Influence of mineral content on the pyrolysis of plant materials[J].Forest Science.1970,16(4):461-471.
[27] 胡海清,高健,胡同欣.基于热重分析的延边州地区7种常见乔木树种的燃烧性排序[J].中南林业科技大学学报,2020,40(11):1-10.
[28] 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,2003,12(4):316-318.
[29] 彭徐剑,何晨,詹庆斌.3种南方防火树种理化性质的试验研究[J].林产工业,2021,58(3):27-31.
[30] 陈存及.南方林区生物防火的应用研究[J].福建林学院学报,1994,35(2):146-151.
[31] 张介明.杭州西湖风景区防火林带营造技术初探[J].浙江林学院学报,1991,8(4):66-72.
[32] 郑焕能,邸雪颖,姚树人.中国林火[M].哈尔滨:东北林业大学出版社,1993.
[33] 侯继萍,芦建国,余义亮,等.紫金山登山道主要树种抗火性研究[J].火灾科学,2020,29(2):106-114.
[34] ALEXANDER M E,CRUZ M G.Interdependencies between flame length and fireline intensity in predicting crown fire initiation and crown scorch height[J].International Journal of Wildland Fire,2011,21(2):95-113.
[35] DEHANE B,HERNANDO C,GUIJARRO M,et al.Flammability of some companion species in cork oak (Quercus suber L.) forests[J].Annals of Forest Science,2017,74(3):1-10.
[36] 胡海清,高健,胡同欣.基于热重分析的延边州地区7种常见乔木树种的燃烧性排序[J].中南林业科技大学学报,2020,40(11):1-10.
[37] 陈存及,施小芳,胡晃,等.防火林带树种选择的研究[J].福建林学院学报,1988,29(1):1-12.
[38] 李振问,阮传成.防火树种着火特性的研究[J].福建林学院学报,1995,36(3):198-202.
[39] SCOTT J H,REINHARDT E D.Assessing crown fire potential by linking models of surface and crown fire behavior[M].Fort Collins:Rocky Mountain Research Station,2001.
[40] SCOTT J H.Comparison of crown fire modeling systems used in three fire management applications[M].Fort Collins:Rocky Mountain Research Station,2006.
[41] SCARFF F R,WESTOBY M.Leaf litter flammability in some semi-arid Australian woodlands[J].Functional Ecology,2006,20(5):745-752.
[42] CORNWELL W K,ELVIRA A,VAN KEMPEN L,et al.Flammability across the gymnosperm phylogeny:the importance of litter particle size[J].New Phytologist,2015,206(2):672-681.
[43] MATERIĈ D,BRUHN D,TURNER C,et al.Methods in plant foliar volatile organic compounds research[J].Applications in Plant Sciences,2015,3(12):1500044.
[44] ROWE J,SCOTTER G W.Fire in the boreal forest[J].Quaternary Research,1973,3(3):444-464.
[45] ALAM M A,WYSE S V,BUCKLEY H L,et al.Shoot flammability is decoupled from leaf flammability,but controlled by leaf functional traits[J].Journal of Ecology,2020,108(2):641-653.
[46] MONTGOMERY K R,CHEO P C.Effect of leaf thickness on ignitibility[J].Forest Science,1971,17(4):475-478.
[47] BATISTA A C,BIONDI D,MARTINI A.Flammability of ornamental species for fire management in wildland-urban interface in Paraná state[J].Floresta,2020,51(1):192-200.
[48] LAWES M J,RICHARDS A,DATHE J.et al.Bark thickness determines fire resistance of selected tree species from fire-prone tropical savanna in north Australia[J].Plant Ecology,2011,212(12):2057-2069.
[49] NOLAN R H,RAHMANI S,SAMSON S A.et al.Bark attributes determine variation in fire resistance in resprouting tree species[J].Forest Ecology and Management,2020,474:118385.
[50] GILL A M,ASHTON D H.The role of bark type in relative tolerance to fire of three central Victorian eucalypts[J].Australian Journal of Botany,1968,16(3):491-498.
[51] 住房和城乡建设部办公厅.城市绿地防灾避险设计导则[EB/OL].(2018-01-12)[2021-12-10].https://www.mohurd.gov.cn/gongkai/fdzdgknr/tzgg/201801/20180112_234781.html.
[52] 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.

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