广州市6种攀援植物降温增湿效应研究
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摘要
对广州市常用的6种攀援植物进行叶面积指数、光合速率和蒸腾速率测定,比较分析其释氧固碳和降温增湿效益。结果表明,簕杜鹃Bougainvillea spectabilis单位绿地面积固碳释氧量最大,降温效果最明显;异叶爬墙虎Parthenocissus dalzielii增湿效果最好。在园林绿化中,城市立体绿化攀援植物可首选异叶爬墙虎、使君子Quisqualis indica和簕杜鹃。
Six species of climbing plants in Guangzhou, including Parthenocissus dalzielii,Bougainvillea spectabilis, Quisqualis indica, Pyrostegia venusta, Wisteria sinensis, Lonicera japonica, were studied to appraise their effects on decreasing temperature and increasing humidity by taking an observation of the carbon dioxide absorbing capacity, oxygen producing. Results showed that B. spectabilis had the highest capability of carbon dioxide absorbing and oxygen producing, and P. dalzielii had the highest level of humidity increase capability. Therefore, it was suggested that P.dalzielii, Q. indica and B. spectabilis should be the first choice in the landscape plants configuration for the city road.
Six species of climbing plants in Guangzhou, including Parthenocissus dalzielii,Bougainvillea spectabilis, Quisqualis indica, Pyrostegia venusta, Wisteria sinensis, Lonicera japonica, were studied to appraise their effects on decreasing temperature and increasing humidity by taking an observation of the carbon dioxide absorbing capacity, oxygen producing. Results showed that B. spectabilis had the highest capability of carbon dioxide absorbing and oxygen producing, and P. dalzielii had the highest level of humidity increase capability. Therefore, it was suggested that P.dalzielii, Q. indica and B. spectabilis should be the first choice in the landscape plants configuration for the city road.
引文
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[2]广州市人民政府.广州市规划局广州市林业和园林局关于推进广州市城市空间立体绿化的意见[EB/OL].http://www.gz.gov.cn/GZ26/2.1/201507/deeb00c75c604ece98d972e7fc2358e1.shtml,2015-03-12.
[3]何仲坚,熊咏梅.四种藤本植物光合作用及影响因子分析[J].广东园林,2016(5):78-80.
[4]王琳琅,翁殊斐,袁喆.广州园林木质藤本资源调查及其景观物候特点[J].中国园林,2015,31(7):64-67.
[5]苏洪林,陈昔灯,罗连,孙延军,林石狮.藤本植物在广州、佛山两地城市公园的应用[J].中国园艺文摘,2018(4):73-76.
[6]袁喆,翁殊斐,王琳琅.广州园林绿地木质藤本景观美景度评价[J].西北林学院学报,2015,30(4):301-306.
[7]冼丽铧,翁殊斐,林熙迪,冯志坚.广州市公园棚架式植物景观评价[J].西北林学院学报,2018,34(1):1-6.
[8]徐冬云,周媛,童俊,董艳芳,姚中华.42种攀援植物固碳释氧和降温增湿效应研究初探[J].江西农业学报,2015,27(4):62-65.
[9]刘光立,陈其兵.成都市四种垂直绿化植物生态学效应研究[J].西华师范大学学报,2004(3):259-262.
[10]杨士弘.城市绿化树木碳氧平衡效应研究[J].城市环境与城市生态,1996,9(1):37-39.
[11]赵平.植被恢复建群植物的生理生态特性研究[D].北京:中国科学院博士学位论文,2001.
[12]赵艳玲,阚丽艳,车生泉.上海社区常见园林植物固碳释氧效应及优化配置对策[J].上海交通大学学报(农业科学版),2014,32(4):46-52.
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